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Steven F. Udvar-Hazy Center: Space Shuttle Enterprise (port hatchway open)

Image by Chris Devers
See a lot more pictures of this, and the Wikipedia report.

Particulars, quoting from Smithsonian National Air and Space Museum | Space Shuttle Enterprise:

Manufacturer:
Rockwell International Corporation

Nation of Origin:
United States of America

Dimensions:
Overall: 57 ft. tall x 122 ft. extended x 78 ft. wing span, 150,000 lb.
(1737.36 x 3718.57 x 2377.44cm, 68039.6kg)

Materials:
Aluminum airframe and body with some fiberglass characteristics payload bay doors are graphite epoxy composite thermal tiles are simulated (polyurethane foam) except for test samples of actual tiles and thermal blankets.

The very first Space Shuttle orbiter, &quotEnterprise,&quot is a complete-scale test car employed for flights in the atmosphere and tests on the ground it is not equipped for spaceflight. Even though the airframe and flight handle components are like those of the Shuttles flown in space, this vehicle has no propulsion system and only simulated thermal tiles due to the fact these attributes had been not required for atmospheric and ground tests. &quotEnterprise&quot was rolled out at Rockwell International’s assembly facility in Palmdale, California, in 1976. In 1977, it entered service for a nine-month-extended method-and-landing test flight program. Thereafter it was used for vibration tests and fit checks at NASA centers, and it also appeared in the 1983 Paris Air Show and the 1984 World’s Fair in New Orleans. In 1985, NASA transferred &quotEnterprise&quot to the Smithsonian Institution’s National Air and Space Museum.

Transferred from National Aeronautics and Space Administration

• • •

Quoting from Wikipedia | Space Shuttle Enterprise:

The Space Shuttle Enterprise (NASA Orbiter Vehicle Designation: OV-101) was the 1st Space Shuttle orbiter. It was built for NASA as portion of the Space Shuttle plan to perform test flights in the atmosphere. It was constructed without having engines or a functional heat shield, and was therefore not capable of spaceflight.

Initially, Enterprise had been intended to be refitted for orbital flight, which would have made it the second space shuttle to fly following Columbia. Nonetheless, in the course of the building of Columbia, details of the final style changed, especially with regard to the weight of the fuselage and wings. Refitting Enterprise for spaceflight would have involved dismantling the orbiter and returning the sections to subcontractors across the country. As this was an expensive proposition, it was determined to be significantly less costly to develop Challenger about a body frame (STA-099) that had been produced as a test post. Similarly, Enterprise was regarded as for refit to replace Challenger after the latter was destroyed, but Endeavour was built from structural spares alternatively.

Service

Construction started on the 1st orbiter on June four, 1974. Designated OV-101, it was initially planned to be named Constitution and unveiled on Constitution Day, September 17, 1976. A create-in campaign by Trekkies to President Gerald Ford asked that the orbiter be named soon after the Starship Enterprise, featured on the tv show Star Trek. Although Ford did not mention the campaign, the president—who throughout World War II had served on the aircraft carrier USS&nbspMonterey&nbsp(CVL-26) that served with USS&nbspEnterprise&nbsp(CV-six)—said that he was &quotpartial to the name&quot and overrode NASA officials.

The style of OV-101 was not the identical as that planned for OV-102, the initial flight model the tail was constructed differently, and it did not have the interfaces to mount OMS pods. A big number of subsystems—ranging from major engines to radar equipment—were not installed on this vehicle, but the capacity to add them in the future was retained. Instead of a thermal protection technique, its surface was primarily fiberglass.

In mid-1976, the orbiter was used for ground vibration tests, permitting engineers to evaluate data from an actual flight automobile with theoretical models.

On September 17, 1976, Enterprise was rolled out of Rockwell’s plant at Palmdale, California. In recognition of its fictional namesake, Star Trek creator Gene Roddenberry and most of the principal cast of the original series of Star Trek were on hand at the dedication ceremony.

Approach and landing tests (ALT)

Major write-up: Strategy and Landing Tests

On January 31, 1977, it was taken by road to Dryden Flight Analysis Center at Edwards Air Force Base, to commence operational testing.

Whilst at NASA Dryden, Enterprise was employed by NASA for a selection of ground and flight tests intended to validate elements of the shuttle plan. The initial nine-month testing period was referred to by the acronym ALT, for &quotApproach and Landing Test&quot. These tests included a maiden &quotflight&quot on February 18, 1977 atop a Boeing 747 Shuttle Carrier Aircraft (SCA) to measure structural loads and ground handling and braking traits of the mated method. Ground tests of all orbiter subsystems had been carried out to confirm functionality prior to atmospheric flight.

The mated Enterprise/SCA mixture was then subjected to five test flights with Enterprise unmanned and unactivated. The objective of these test flights was to measure the flight traits of the mated mixture. These tests were followed with three test flights with Enterprise manned to test the shuttle flight handle systems.

Enterprise underwent five free flights exactly where the craft separated from the SCA and was landed beneath astronaut manage. These tests verified the flight traits of the orbiter design and style and have been carried out below numerous aerodynamic and weight configurations. On the fifth and final glider flight, pilot-induced oscillation issues had been revealed, which had to be addressed before the very first orbital launch occurred.

On August 12, 1977, the space shuttle Enterprise flew on its personal for the first time.

Preparation for STS-1

Following the ALT program, Enterprise was ferried amongst many NASA facilities to configure the craft for vibration testing. In June 1979, it was mated with an external tank and solid rocket boosters (identified as a boilerplate configuration) and tested in a launch configuration at Kennedy Space Center Launch Pad 39A.

Retirement

With the completion of essential testing, Enterprise was partially disassembled to permit particular elements to be reused in other shuttles, then underwent an international tour visiting France, Germany, Italy, the United Kingdom, Canada, and the U.S. states of California, Alabama, and Louisiana (during the 1984 Louisiana World Exposition). It was also utilised to match-verify the in no way-utilised shuttle launch pad at Vandenberg AFB, California. Finally, on November 18, 1985, Enterprise was ferried to Washington, D.C., where it became property of the Smithsonian Institution.

Post-Challenger

Right after the Challenger disaster, NASA considered using Enterprise as a replacement. However refitting the shuttle with all of the required gear necessary for it to be utilized in space was deemed, but as an alternative it was decided to use spares constructed at the exact same time as Discovery and Atlantis to build Endeavour.

Post-Columbia

In 2003, soon after the breakup of Columbia during re-entry, the Columbia Accident Investigation Board carried out tests at Southwest Analysis Institute, which employed an air gun to shoot foam blocks of related size, mass and speed to that which struck Columbia at a test structure which mechanically replicated the orbiter wing top edge. They removed a fiberglass panel from Enterprise’s wing to carry out analysis of the material and attached it to the test structure, then shot a foam block at it. Although the panel was not broken as a result of the test, the effect was sufficient to permanently deform a seal. As the reinforced carbon-carbon (RCC) panel on Columbia was two.five occasions weaker, this recommended that the RCC leading edge would have been shattered. Further tests on the fiberglass had been canceled in order not to risk damaging the test apparatus, and a panel from Discovery was tested to determine the effects of the foam on a similarly-aged RCC major edge. On July 7, 2003, a foam impact test produced a hole 41&nbspcm by 42.five&nbspcm (16.1&nbspinches by 16.7&nbspinches) in the protective RCC panel. The tests clearly demonstrated that a foam influence of the type Columbia sustained could seriously breach the protective RCC panels on the wing top edge.

The board determined that the probable cause of the accident was that the foam impact brought on a breach of a reinforced carbon-carbon panel along the major edge of Columbia’s left wing, allowing hot gases generated for the duration of re-entry to enter the wing and lead to structural collapse. This brought on Columbia to spin out of control, breaking up with the loss of the whole crew.

Museum exhibit

Enterprise was stored at the Smithsonian’s hangar at Washington Dulles International Airport ahead of it was restored and moved to the newly constructed Smithsonian’s National Air and Space Museum‘s Steven F. Udvar-Hazy Center at Dulles International Airport, exactly where it has been the centerpiece of the space collection. On April 12, 2011, NASA announced that Space Shuttle Discovery, the most traveled orbiter in the fleet, will be added to the collection once the Shuttle fleet is retired. When that occurs, Enterprise will be moved to the Intrepid Sea-Air-Space Museum in New York City, to a newly constructed hangar adjacent to the museum. In preparation for the anticipated relocation, engineers evaluated the vehicle in early 2010 and determined that it was safe to fly on the Shuttle Carrier Aircraft as soon as once again.

Nice Surface Grinding Manufacturer photos

Nice Surface Grinding Manufacturer photos

Some cool surface grinding manufacturer images:

44_occupied by detachments of the 2nd Maine Cavalry

Image by Jim Surkamp
Money Wizard R. D. Shepherd and His Fabled Building – McMurran Hall, Shepherdstown, WV by Jim Surkamp
civilwarscholars.com/?p=13106 7907 words.

Made possible with the generous, community-minded support of American Public University, offering a quality, online education. The interpretations of posts in civilwarscholars.com do not in any way reflect the modern-day policies of the University. More at apus.edu

Patriarch R. D. Shepherd’s Homecoming 1859

1_About how a young boy from Shepherdstown
About how a young boy from Shepherdstown built a massive fortune through work, smarts and an act of his own heroism for another; then, turns around and gives much of it back as McMurran Hall, an Almshouse in New Orleans and other gifts.

2_R. D. Shepherd had a strict, flinty way
R. D. Shepherd had a strict, flinty way, but on paper and in the world at large did his huge generosities stand tall, pervade the landscape and enrich the hearts of humanity.

3_Seventy-five-year-old Rezin
Seventy-five-year-old Rezin Davis Shepherd, described by the New Orleans Picayune as having “the largest and most productive estate which has ever been held by one person in this city and State” – began the construction Thursday, October 6th, 1859 of a gift to his home town, this time right on lot no. 1 in Shepherdstown, the very lot where he was born in August 1, 1784.

4_Who knew that in ten fleeting day
Who knew that in ten fleeting days – October 16th – history would be blown off its hinges by the John Brown raiders’ attack fifteen miles away at Harpers Ferry, the match that lit the simmering fever of division between

5_North and South over slavery
North and South over slavery and claimed rights to secede from the Union. The tempest raged back and forth over the county and the town for 1300 hundred days of pitiless strife and war before settling back into being a barren, alien landscape.

6_RD’s building
RD’s (“RD” henceforth for “Rezin Davis Shepherd”) building – beautiful as were all his buildings remains a Greek Revival style, with a two-story-portico and Corinthian flourishes. But in the 1860s, it would bear witness to all that was rent asunder and itself narrowly avoid destruction, unlike a less lucky altruistic juggernaut project of Shepherd’s in New Orleans – the palatial Almshouse. But this, RD’s Town Hall, first named, would eventually live a “long, happy life” first as the County Court, then into its present-day majesty as the signature building of Shepherd University.

Growing Up – RD Learns the Trade:

7_When he was just nine years old
8_placed him in the store and counting house
When he was just nine years old, RD’s father, Abraham, placed him in the store and counting house in Baltimore of William Taylor,

9_an ambitious importer and ship-owner
an ambitious importer and ship-owner. RD’s incredible gifts surfaced when he – just eighteen – was sent to New Orleans to assure a good return on a huge shipment of British goods his firm had purchased for New Orleans’ customers. Then his first big “killing” was with another fresh-faced, hard-driving Taylor colleague, James McDonough. Wrote the Picayune: In October, 1803, it was well known throughout the country that Louisiana had been purchased by the United States. Mr. Taylor was the only merchant who seemed to comprehend the profit from one consequence of the this great political event.

10_in becoming a state
11_all sugar imports thereafter
12_cornered 1800 of those hogsheads
The firm realized that in becoming a state, a duty of 2.5 cents would be added to the price of all sugar imports thereafter. So Shepherd and McDonough – when all the sugar produced in the state was between 2100-2200 hogsheads – cornered 1800 of those hogsheads, giving young RD “a handsome capital for a young man to start in mercantile life.” He soon created a new firm shared with Taylor, then in time through age and retirement became RD’s alone.

13_Coming into his own
Coming into his own, he married Lucy Taylor Gorham of Barnstable, Massachusetts in 1808, who was “a niece and adopted daughter” of Taylor. On August 22nd, 1809, their only child, Ellen Shepherd, was born in Louisiana. (Lucy would die in 1814).

14_the penchant of RD
It was at this juncture the penchant of RD for regular, publicity-averse benefactions took root, in the moment of his willed defiance against a direct military order to work, instead, to save one particular wounded man, left for dead in war, a man who himself would live on to become the epitome of the proverbial Good Man, albeit

15_His name was Judah Touro
extraordinarily wealthy. His name was Judah Touro, a top-hatted, but humble Jewish businessman who believed in respect for all religions and daily applications of the code of good works. He was beloved throughout his circles and region as “the Israelite without guile.”

Wrote Author Colyar:

16_Wrote Author Colyar
17_carrying ammunition on the battle field
While carrying ammunition on the battle field Jan. 1, 1815 Mr. Touro was struck by a 12-pound shot which tore

18_12-pound shot
19_a large mass of flesh from the thigh
a large mass of flesh from the thigh and prostrated him among the dead and dying. Mr. Rezin Shepherd, was carrying a special order from Commodore Patterson across the river to the main army. On reaching the bank he met a friend, who told him his friend Touro was dead. Inquiring where he was, Shepherd was informed that he had been taken to

20_Jackson’s headquarters
an old building in the rear of Jackson’s headquarters. Forgetting his orders, Mr. Shepherd went immediately to the place and found he was not dead, but, as the surgeon said, in a dying condition. Disregarding what the surgeon said, Shepherd got a cart, put him in it, administered stimulants, and took Touro to his own house. He then procured nurses, and by the closest attention, Mr. Touro’s life was saved. Mr. Shepherd returned late in the day,

21_Commodore Patterson in a bad humor
having performed his mission, to find Commodore Patterson in a bad humor, and, speaking severely to him, the latter said: “Commodore, you can hang or shoot me, and it will be all right, but my best friend needed my assistance, and nothing on earth could have induced me to neglect him.”

RD’s businesses continued to grow exponentially and his brother, James Hervey Shepherd, was summoned from Shepherdstown to assist.

22_Shepherd, was summoned from Shepherdstown to assist.
1817-1837 – RD travels to Europe, settles in Boston doting on his daughter’s education.

23_1822 – RD maintained his businesses
24_at 5 Pearl Street and nearby 28 Indian Wharf house.
1822 – RD maintained his businesses and shipping concerns at 5 Pearl Street and nearby 28 Indian Wharf house.

25_her portrait painted by Thomas Sully
26_Gilbert Stuart is commissioned to paint his own portrait
He has her portrait painted by Thomas Sully in 1831, a few years after Gilbert Stuart is commissioned to paint his own portrait. (Stuart died in 1828).

1829, April 20 – Ellen Shepherd marries Gorham Brooks of Medford, Massachusetts.

1834 – RD commissions Samuel Fuller to build the 480-ton merchant ship in Medford, named after his daughter, the “Ellen Brooks.”

27_James Hervey Shepherd dies
1837 – James Hervey Shepherd dies. RD returns to run businesses in New Orleans.

1837, July 23 – Ellen (Shepherd) Brooks and her husband, usually in Boston or Medford, temporarily reside in Baltimore.

28_nephew, Henry Shepherd Jr.
1837-1865 – RD’s nephew, Henry Shepherd Jr., who was brought up in his uncle’s counting room, gradually assumes the role as RD’s agent in New Orleans.

29_painting of the ship the “Ellen Brooks” is completed
1839 – RD’s commissioned painting of the ship the “Ellen Brooks” is completed, attributed to Samuel Walters (British, 1811-1882), called “Ellen Brooks, Off Holyhead, Homeward Bound.”

1841 – RD buys 468 acres of land and begins building Wild Goose Farm, but not yet living there full-time; he also pays for most of the remodeling of the original Trinity Episcopal Church in Shepherdstown.

1842, June – RD signs a petition to Congress along with numerous other planters and sugar manufacturers in the state of Louisiana that asks for an increase in the duties on imported sugar.

1849 – RD places responsibilities on his eighteen-year-old nephew, Henry Shepherd Jr., who would become his agent in New Orleans through the Civil War, allowing RD to return more permanently to his Wild Goose Farm.

30_Wild Goose Farm
31_the 1850 Census shows
32_1850 and 1860 Census slave schedules
1850 – In Shepherdstown & Wild Goose Farm; the 1850 Census shows 66-year-old RD with a period worth of 0,000, living only with workmen: 26-year-old German-born master stonemason Conrad Smith and an overseer. Although one account states Touro stipulated that RD free his enslaved persons, RD is shown to having owned numerous persons, enumerated in both the 1850 and 1860 Census slave schedules.

1854, January 6th – Touro’s Will makes Rezin Davis Shepherd residuary legatee of the estate and executor; 5,000 is willed to specific recipients. A sum iof ,000 is set aside for a palatial almshouse, with the added stipulation to RD that more sums, if needed, should be used to complete this priority project.

Judah Touro made out his will January 6, 1854 a few days before his death that said:

33_my dear, old, and devoted friend, Rezin Davis Shepherd
34_I hereby appoint and institute him
As regards my other designated executor, say my dear, old, and devoted friend, Rezin Davis Shepherd, to whom, under Divine Providence, I am greatly indebted for the preservation of my life when I was wounded on the 1st of January, 1815, I hereby appoint and institute him, the said Rezin Davis Shepherd, after payment of my particular legacies, and the debts of my succession, the universal legatee of the rest and residue of my estates, movable and immovable.

35_funded remodeling of the Trinity
RD continued his projects both in New Orleans and Shepherdstown. He had already funded remodeling of the Trinity

36_planned a clock and bell to its original church
Episcopal Church. He planned a clock and bell to its original church then after some legal squabbling – the clock – to everyone’s assent – was reassigned to be inserted in to the new government building.

The Shepherd Family is Scattered By War:

37_The war hit the family hard
The war hit the family hard. Most of the young men enlisted in Virginia units. RD had to recalibrate his business strategies. Wrote the Richmond Daily Dispatch: June 8, 1861:
The New Orleans Delta states that R. D. Shepherd, Esq., who is now at an advanced time of life, living on his beautiful farm near Shepherdstown, Virginia, has directed his agent in New Orleans to pay over to the treasurer of the Confederate States a large sum of money, including, it is said, his whole annual income from rents in that city — the largest income enjoyed by any property holder — to be applied to the defence of the rights and the support of the independence of the South.

38_spring of 1862 when Federal General Banks
In the spring of 1862 when Federal General Banks with his army entered into Jefferson County, RD took refuge in Boston with his daughter.

39_As the war progressed
As the war progressed, its maw of destruction came closer to Shepherdstown’s nearly complete building. 130,000 troops moved in the area in September, 1862 for the bloody Maryland Campaign, just across the Potomac river. Wounded from the nearby battles poured into Shepherdstown, putting the unfinished Town Hall into service as an outdoor hospital.

Wrote Mary Bedinger Mitchell:

40_The unfinished Town Hall had stood in naked ugliness
The unfinished Town Hall had stood in naked ugliness for many a long day. Somebody threw a few rough boards across the beams, placed piles of straw over them, laid down single planks to walk upon, and lo, it was a hospital at once.

There were six churches and they were all full, the barn-like place known as the Drill Room, all the private houses after their capacity, the shops and empty buildings, the school-houses – every inch of space and yet the cry was for more room.

We went about our work with pale faces and trembling hands, yet trying to appear composed for the sake of our patients, who were much excited. We could hear the incessant explosions of artillery, the shrieking whistles of the shells, and the sharper, deadlier more thrilling roll of musketry; while every now and then the echo of some charging cheer would come, borne by the wind, and as the human voice would pierce that demoniacal clangor we would catch out breath and listen, and try not to sob, and turn back to the forlorn hospitals, to the suffering at our feet and before our eyes while imagination fainted at the thought of those other scenes hidden from us beyond the Potomac.

Had Federal General George McClellan crossed the Potomac and pursued General Lee’s scattered and mauled army, as historians have much criticized him since for not doing, Shepherdstown would have likely suffered greater damage, but, as it was, shells landed in the yards of the Lees and Morgans and one or two even hit Shepherd’s new Town Hall, but were of little consequence.

Property Losses in New Orleans:

41_RD’s fine residence at 18 Bourbon Street
42_18 Bourbon Street in New Orleans
More invasive, improvised use was being made of RD’s fine residence at 18 Bourbon Street in New Orleans, causing his nephew to formally appeal to the Federal powers-that-be in early 1864. He wrote:

43_From Brig. General James Bowen
January 29, 1864
From Brig. General James Bowen
Provost Marshal General
Department of the Gulf.

Sir:
The undersigned acting as the duly authorized agent and attorney in fact of Rezin Davis Shepherd, formerly the State of Virginia, but for more than eight months past residing with his daughter Mrs. Gorham Brooks in the city of Boston and State of Massachusetts, respectfully represents: That the said Shepherd is a loyal citizen of the United States and the true and lawful owner of the Brick Dwelling No. 18 Bourbon Street between Canal and Custom House Streets in the City of New Orleans and also of all the furniture and contents thereof: that in the month of June, 1862 Col. Stafford without show of authority, placed in possession of said house and contents, a man by the name of Horton or Houghton, who has ever since occupied and now occupied and uses the same as a Boarding House, and who never has paid any rent or compensation there and continually refused to do so.

Under the circumstances, the undersigned respectfully appeals to you, General, for relief, and asks that the matter be referred to Capt. Edward Page and Thomas Tileston, or other of them for investigation and that the aforesaid premises and contents be restored to the possession of the owner without delay; Henry Shepherd Jr.

Like The Town Hall, the huge, magnificent Almshouse in New Orleans remained unfinished, to be hit by a worse fate. Shepherd was charged by Touro’s will to first put ,00 toward its construction, then be prepared to put more money into its construction- including even some of Shepherd’s own funds – as recipient of Touro’s residue.

44_occupied by detachments of the 2nd Maine Cavalry
45_The fire started
46_Baked beans fired the building
On September 1, 1865, at a time the Almshouse in New Orleans – still with an unfinished, floorless top floor – was occupied by detachments of the 2nd Maine Cavalry and Company K, First Louisiana Cavalry. A baking oven was in heavy use at one end of the building so that heat would be carried through a fissure in a ventilation system close by. The fire started in the rafters above the third floor. It was night-time with a high wind and no flooring yet laid for the third floor in that wing. Coals dripping from the fire then ignited tar on the lower walls. “Baked beans fired the building” said one from the 2nd Maine Cavalry. The building was uninsured. Just a few months later R. D. Shepherd died of typhoid fever, November 10, 1865, no longer the executor of the estate, leaving no philanthropist to help make up the loss.

Wrote the editors of the Times-Picayune in a long obituary:
In his native village he erected a splendid building, designed for a town hall, also a large academy, with beautiful grounds and a walk. He also deposited with the Mayor annually a large sum to buy fuel and provisions for the poor. He also erected the largest and most costly church in Jefferson County. Many other acts of public and private benevolence were performed by him in his quiet, furtive manner.

With war ended and when he was still healthy, RD had urged that his Town Hall become the County Court since the Charlestown courthouse was a battle-scarred ruin, especially from a shelling it took in the fall of 1863.

A Visitor Contemplates Charlestown’s Ruined Courthouse in mid-1865:

47_the court-house, where that mockery of justice was performed, was a ruin
48_Four massive white brick pillars, still standing, supported a riddled roof
A short walk up into the centre of the town took us to the scene of John Brown’s trial. It was a consolation to see that the jail had been laid in ashes, and that the court-house, where that mockery of justice was performed, was a ruin abandoned to rats and toads. Four massive white brick pillars, still standing, supported a riddled roof, through which God’s blue sky and gracious sunshine smiled. The main portion of the building had been literally torn to pieces. In the floor-less hall of justice rank weeds were growing.

49_Names of Union soldiers were scrawled along the walls
Names of Union soldiers were scrawled along the walls. No torch had been applied to the wood-work, but the work of destruction had been performed by the hands of hilarious soldier-boys ripping up floors and pulling down laths and joists to the tune of “John Brown,” the swelling melody of the song, and the accompaniment of crashing partitions, reminding the citizens, who thought to have destroyed the old hero, that his soul was marching on. It was also a consolation to know that the court-house and jail would probably never be rebuilt, the county-seat having been removed from Charlestown to Shepherdstown — “forever,” say the resolute loyal citizens of Jefferson County, who rose to vote it back again.

50_either buried in Elmwood Cemetery or the Shepherd Burial Ground
The Shepherd boys who enlisted in Virginia companies each – over time – came home and were either buried in Elmwood Cemetery or the Shepherd Burial Ground – or lived.

51_Clarence Edward Shepherd
Clarence Edward Shepherd became a teacher in Maryland.

While RD’s nephew and agent, Henry Shepherd Jr. was in New Orleans during the war, minding the family interests, three of his brothers were at war. The eldest Rezin Davis, his older brother who had a young family

52_eldest Rezin Davis, his older brother who had a young family
since 1858, died of disease November 2, 1862 at his “river cottage” after imprisonment in the Old Capitol Prison for being an associate of Confederate spy, Redmond Burke. He left his widow, Elizabeth Boteler Stockton Shepherd, two children (Fannie and Alexandria) and a third (David) on the way. Probably first buried on his farm, Rezin Shepherd (a nephew of the patriarch) was reburied after peace came in the new Elmwood Cemetery. His site was joined by all his family as time unspooled.

53_twenty-five year-old Abraham
Henry Jr.’s next brother, twenty-five year-old Abraham, enlisted May 22nd, 1861, would move over to Co. F. of the 17th Virginia Cavalry, get wounded at the third battle of Winchester in September 19, 1864, and become a prisoner of war. But he survived the war and died many years later in 1907.

54_Henry Jr.’s younger brother, James Touro (Truro) Shepherd
Henry Jr.’s younger brother, James Touro (Truro) Shepherd, enlisted as a Private May 1st, 1861 in the 2nd Virginia Infantry. Like many, the rigors of marching under Gen. Stonewall Jackson proved an impetus to transfer out into a Cavalry regiment, and he joined Co. B of Gen. Stuart’s Horse Artillery under John Pelham, with a promotion to first lieutenant. His service record ends abruptly in the spring of 1862. The Shepherdstown Register in September, 1865 reported him having died in “Richmond City” in March, 1862. His marker dates his death as August 13, 1862, which may be the date of his re-internment into the family burial ground.

Two sons of James H. and his wife, Florence Hamtramck Shepherd were buried a few feet apart in the family burial ground on Shepherdstown’s New Street adjacent to the Episcopal rectory. Robert F. Shepherd, who joined Co. H, 2nd Va. Infantry, died May 4, 1862 of pneumonia.

55_Robert F. Shepherd, who joined Co. H, 2nd Va. Infantry
56_Alexander H. Shepherd
Alexander H. Shepherd, who enlisted when he was about twenty-eight April 4, 1861 in Co. H of the 2nd Virginia Infantry; he died of typhoid fever at Camp Harman near Fairfax Courthouse September 25-26, 1861.

57_Rezin Davis Shepherd was buried there too
Rezin Davis Shepherd was buried there too, in his own time.

He left all his fortune to his daughter, who, since 1855, had been a widow.

Wrote the Shepherdstown Register: A Large Estate – the late Rezin D. Shepherd left an estate valued at about ,500,000 all of which goes to his daughter, Mrs. Brooks of Boston. He was born in 1784 (on the lot where the court house would be built). In 1809 he went to New Orleans and engaged in the commission business until 1849 and was the executor of the estate of the late Judah Touro. Mr. Shepherd was formerly a merchant in this city, residing on High Street. He accumulated a very large property in New Orleans and was reputed to be one of the wealthiest men of that city. Upon the breaking out of the rebellion, he returned to Boston and resided for a short time with his daughter and sole heir, Mrs. Gorham Brooks, widow of a son of the late Peter C. Brooks. His estate on High Street was formerly, we believe the property of Samuel Dexter.

The Massachusetts Historical Society today displays a cannon donated by the family and acquired by RD – a smaller version of the one that so severely wounded RD’s friend, Judah Touro.

The visiting journalist Trowbridge was proven wrong – the county seat DID go back to the Charlestown Courthouse. Wrote the editors of the Charlestown-based newspaper, The Spirit of Jefferson, in 1894:

58_The Normal College building, formerly the town hall
The Normal College building, formerly the town hall, on Main Street, is a handsome structure, the gift of one of the Shepherd family, Rezin D. from which the town takes its name. You will remember that it was used as a court house since the war and the courts of Jefferson county were held there, one Judge Hall sitting on the bench. A political rape was perpetuated on Charlestown, the party in power, fitly termed radicals, thought they had a sure thing of it, built a jail and added a wing to either side of the town hall, but “the best laid schemes of mice and men gang af’t aglee.” The fellows that did all this mischief were turned down by the people and things took their normal shape and Charlestown was again the county seat.

Shepherd University began when the county seat of Jefferson County, West Virginia, was moved from Shepherdstown to Charles Town in July 1871. On February 27, 1872, the Legislature of West Virginia passed the following act: “That a branch of the State Normal School be and the same is hereby established at the building known as Shepherd College, in Shepherdstown, in the county of Jefferson.”

59_RD’s descendant, Shepherd Brooks
RD’s descendant, Shepherd Brooks, made it final when he deeded the property and building over to the School and a three-person board of trustees to maintain it.

As they say, settings reverse, the tide of life had gone out – and – came back in again.

Steven F. Udvar-Hazy Center: P-40 Warhawk with “sharktooth” nose

Image by Chris Devers
See more photos of this, and the Wikipedia article.

Details, quoting from Smithsonian National Air and Space Museum | Curtiss P-40E Warhawk (Kittyhawk IA):

Whether known as the Warhawk, Tomahawk, or Kittyhawk, the Curtiss P-40 proved to be a successful, versatile fighter during the first half of World War II. The shark-mouthed Tomahawks that Gen. Claire Chennault’s "Flying Tigers" flew in China against the Japanese remain among the most popular airplanes of the war. P-40E pilot Lt. Boyd D. Wagner became the first American ace of World War II when he shot down six Japanese aircraft in the Philippines in mid-December 1941.

Curtiss-Wright built this airplane as Model 87-A3 and delivered it to Canada as a Kittyhawk I in 1941. It served until 1946 in No. 111 Squadron, Royal Canadian Air Force. U.S. Air Force personnel at Andrews Air Force Base restored it in 1975 to represent an aircraft of the 75th Fighter Squadron, 23rd Fighter Group, 14th Air Force.

Donated by the Exchange Club in Memory of Kellis Forbes.

Manufacturer:
Curtiss Aircraft Company

Date:
1939

Country of Origin:
United States of America

Dimensions:
Overall: 330 x 970cm, 2686kg, 1140cm (10ft 9 15/16in. x 31ft 9 7/8in., 5921.6lb., 37ft 4 13/16in.)

Materials:
All-metal, semi-monocoque

Physical Description:
Single engine, single seat, fighter aircraft.

Long Description:
Whether it was the Tomahawk, Warhawk, or Kittyhawk, the Curtiss P-40 was a successful and versatile fighter aircraft during the first half of World War II. The shark-mouthed Tomahawks that General Claire Chennault led against the Japanese remain among the most popular airplanes of the war. In the Phillipines, Lt. Boyd D. Wagner became the first American ace of World War II while flying a P-40E when he shot down six Japanese aircraft during mid-December 1941. P-40s were first-line Army Air Corps fighters at the start of the war but they soon gave way to more advanced designs such as the Republic P-47 Thunderbolt and the Lockheed P-38 Lightning (see NASM collection for both aircraft). The P-40 is not ranked among the best overall fighters of the war but it was a rugged, effective design available in large numbers early in the war when America and her allies urgently required them. The P-40 remained in production from 1939 to the end of 1944 and a total of 13, 737 were built.

Design engineer Dr. Donovan R. Berlin layed the foundation for the P-40 in 1935 when he designed the agile, but lightly-armed, P-36 fighter equipped with a radial, air-cooled engine. The Curtiss-Wright Corporation won a production contract for 210 P-36 airplanes in 1937-the largest Army airplane contract awarded since World War I. Worldwide, fighter aircraft designs matured rapidly during the late 1930s and it was soon obvious that the P-36 was no match for newer European designs. High altitude performance in particular became a priceless commodity. Berlin attempted to improve the P-36 by redesigning it in to accommodate a turbo-supercharged Allison V-1710-11 inline, liquid-cooled engine. The new aircraft was designated the XP-37 but proved unpopular with pilots. The turbo-supercharger was not reliable and Berlin had placed the cockpit too far back on the fuselage, restricting the view to the front of the fighter. Nonetheless, when the engine was not giving trouble, the more-streamlined XP-37 was much faster than the P-36.

Curtiss tried again in 1938. Berlin had modified another P-36 with a new Allison V-1710-19 engine. It was designated the XP-40 and first flew on October 14, 1938. The XP-40 looked promising and Curtiss offered it to Army Air Corps leaders who evaluated the airplane at Wright Field, Ohio, in 1939, along with several other fighter proposals. The P-40 won the competition, after some modifications, and Curtiss received an order for 540. At this time, the armament package consisted of two .50 caliber machine guns in the fuselage and four .30 caliber machine guns in the wings.

After production began in March 1940, France ordered 140 P-40s but the British took delivery of these airplanes when Paris surrendered. The British named the aircraft Tomahawks but found they performed poorly in high-altitude combat over northern Europe and relegated them to low-altitude operations in North Africa. The Russians bought more than 2,000 P-40s but details of their operational history remain obscure.

When the United States declared war, P-40s equipped many of the Army Air Corps’s front line fighter units. The plucky fighter eventually saw combat in almost every theater of operations being the most effective in the China-Burma-India (CBI) Theater. Of all the CBI groups that gained the most notoriety of the entire war, and remains to this day synonymous with the P-40, is the American Volunteer Group (AVG) or the Flying Tigers. The unit was organized after the Chinese gave former U. S. Army Air Corps Captain Claire Lee Chennault almost 9 million dollars in 1940 to buy aircraft and recruit pilots to fly against the Japanese. Chennault’s most important support within the Chinese government came from Madam Chiang Kai-shek, a Lt. Colonel in the Chinese Air Force and for a time, the service’s overall commander.

The money from China diverted an order placed by the British Royal Air Force for 100 Curtiss-Wright P-40B Tomahawks but buying airplanes was only one important step in creating a fighting air unit. Trained pilots were needed, and quickly, as tensions across the Pacific escalated. On April 15, 1941, President Franklin D. Roosevelt quietly signed an Executive Order permitting Chennault to recruit directly from the ranks of American military reserve pilots. Within a few months, 350 flyers joined from pursuit (fighter), bomber, and patrol squadrons. In all, about half the pilots in the Flying Tigers came from the U. S. Navy and Marine Corps while the Army Air Corps supplied one-third. Factory test pilots at Bell, Consolidated, and other companies, and commercial airline pilots, filled the remaining slots.

The Flying Tigers flew their first mission on December 20. The unit’s name was derived from the ferocious fangs and teeth painted on the nose of AVG P-40s at either side of the distinctive, large radiator air intake. The idea is said to originate from pictures in a magazine that showed Royal Air Force Tomahawks of No. 112 Squadron, operating in the western desert of North Africa, adorned with fangs and teeth painted around their air intakes. The Flying Tigers were the first real opposition the Japanese military encountered. In less than 7 months of action, AVG pilots destroyed about 115 Japanese aircraft and lost only 11 planes in air-to-air combat. The AVG disbanded on July 4, 1942, and its assets, including a few pilots, became a part of the U. S. Army Air Forces (AAF) 23rd Fighter Group in the newly activated 14th Air Force. Chennault, now a Brigadier General, assumed command of the 14th AF and by war’s end, the 23rd was one of the highest-scoring Army fighter groups.

As wartime experience in the P-40 mounted, Curtiss made many modifications. Engineers added armor plate, better self-sealing fuel tanks, and more powerful engines. They modified the cockpit to improve visibility and changed the armament package to six, wing-mounted, .50 caliber machine guns. The P-40E Kittyhawk was the first model with this gun package and it entered service in time to serve in the AVG. The last model produced in quantity was the P-40N, the lightest P-40 built in quantity, and much faster than previous models. Curtiss built a single P-40Q. It was the fastest P-40 to fly (679 kph/422 mph) but it could not match the performance of the P-47 Thunderbolt and the P-51 Mustang so Curtiss ended development of the P-40 series with this model. In addition to the AAF, many Allied nations bought and flew P-40s including England, France, China, Russia, Australia, New Zealand, Canada, South Africa, and Turkey.

The Smithsonian P-40E did not serve in the U. S. military. Curtiss-Wright built it in Buffalo, New York, as Model 87-A3 and delivered it to Canada as a Kittyhawk IA on March 11, 1941. It served in No. 111 Squadron, Royal Canadian Air Force (RCAF). When the Japanese navy moved to attack Midway, they sent a diversionary battle group to menace the Aleutian Islands. Canada moved No. 111 Squadron to Alaska to help defend the region. After the Japanese threat diminished, the unit returned to Canada and eventually transferred to England without its P-40s. The RCAF declared the NASM Kittyhawk IA surplus on July 27, 1946, and the aircraft eventually returned to the United States. It had several owners before ending up with the Explorer Scouts youth group in Meridian, Mississippi. During the early 1960s, the Smithsonian began searching for a P-40 with a documented history of service in the AVG but found none. In 1964, the Exchange Club in Meridian donated the Kittyhawk IA to the National Aeronautical Collection, in memory of Mr. Kellis Forbes, a local man devoted to Boys Club activities. A U. S. Air Force Reserve crew airlifted the fighter to Andrews Air Force Base, Maryland, on March 13, 1964. Andrews personnel restored the airplane in 1975 and painted it to represent an aircraft of the 75th Fighter Squadron, 23rd Fighter Group, 14th Air Force.

• • •

Quoting from Wikipedia | Curtiss P-40 Warhawk:

The Curtiss P-40 Warhawk was an American single-engine, single-seat, all-metal fighter and ground attack aircraft that first flew in 1938. It was used by the air forces of 28 nations, including those of most Allied powers during World War II, and remained in front line service until the end of the war. It was the third most-produced American fighter, after the P-51 and P-47; by November 1944, when production of the P-40 ceased, 13,738 had been built, all at Curtiss-Wright Corporation‘s main production facility at Buffalo, New York.

The P-40 design was a modification of the previous Curtiss P-36; this reduced development time and enabled a rapid entry into production and operational service.

Warhawk was the name the United States Army Air Corps adopted for all models, making it the official name in the United States for all P-40s. The British Commonwealth and Soviet air forces used the name Tomahawk for models equivalent to the P-40B and P-40C, and the name Kittyhawk for models equivalent to the P-40D and all later variants.

The P-40’s lack of a two-stage supercharger made it inferior to Luftwaffe fighters such as the Messerschmitt Bf 109 or the Focke-Wulf Fw 190 in high-altitude combat and it was rarely used in operations in Northwest Europe. Between 1941 and 1944, however, the P-40 played a critical role with Allied air forces in three major theaters: North Africa, the Southwest Pacific and China. It also had a significant role in the Middle East, Southeast Asia, Eastern Europe, Alaska and Italy. The P-40’s performance at high altitudes was not as critical in those theaters, where it served as an air superiority fighter, bomber escort and fighter bomber.

P-40s first saw combat with the British Commonwealth squadrons of the Desert Air Force (DAF) in the Middle East and North African campaigns, during June 1941. The Royal Air Force‘s No. 112 Squadron was among the first to operate Tomahawks, in North Africa, and the unit was the first to feature the "shark mouth" logo, copying similar markings on some Luftwaffe Messerschmitt Bf 110 twin-engine fighters. [N 1]

Although it gained a post-war reputation as a mediocre design, suitable only for close air support, more recent research including scrutiny of the records of individual Allied squadrons indicates that the P-40 performed surprisingly well as an air superiority fighter, at times suffering severe losses, but also taking a very heavy toll on enemy aircraft. The P-40 offered the additional advantage of low cost, which kept it in production as a ground-attack fighter long after it was obsolete in the air superiority role.

As of 2008, 19 P-40s were airworthy.

• • • • •

See more photos of this, and the Wikipedia article.

Details, quoting from Smithsonian National Air and Space Museum | Space Shuttle Enterprise:

Manufacturer:
Rockwell International Corporation

Country of Origin:
United States of America

Dimensions:
Overall: 57 ft. tall x 122 ft. long x 78 ft. wing span, 150,000 lb.
(1737.36 x 3718.57 x 2377.44cm, 68039.6kg)

Materials:
Aluminum airframe and body with some fiberglass features; payload bay doors are graphite epoxy composite; thermal tiles are simulated (polyurethane foam) except for test samples of actual tiles and thermal blankets.

The first Space Shuttle orbiter, "Enterprise," is a full-scale test vehicle used for flights in the atmosphere and tests on the ground; it is not equipped for spaceflight. Although the airframe and flight control elements are like those of the Shuttles flown in space, this vehicle has no propulsion system and only simulated thermal tiles because these features were not needed for atmospheric and ground tests. "Enterprise" was rolled out at Rockwell International’s assembly facility in Palmdale, California, in 1976. In 1977, it entered service for a nine-month-long approach-and-landing test flight program. Thereafter it was used for vibration tests and fit checks at NASA centers, and it also appeared in the 1983 Paris Air Show and the 1984 World’s Fair in New Orleans. In 1985, NASA transferred "Enterprise" to the Smithsonian Institution’s National Air and Space Museum.

Transferred from National Aeronautics and Space Administration

Cool Turning Components Manufacturer pictures

Cool Turning Components Manufacturer pictures

Some cool turning parts manufacturer pictures:

Steven F. Udvar-Hazy Center: south hangar panorama, like Grumman G-22 “Gulfhawk II”, Boeing 367-80 (707) Jet Transport, Air France Concorde amongst other people

Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | Grumman G-22 &quotGulfhawk II&quot:

A single of the most exciting aerobatic aircraft of the 1930s and ’40s, the Grumman Gulfhawk II was constructed for retired naval aviator and air show pilot Al Williams. As head of the Gulf Oil Company’s aviation division, Williams flew in military and civilian air shows around the nation, performing precision aerobatics and dive-bombing maneuvers to promote military aviation in the course of the interwar years.

The sturdy civilian biplane, with its powerful aluminum monocoque fuselage and Wright Cyclone engine, practically matched the Grumman F3F standard Navy fighter, which was operational at the time. It took its orange paint scheme from Williams’ Curtiss 1A Gulfhawk, also in the Smithsonian’s collection. Williams personally piloted the Gulfhawk II on its last flight in 1948 to Washington’s National Airport.

Present of Gulf Oil Corporation

Manufacturer:
Grumman Aircraft Engineering Corporation

Date:
1936

Nation of Origin:
United States of America

Dimensions:
Wingspan: eight.7 m (28 ft 7 in)
Length: 7 m (23 ft)
Height: three.1 m (10 ft)
Weight, aerobatic: 1,625 kg (3,583 lb)
Weight, gross: 1,903 kg (4,195 lb)
Prime speed: 467 km/h (290 mph)
Engine: Wright Cyclone R-1820-G1, 1,000 hp

Components:
Fuselage: steel tube with aluminum alloy
Wings: aluminum spars and ribs with fabric cover

Physical Description:
NR1050. Aerobatic biplane flown by Main Alford &quotAl&quot Williams as demonstration aircraft for Gulf Oil Business. Related to Grumman F3F single-seat fighter aircraft flown by the U.S. Navy. Wright Cyclone R-1820-G1 engine, 1000 hp.

• • • • •

Quoting Smithsonian National Air and Space Museum | Boeing 367-80 Jet Transport:

On July 15, 1954, a graceful, swept-winged aircraft, bedecked in brown and yellow paint and powered by four revolutionary new engines initial took to the sky above Seattle. Constructed by the Boeing Aircraft Firm, the 367-80, greater recognized as the Dash 80, would come to revolutionize commercial air transportation when its developed version entered service as the renowned Boeing 707, America’s initial jet airliner.

In the early 1950s, Boeing had begun to study the possibility of making a jet-powered military transport and tanker to complement the new generation of Boeing jet bombers entering service with the U.S. Air Force. When the Air Force showed no interest, Boeing invested million of its personal capital to develop a prototype jet transport in a daring gamble that the airlines and the Air Force would buy it as soon as the aircraft had flown and established itself. As Boeing had completed with the B-17, it risked the firm on one roll of the dice and won.

Boeing engineers had initially based the jet transport on research of enhanced styles of the Model 367, much better known to the public as the C-97 piston-engined transport and aerial tanker. By the time Boeing progressed to the 80th iteration, the design and style bore no resemblance to the C-97 but, for security causes, Boeing decided to let the jet project be known as the 367-80.

Perform proceeded rapidly following the formal start of the project on May 20, 1952. The 367-80 mated a massive cabin primarily based on the dimensions of the C-97 with the 35-degree swept-wing style primarily based on the wings of the B-47 and B-52 but considerably stiffer and incorporating a pronounced dihedral. The wings had been mounted low on the fuselage and incorporated high-speed and low-speed ailerons as properly as a sophisticated flap and spoiler system. 4 Pratt &amp Whitney JT3 turbojet engines, every single creating ten,000 pounds of thrust, were mounted on struts beneath the wings.

Upon the Dash 80’s initial flight on July 15, 1954, (the 34th anniversary of the founding of the Boeing Organization) Boeing clearly had a winner. Flying 100 miles per hour more rapidly than the de Havilland Comet and considerably bigger, the new Boeing had a maximum variety of far more than 3,500 miles. As hoped, the Air Force purchased 29 examples of the style as a tanker/transport following they convinced Boeing to widen the design and style by 12 inches. Happy, the Air Force designated it the KC-135A. A total of 732 KC-135s were constructed.

Rapidly Boeing turned its focus to selling the airline industry on this new jet transport. Clearly the sector was impressed with the capabilities of the prototype 707 but by no means much more so than at the Gold Cup hydroplane races held on Lake Washington in Seattle, in August 1955. For the duration of the festivities surrounding this event, Boeing had gathered many airline representatives to appreciate the competition and witness a fly past of the new Dash 80. To the audience’s intense delight and Boeing’s profound shock, test pilot Alvin &quotTex&quot Johnston barrel-rolled the Dash 80 more than the lake in full view of thousands of astonished spectators. Johnston vividly displayed the superior strength and performance of this new jet, readily convincing the airline business to purchase this new airliner.

In looking for a industry, Boeing found a prepared customer in Pan American Airway’s president Juan Trippe. Trippe had been spending significantly of his time browsing for a suitable jet airliner to enable his pioneering business to keep its leadership in international air travel. Operating with Boeing, Trippe overcame Boeing’s resistance to widening the Dash-80 design and style, now known as the 707, to seat six passengers in every seat row rather than five. Trippe did so by putting an order with Boeing for 20 707s but also ordering 25 of Douglas’s competing DC-eight, which had yet to fly but could accommodate six-abreast seating. At Pan Am’s insistence, the 707 was produced 4 inches wider than the Dash 80 so that it could carry 160 passengers six-abreast. The wider fuselage developed for the 707 became the common design and style for all of Boeing’s subsequent narrow-physique airliners.

Despite the fact that the British de Havilland D.H. 106 Comet and the Soviet Tupolev Tu-104 entered service earlier, the Boeing 707 and Douglas DC-eight were bigger, more rapidly, had higher variety, and have been much more profitable to fly. In October 1958 Pan American ushered the jet age into the United States when it opened international service with the Boeing 707 in October 1958. National Airlines inaugurated domestic jet service two months later employing a 707-120 borrowed from Pan Am. American Airlines flew the first domestic 707 jet service with its own aircraft in January 1959. American set a new speed mark when it opened the first routinely-scheduled transcontinental jet service in 1959. Subsequent nonstop flights among New York and San Francisco took only 5 hours – three hours much less than by the piston-engine DC-7. The 1-way fare, such as a surcharge for jet service, was 5.50, or 1 round trip. The flight was almost 40 % faster and practically 25 percent cheaper than flying by piston-engine airliners. The consequent surge of visitors demand was substantial.

The 707 was initially designed for transcontinental or a single-quit transatlantic range. But modified with added fuel tanks and more effective turbofan engines, the 707-300 Intercontinental series aircraft could fly nonstop across the Atlantic with complete payload beneath any conditions. Boeing constructed 855 707s, of which 725 were bought by airlines worldwide.

Possessing launched the Boeing Company into the commercial jet age, the Dash 80 soldiered on as a hugely effective experimental aircraft. Till its retirement in 1972, the Dash 80 tested many sophisticated systems, many of which were incorporated into later generations of jet transports. At one particular point, the Dash 80 carried three various engine kinds in its 4 nacelles. Serving as a test bed for the new 727, the Dash 80 was briefly equipped with a fifth engine mounted on the rear fuselage. Engineers also modified the wing in planform and contour to study the effects of various airfoil shapes. Numerous flap configurations have been also fitted like a highly sophisticated method of &quotblown&quot flaps which redirected engine exhaust over the flaps to increase lift at low speeds. Fin height and horizontal stabilizer width was later increased and at 1 point, a specific a number of wheel low pressure landing gear was fitted to test the feasibility of operating future heavy military transports from unprepared landing fields.

Right after a extended and distinguished profession, the Boeing 367-80 was lastly retired and donated to the Smithsonian in 1972. At present, the aircraft is installated at the National Air and Space Museum’s new facility at Washington Dulles International Airport.

Present of the Boeing Firm

Manufacturer:
Boeing Aircraft Co.

Date:
1954

Nation of Origin:
United States of America

Dimensions:
Height 19′ 2&quot: Length 73′ 10&quot: Wing Span 129′ 8&quot: Weight 33,279 lbs.

Physical Description:
Prototype Boeing 707 yellow and brown.

• • • • •

Quoting Smithsonian National Air and Space Museum | Concorde, Fox Alpha, Air France:

The 1st supersonic airliner to enter service, the Concorde flew thousands of passengers across the Atlantic at twice the speed of sound for over 25 years. Made and built by Aérospatiale of France and the British Aviation Corporation, the graceful Concorde was a spectacular technological achievement that could not overcome severe financial issues.

In 1976 Air France and British Airways jointly inaugurated Concorde service to destinations about the globe. Carrying up to 100 passengers in fantastic comfort, the Concorde catered to 1st class passengers for whom speed was crucial. It could cross the Atlantic in fewer than four hours – half the time of a conventional jet airliner. Nonetheless its higher operating fees resulted in very higher fares that restricted the quantity of passengers who could afford to fly it. These issues and a shrinking market sooner or later forced the reduction of service till all Concordes have been retired in 2003.

In 1989, Air France signed a letter of agreement to donate a Concorde to the National Air and Space Museum upon the aircraft’s retirement. On June 12, 2003, Air France honored that agreement, donating Concorde F-BVFA to the Museum upon the completion of its final flight. This aircraft was the very first Air France Concorde to open service to Rio de Janeiro, Washington, D.C., and New York and had flown 17,824 hours.

Gift of Air France.

Manufacturer:
Societe Nationale Industrielle Aerospatiale
British Aircraft Corporation

Dimensions:
Wingspan: 25.56 m (83 ft 10 in)
Length: 61.66 m (202 ft 3 in)
Height: 11.3 m (37 ft 1 in)
Weight, empty: 79,265 kg (174,750 lb)
Weight, gross: 181,435 kg (400,000 lb)
Prime speed: 2,179 km/h (1350 mph)
Engine: Four Rolls-Royce/SNECMA Olympus 593 Mk 602, 17,259 kg (38,050 lb) thrust each
Manufacturer: Société Nationale Industrielle Aérospatiale, Paris, France, and British Aircraft Corporation, London, United Kingdom

Physical Description:
Aircaft Serial Quantity: 205. Including 4 (4) engines, bearing respectively the serial number: CBE066, CBE062, CBE086 and CBE085.
Also incorporated, aircraft plaque: &quotAIR FRANCE Lorsque viendra le jour d’exposer Concorde dans un musee, la Smithsonian Institution a dores et deja choisi, pour le Musee de l’Air et de l’Espace de Washington, un appariel portant le couleurs d’Air France.&quot

1646 M Alfa 1910 MiNr 718

Image by Morton1905
Alfa Romeo Automobiles S.p.A. occasionally colloquially referred to as just Alfa, is an Italian manufacturer of automobiles. Founded as A.L.F.A. (Anonima Lombarda Fabbrica Automobili) on June 24, 1910, in Milan, the company has been involved in auto racing because 1911, and has a reputation for building costly sports vehicles.The business was owned by Italian state holding business Istituto per la Ricostruzione Industriale among 1932 and 1986, when it became a element of the Fiat Group,[4] and considering that February 2007 a element of Fiat Group Automobiles S.p.A.
The organization that became Alfa Romeo was founded as Società Anonima Italiana Darracq (Stated) in 1906 by the French automobile firm of Alexandre Darracq, with some Italian investors. In the late 1909, the Italian Darracq vehicles have been selling slowly and a new company was founded named A.L.F.A. (Anonima Lombarda Fabbrica Automobili, English: Lombard Automobile Factory, Public Company), initially still in partnership with Darracq. The initial non-Darracq car developed by the business was the 1910 24 HP, created by Giuseppe Merosi. A.L.F.A. ventured into motor racing, with drivers Franchini and Ronzoni competing in the 1911 Targa Florio with two 24 HP models. In August 1915 the firm came under the path of Neapolitan entrepreneur Nicola Romeo, who converted the factory to make military hardware for the Italian and Allied war efforts. In 1920, the name of the organization was changed to Alfa Romeo with the Torpedo 20-30 HP becoming the first vehicle to be badged as such.
In 1928 Nicola Romeo left, with Alfa going broke soon after defense contracts ended, and at the finish of 1932 Alfa Romeo was rescued by Benito Mussolini’s government, which then had powerful manage. The Alfa factory struggled to return to profitability soon after the Second Planet War, and turned to mass-making modest cars rather than hand-constructing luxury models. In 1954 the business developed the classic Alfa Romeo Twin Cam engine, which would remain in production until 1998.[citation needed] During the 1960s and 1970s Alfa Romeo developed a quantity of sporty vehicles, although the Italian government parent company, Finmeccanica, struggled to make a profit so sold the marque to the Fiat Group in 1986.
Alfa Romeo has competed successfully in several various categories of motorsport, like Grand Prix motor racing, Formula One, sportscar racing, touring vehicle racing and rallies. They have competed both as a constructor and an engine supplier, by means of performs entries (generally below the name Alfa Corse or Autodelta) and private entries. The first racing auto was produced in 1913, three years after the foundation of the business, and Alfa Romeo won the inaugural world championship for Grand Prix vehicles in 1925. The organization gained a excellent name in motorsport, which gave a sporty image to the entire marque. Enzo Ferrari founded the Scuderia Ferrari racing group in 1929 as an Alfa Romeo racing group, before becoming independent in 1939.

Nice Machining Manufacturer images

Nice Machining Manufacturer images

Check out these machining manufacturer photos:

Image from web page 1276 of “The Post-Workplace annual Glasgow directory” (1828)

Image by Internet Archive Book Photos
Identifier: postofficeannual188081gla
Title: The Post-Workplace annual Glasgow directory
Year: 1828 (1820s)
Authors:
Subjects:
Publisher: Glasgow : printed by J. Graham for the letter-carriers of the Post-Office
Contributing Library: National Library of Scotland
Digitizing Sponsor: National Library of Scotland

View Book Web page: Book Viewer
About This Book: Catalog Entry
View All Photos: All Photos From Book

Click here to view book on-line to see this illustration in context in a browseable online version of this book.

Text Appearing Before Image:
nks in Pearl, Ivory, and Gold Scarf Pins, set with real stones in 14 Carat Gold »rooches. Lockets, and Silver Jewellery. Commercial ENTERPRISE. Recently there appeared a paragraph simultaneously in the London press, that Messrs. Grei&amp Cadbuky, of Birmingham, had sent to lady residents in London alone, in 1 day, upwards/158,000 sophisticated souvenirs of their patent linen button, The Very Button —Shakspeiontaining samples embossed in ten sizes on a ground of mauve and gold, and for which the!)f £329 12s. 6d. was paid in postage. This firm have constructed within the last two years the|ind most complete button manufactory, in its arrangements, in the United Kingdom emp|ipwards of 400 operatives, they turn out from 10,000 to 15,000 gross of buttons weekly (tilozen to the gross). Linen buttons, produced from the finest Belfast linens, tailors buttoniind plated livery, crest, and naval buttons, and other folks innumerable.—From the Eiiv^Maiir Sold by all Drapers. THE Quite BUTTON.—Shakspeare

Text Appearing Following Image:
Ask for ik??« Beioare of Spurious Imitations.m The Name GREEN and CADBURY is on ever!/ card. 34 APvGYLE STREET, GLASGC 192 Ads. ESTABLISHEDIS56. ■IS iipii ESTABLISHED1856. 5S CHAKliOTTE LANE. For making use of by Hand or Machine, Created and Manufacturedin Steel, Iron, Brass, &ampc. Of every description Engraved, but specially for Time Checks. Tallies,J j,._^ Labels, Patent and Registered Trade Marks, &ampc. -M Manufactured in all Metals—Hundreds ■■of Samples to select from. ,ABEL8, CHECKS, &ampc. STEEL STAMP Zr MARK MANUFACTURER For Edge Tools, Bar and Sheet Iron, Brass, AVood, &ampc. CAST STEEL LETTERS &amp FIGURES. Hundreds of Sets in Stock from one-sixteenth to half an inch. Fine—for Plans, Dimensions, &ampc.Large—for Shippers, Bags, Bales, Boxes, &ampc. STENCIL BRUSHES &amp Solid INK. Usually in Stock, ] .viOULDERS Pattern Letters, Name Plates, Sc. Hundreds of Sets, from one particular-fourth of an inch to two inches, often in Stock. CONFECTIONERS MOTTO STAMPS ^very

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BOAC 707

Image by caribb
A Blast from the Previous – from slide to film then scanned..
-This was one more considerable trip for me…. the one particular that genuinely sparked my interest in aviation. It really is my very first trip that I have a conscious memory of.. YUL-LHR-YUL. I recall wanting to fly a VC-10, the plane of the day that was most fascinating for me however we ended up on a 707 which initially disappointed me…nevertheless, I loved it so significantly I never ever stopped searching at planes after. So here’s the BOAC 707 that quite considerably began it all for me back in August 1970. A Qantas 707 VJet was parked next to us. Every thing at Heathrow was incredible to me…it was my 1st airplane heaven LOL 🙂 No registration quantity though sadly.. not even certain of the variant. BOAC eventually merged with BEA and formed British Airways.

*Airplanes 101* (See Airplanes 101 Set)
Name: Boeing 707
Manufacturer: Boeing (USA)
Major Part: Massive Capacity long variety jet
Simple style: four wing mounted engines, single aisle narrow body jet.
Capacity: Roughly around 110-202 passengers
Range: 6820 – 6920km
Very first delivery date: 1958 (to Pan Am)
In Production: 1958-1979
Nevertheless in production in 2008: No
Effortlessly confused for: DC-8 series,
Major identifying points: The Antennae at the top of it is tail is the most recognizable feature of this aircraft. The fuselage looks like a stretched 737 and it has 4 little styled engines mounted on the wings..
Examples of Primary Operators: This aircraft was, along with the DC-eight, the principal inter-continental aircraft employed by airlines planet wide in the 1960s and 1970s. It was replaced by the Boeing 747, DC-ten, L1011 and A300 in the late 1970s and 1980s. Few examples are left flying these days. Numerous are cargo jets and most are situated in Asia, Africa and South America. Iran Air still flies a handful in their area. John Travolta purchased and revamped an old Qantas 707 and is flying it about the world these days. The tail would look like the tail in the photo about (Red tail to the proper of the BOAC 707 in the photo) That is likely your very best bet at seeing a single. The US military nevertheless flies a variant of the 707 as does NATO.
Key operators have been: Pan Am, TWA, American, Eastern, Northwest, Western, BOAC, Air France, Lufthansa, Aer Lingus, Olympic, TAP, MEA, Iran Air, PIA, Air India, South African, Varig, Aerolineas Argentinas, Qantas, Cathay Pacific, Singapore Airlines

en.wikipedia.org/wiki/Boeing_707
www.airlinercafe.com/web page.php?id=72

Nice Turned Components Manufacturer images

Nice Turned Components Manufacturer images

Check out these turned components manufacturer images:

Championnat Européen de DRIFT – Bordeaux Mérignac Gironde 13 et 14 septembre 2014 – BMW M3 – Moteur Engine Puissance Power Car Speed Vitesse – Picture Image Photography – King of Europe KOE turbo oil huile frein brake transmission www.supercar-roadtrip.fr

Image by SuperCar-RoadTrip.fr
Bordeaux race track makes its return on the calendar with a very nice and curvy layout. France is a big motorsport nation and with this event running just 1 week before the final, it means all the best drivers will be in attendance on this demanding circuit.
www.kingofeurope.net/2014b/index.php/component/ohanah/pro…

www.supercar-roadtrip.fr/
La M3 e30 en compétition
BMW M3 E30 en course.
BMW M3 E30 en DTM (ici lors du Essen Motor Show 2011).

Parmi les nombreux préparateurs qui la développèrent et l’engagèrent, l’équipe britannique PRODRIVE de David Richards, connu son heure de gloire avec cette voiture.

Elle gagna à 4 reprises la fameuse course d’endurance des 24 Heures de Spa (1987, 1988, 1990 et 1992).

En rallyes, elle remporta la première manche du championnat du monde à laquelle elle participa : le Tour de Corse 1987, entre les mains du français Bernard Béguin (avec plus de deux minutes d’avance sur son compatriote Yves Loubet). Avec la M3, Béguin fut vice-champion de France des rallyes en 1987 et 1988.

Toujours en rallye, citons aussi :

ses deux titres en Championnat de Belgique des rallyes (BRC): en 1988 avec Patrick Snijers, vice-champion d’Europe la même année et 1989 grâce à Marc Duez. ;

ses deux titres en Championnat de France des rallyes (CFR) : en 1989 et 1990 pour François Chatriot.

Courses sur glace : les deux victoires aux 24 heures sur glace de Chamonix en 1991 et 1992 avec Marcel Tarrès (2), Christian Debias (1) et B. Béguin (1) et les trois autres victoires de M. Tarrès -seul cette fois- à la Ronde de Serre Chevalier en 1991, 1992 (version 4×4) et 1993 (4×4) dans le cadre du Trophée Andros.

Au final, la M3 e30 remporta 16 victoires en CFR entre 1987 et 1990, 7 en BRC ,et 9 en ERC avec des pilotes français (6 avec des belges). Dans la foulée Pascal Thomasse obtint deux podiums en Championnat de France D2, en 1990 et 1994.

Elle était déclinée tant en version "Groupe N" qu’en "Groupe A".

Elle est à l’heure actuelle toujours utilisée par de nombreux pilotes amateurs, partout en Europe (entre’autres en Coupe de France des rallyes, où elle s’est imposée sans discontinuer entre 1990 et 1995, puis en 1998 (E30 et E36): Hugues Delage obtint les coupes 1990, 1993 et 1994, et Dominique de Meyer celle de l’année 1991 et la finale de 1995 (Christophe Lapierre vainqueur de la coupe 1992, et Patrick Rouillard de celle 1998 pour la dernière fois de l’évolution M3); au Liban Nabil Karam s’est imposé en 1991).

En Championnat d’Europe de course de côte, elle a remporté le titre de Catégorie I à cinq reprises consécutives avec Francis Dosières entre 1989 et 1993 (voiture homologuée Gr.A); s’en suivirent de nombreux autres titres toujours de Catégorie I pour les versions ultérieures de la M3 Gr.A, avec le tchèque Otakar Krámský (1995, 1997 et 1998), le croate Niko Pulić (1999, 2000 et 2001), le tchèque Robert Šenkýř (2003 et 2004) et l’allemand Jörg Weidinger (2005 et 2006), soit 15 titres de championne d’Europe entre 1989 et 2006. Le Challenge international de la montagne (FCHA) de la FIA ne lui a pas non plus échappé, avec le hongrois László Hernádi (2006, 2007 et 2008).

En Tourisme et Grand Tourisme, le titre mondial Tourisme 1987 (le seul attribué durant 18 ans) revint à l’italien Roberto Ravaglia (victoires de la M3 à Jarama, Dijon, aux 24 Heures de Spa, et à Silverstone), le Championnat d’Europe FIA des voitures de tourisme fut remporté en 1987 par Winfried Vogt (plus titre constructeurs) et en 1988 par Roberto Ravaglia, le Deutsche Tourenwagen Masters (D.T.M.) pilotes (Tourisme) fut gagné en 1987 par Eric van de Poele et en 1989 encore par Roberto Ravaglia (plus les titres constructeurs de 1987 à 1990), le BTCC (British Touring Cars Championship) le fut par deux fois avec Frank Sytner (1988) et Will Hoy (1991, et titre constructeur), le Championnat de France de Supertourisme le fut aussi par deux fois grâce à Jean-Pierre Malcher (1989 et 1990; plus Dayraut en 2001 sur la version Silhouette), et le titre national Belge Grand Tourisme 1996 revint à l’équipage Hubert/Hubert/Duez; la voiture remporta notamment les 24 Heures du Nürburgring en 1989 (avec Ravaglia), 1990, 1991 et 1992 (Duez alors lauréat), puis 1994, 1996 et 1997 (E36 pour les deux dernières dates), et les 24 Heures de Spa en 1987, 1988 (avec Ravaglia), 1990 et 1992.

Ravaglia a ainsi pu obtenir le WTCC (1987), l’ETCC (1988) et le DTM (1989) avec la M3. Dans la foulée il a aussi remporté le Campionato Italiano Superturismo en 1990 et 1991 (16 victoires en deux ans). Sa première grande victoire sur M3 avait été au Grand Prix automobile de Macao, en 1987.

M3 E36 (1992-1999)
M3 E36
BMW M3
Marque BMW
Années de production 1992-1999
Production 71 242 exemplaires
Classe Sportive, GT,
Moteur et transmission
Moteur(s) S50B30 (3.0l) / S50B32 (3 2 l)
Puissance maximale 210 kW soit 286 ch (3 l) et 236 kW soit 321 ch (3,2 l) ch
Couple maximal 350 Nm à 3 200 tr/min Nm
Transmission propulsion
Poids et performances
Poids à vide 1 460 kg pour la 3.0l et 1 474 kg pour la 3.2l kg
Vitesse maximale 290 km/h
Accélération 0 à 100 km/h en 5,4 s pour la 3.2l et 5,7 s à 6 s pour la 3.0l s
Consommation mixte Ville/route/mixte : 16,9 / 7,5 / 11,0 L/100 km
Châssis – Carrosserie
Carrosserie(s) coupé (2 portes), sedan (4 portes) et cabriolet (2 portes)
Suspensions Pseudo MacPherson avant/ multi bras arrière
Dimensions
Longueur 4 430 mm
Largeur 1 710 mm
Hauteur 1 340 mm
Chronologie des modèles
Précédent BMW M3 E30 BMW M3 E46 Suivant
modifier Consultez la documentation du modèle

La M3 E36, commercialisée à partir de 1992 n’a plus grand-chose à voir avec la version précédente : l’E30. En effet, d’un point de vue esthétique, la ligne est entièrement revue.

Mais c’est au niveau du moteur que la division "M" de BMW a effectué les plus gros changements : le 4 cylindres de l’E30 est remplacé par un 6 cylindres en ligne de 3 L et gagne ainsi, dans un premier temps, plus de 50 chevaux pour atteindre, sur la première version d’E36, 286 ch. D’autre modifications apparaissent en 1996 avec un 6 cylindres de 3,2 l équipé d’une épure binaire circulaire variable grâce au « vanos », qui lui confère un couple incroyable de 350 Nm. La puissance atteint les 321 ch accouplés à une boîte 6 vitesses, deuxième changement majeur de cette nouvelle version d’E36 M3. Elle a d’ailleurs été élue voiture du XXe siècle par le magazine Auto Plus, et voiture la plus maniable de l’époque par Car and Driver Magazine.

M3 E46 (2000-2006)
BMW M3 E46
BMW M3
Marque BMW
Années de production 2001-2006
Classe Sportives, GT
Moteur et transmission
Moteur(s) Essence 6 en ligne 3 246 cm3
Puissance maximale 3431 ch
Couple maximal 3652 Nm
Transmission Propulsion
Poids et performances
Poids à vide 1 4853 kg
Vitesse maximale 300 km/h
Accélération 0 à 100 km/h en 5,24 s
Consommation mixte 12.1 L/100 km
Émission de CO2 292 g/km
Châssis – Carrosserie
Carrosserie(s) Coupé et Cabriolet
Suspensions ???
Dimensions
Longueur 4 492 mm
Largeur 1 780 mm
Hauteur 1 370 mm
Chronologie des modèles
Précédent M3 E36 M3 E92 Suivant
modifier Consultez la documentation du modèle

La M3 E46 présente des attributs esthétiques évocateurs : ailes enflées, larges prise d’air, capot bosselé, petit becquet arrière, deux doubles sorties d’échappement, jantes 18" (19" en option), mais l’ensemble se veut haut de gamme et plutôt raffiné. À bord, en revanche, rien de neuf, la M3 se démarque très peu d’un coupé Série 3. Au niveau du moteur, elle possède une mécanique bien peu ordinaire. En effet, le six-cylindres 3,2 L de la version précédente est reconduit mais a gagné 45 cm3, 22 ch et 1,3 mkg de couple, obtenus 1 650 tr/min plus haut. Avec un rendement exceptionnel de 106 ch/litre, ce bloc vient rejoindre le podium des meilleurs « atmos » du moment, juste derrière la Honda S2000 et la Ferrari 360 Modena. Au-delà des chiffres, la disponibilité de cette mécanique sur une large plage d’utilisation réjouit tout autant que sa sonorité sportive à souhait. Un bouton "sport" au tableau de bord améliore la réponse des injecteurs et permet une conduite encore plus active. Au tableau de bord, un compte-tours "thermostatique" vous aide à prendre soin du bijou. Moteur froid, des diodes orange ponctuent chaque 500 tr/min à partir de 4 000 tr/min. Elles s’éteignent ensuite une à une quand le moteur monte en température. Avec ses 343 ch, elle effectue le 0 à 100 km/h en 5"25, 80 à 120 en 5"4 (en 4e). Cette nouvelle version ne fait pas beaucoup mieux que la précédente car elle a grossi et son rapport poids/puissance reste donc inchangé. Niveau consommation, la M3 E46 consomme 11,5 L/100 km, mais peut consommer jusqu’à 60 L/100 km en activant régulièrement le bouton "sport" sur le tableau de bord. En ce qui concerne le freinage, talon d’Achille des BMW M, comme sur l’ancienne version, les quatre grands disques sont suffisants en temps normal, mais leur efficacité est rapidement mise à mal en rythme soutenu pour stopper les 1 500 kg de cette sportive. La M3 E46 perpétue avec brio la réputation liée à son nom. Plus facile et abordable qu’auparavant, elle conserve un rapport prix/performances avantageux.

M3 E90/E92 (2007-2013)
BMW M3 (E92)
BMW M3
Marque BMW
Années de production 2007-2012
Classe Sportive, GT
Moteur et transmission
Moteur(s) Essence V8 4,0 l
Puissance maximale 309 kW soit 420 ch
Couple maximal 400 Nm
Transmission Manuelle 6 rapports
Propulsion
Poids et performances
Poids à vide 1 655 kg
Vitesse maximale 310 km/h
Accélération 0 à 100 km/h en 4,8 s
Consommation mixte 12,76 L/100 km
Émission de CO2 287 à 2927 g/km
Châssis – Carrosserie
Carrosserie(s) coupé 2 portes, berline 4 portes et cabriolet
Suspensions Ressorts hélicoïdaux
amortisseurs à gaz
barre antiroulis
Dimensions
Longueur 4 620 mm
Largeur 1 800 mm
Hauteur 1 420 mm
Chronologie des modèles
Précédent BMW M3 E46 BMW M4 F32 Suivant
modifier Consultez la documentation du modèle

Cette génération de BMW M3 se positionne comme la rivale de l’Audi RS4 (pour la E90) et de l’audi RS5 (pour la E92), mais aussi de la Mercedes C63 AMG
Performances

S’offrant pour la première fois un moteur à 8 cylindres en V de série, installé en position centrale avant, cette quatrième génération de M3 développe 420 ch à 8 300 tr/min et abat ainsi le 0 à 100 km/h en 4,8 s. Constitué d’un bloc en alliage d’aluminium et de silicium, le moteur de la BMW M3 affiche une puissance spécifique de 105 ch par litre de cylindrée. Son couple maximum atteint les 400 Nm à 3 900 tr/min, dont 85 % délivré sur une plage de plus de 6 500 tr/min. La M3 se dote en effet d’une distribution variable de 8 papillons de gaz et d’un alternateur débrayable.
Séries limitées

En novembre 2009, BMW lance la M3 GTS limitée à 250 exemplaires. Sur le plan des performances, elle garde son V8 dont la puissance a été amenée à 450 ch. Sur le plan de l’esthétique, elle se pare d’une couleur orange exclusive avec un aileron typé course. À l’intérieur, BMW adapte la recette qui a fait le succès de la Porsche 911 GT3 RS : pas de GPS, ni de climatisation et des lanières en guise de poignées de portes. Enfin, le coupé perd ses deux places à l’arrière, et les remplace par un arceau-cage couleur carrosserie, un extincteur de course, donnant l’impression qu’il s’agit plus d’une bête de course qu’une voiture de tous les jours. Elle est d’ailleurs souvent comparée à la BMW M3 GTR E46.

L’année suivante, BMW dévoile la M3 Frozen Gray. Produite à seulement trente exemplaires, et seulement aux États-Unis, elle se reconnaît par sa teinte grise matte (référencée comme Frozen Gray chez BMW), ses jantes 19 pouces à l’extérieur, et son cuir bi-ton roux et noir à l’intérieur. Le moteur conserve ses 420 chevaux, mais la boîte DCT à double embrayage est fournie de série. Tout acheteur de cette Frozen Gray se verra offrir un stage de la BMW Performance Driving School.

En juin 2011, un modèle encore plus exclusif la CRT (pour Carbon Racing Technology), basé sur la M3 Saloon E90 fait la part belle au carbone, permettant la perte de 45 kg, le tout en gardant les équipements de confort (GPS et climatisation) qui font d’elle une berline de luxe. Elle est produite à seulement 67 exemplaires, le moteur garde ses 420 chevaux, mais il s’agit de la première édition spéciale de la M3 qui n’est disponible qu’en berline 4 portes. Toutefois, il faut noter qu’à l’arrière, ce ne sont plus trois personnes, mais deux personnes qui pourront s’y asseoir, dans deux beaux sièges baquets. Elle se reconnaît par sa teinte grise matte son cuir rouge, et ses jantes Full Black.

En 2012, BMW sort 3 séries spéciales de sa M3 en France. La M3 CS, la M3 Frozen 40 et la M3 DTM Champion Edition. La M3 CS, exclusivement française, se distingue par une teinte bleue matte éclatante (Frozen Blau), ainsi que par son intérieur aux surpiqûres bleues, avec une touche de rouge sur le volant. Il s’agit d’une version dépouillée, spécialement destinée aux virées sur circuit. La M3 Frozen 40, elle, a été créée pour toute l’Europe, et célébrait les 40 ans de BMW Motorsport. Elle se distingue à l’extérieur d’une M3 « normale » grâce à une calandre chromée, ainsi que des sorties d’échappement et des ouïes latérales noires. La version Frozen 40 dispose aussi de 4 coloris spécifiques mats, toutes nommées Frozen, que ce soit en bleu, bleu foncé, blanc ou rouge. À l’intérieur, la sellerie est exclusive, et les surpiqûres sont assorties à la teinte extérieure. Enfin, la version M3 DTM Champion Edition est un hommage à Bruno Spengler, le pilote canadien victorieux du championnat allemand DTM sur BMW M3. Elle est très facilement reconnaissable, grâce à sa teinte matte Frozen Black, ses bandes de pavillon aux couleurs de Motorsport, ainsi que le sticker sponsor sur la vitre de custode. Les jantes full black rajoutent une touche d’agressivité à la voiture. À l’intérieur, les inserts en carbone reçoivent la signature de Bruno Spengler, ainsi qu’une numérotation. Seulement 54 exemplaires seront produits.

The BMW M3 is a high-performance version of the BMW 3-Series, developed by BMW’s in-house motorsport division, BMW M. M3 models have been derived from the E30, E36, E46, E90/E92/E93, and F30 3-series, and sold with coupe, saloon and convertible body styles. Upgrades over the "standard" 3-Series automobiles include more powerful and responsive engines, improved handling/suspension/braking systems, aerodynamic body enhancements, and interior/exterior accents with the tri-colour "M" (Motorsport) emblem. The last M3 coupe was produced in Germany on 5 July 2013. Part of BMW’s renumbering to move the 3-Series coupe and convertible to the 4-Series, the M3 name will remain with the saloon version as the coupe version has ceased production and has been replaced by the M4 Coupe starting with the 2015 model year.

E92 M3 ZCP Competition Package

For 2011, BMW added the ZCP Competition Package to the M3’s lineup. Unlike the ZCP offered on the previous generation E46, the newest package didn’t change very much about the E92. Most of the adjustments were made to suspension components and the computer governing stability control. The changes for the E92 ZCP are as follows:

– The suspension has been lowered by 10mm. The spring rates are the same, but the springs themselves are shorter, to compensate for the shorter stance. The suspension’s shock damping was also adjusted by the M division. This was in order to compensate for the lower ride height, primarily for rebounding damping rates as opposed to actual compression.

– The Electronic Damper Control in the “Sport Mode” has been modified. A quote taken from the Manager of BMWNA’s M Division, Larry Koch: “The Sport Mode before ZCP was locked at 75% of the way to full stiff. It still has that as a default, but is now variable like the ‘Comfort’ and ‘Normal’ modes.” This translates to a stiffer ride whilst sport mode is engaged, aiding heavy cornering on a track at a cost to ride comfort when driving normally on the road.

– Modifications have been made to the computer governing the Dynamic Stability Control (DSC) in M Dynamic Mode. It is reworked and renamed to “Dynamic Traction Control” (DTC) which allows for larger angles of slip in heavy cornering. This translates to the rear end sliding out further than would be allowed on a non-ZCP M3 before the DTC kicks in to stop the tail slide. Also, once the DTC does kick in, instead of cutting power to the wheels in order to correct the slide (which is normal for the DSC on stock M3s), the DTC computer instead applies the brakes to individual wheels in order to keep the car from spinning excessively.

– In addition, forged 19 inch wheels in the same style as those on the E46 CSL are added to the car.
E92 M3 GTS
M3 GTS at the Autosport International Show 2011.

BMW announced the M3 GTS in November 2009. The car is powered by a 4.4-litre V8 based on the 4.0-litre engine found in the standard M3, which produces a maximum of 450 PS (331 kW; 444 hp). The car weighs 300 pounds less than the standard M3 due to various weight savings. A total of only 250 units were produced. This can accelerate from 0-62 mph in just 4.3 seconds and 0-100 mph in 8.5 seconds. In Germany deliveries began in May 2010 while other countries were scheduled for the summer of 2010. The BMW E92 M3 GTS was priced at around €115,000 per unit. All E92 M3 GTS models have been sold.
E90 M3 CRT

The M3 CRT (Carbon Racing Technology) was announced in June 2011 as a 2012 model. It is powered by the same engine as the GTS, but in opposite to the GTS coupe with roll cage and 4-point harnesses, the CRT is a saloon with navigation, high-end sound system etc. as standard equipment. Despite these luxury extras, the car still weighs 100 lb (45 kg) less than a regular M3 saloon. Compared to a saloon with the same luxury equipment, it weighs 155 lb (70 kg) less. The production will be limited to 67 cars, all numbered with a plaque on the dashboard. And it is claimed that it can accelerate from 0 to 62 mph (100 km/h) in just 4.4 seconds.
E92 M3 DTM Champion Edition

BMW Motorsport returned to the DTM in 2012, and the "DTM Champion Edition" was built to commemorate it winning the championship. The "DTM Champion Edition" was available only in the Frozen Black paint finish with the same M stripes over the roof and boot lid as on Bruno Spengler’s race car. It also incorporated visual clues to the race car, such as carbon flaps and gurney, dark chrome elements and matt black wheels. The interior had some exclusive parts such as interior trim in carbon fibre, Alcantara steering wheel and "M Power" embroidered on the handbrake grip. Each car had a numbered plaque with Spengler’s signature and the text "DTM champion 2012" above the glove box.

As the car was focused on high performance, options as M Drive, M DCT Drivelogic and the M Driver’s Package were fitted as standard equipment. For the car to have everyday usability, options as navigation system, heated seats and PDC were also standard.

The DTM Champion Edition was produced from February 2013, in a limited number of 54 cars, the same number as BMW’s victories in DTM. In Germany, the price started at €99,000.00 including VAT.
E92 M3 Lime Rock Park Edition

The M3 Lime Rock Park Edition was a US specific model, with a production limited to 200 cars, painted in Fire Orange. All 200 of these 2013 vehicles came with carbon fiber performance parts, such as roof, front splitter, rear spoiler, competition package, a lowered ride height in front of .60 inches, track style steering with fewer turns to lock and a lightweight muffler, courtesy of BMW’s MGmbh division. BMW claims the model has no added horsepower, however, when marketing the lightweight Inconel-titanium BMW Motorsports Exhaust to stock M3 vehicles, BMW Claims that the system adds about 5 H.P. The Lime Rock Park editions were equipped with either 6 speed transmissions, or the optional DCT (Dual Clutch Transmission). No changes made to the original 4.0L V8 (414 HP, redline 8300 rpm); however the ECU is programmed slightly differently from standard M3 vehicles with less interference from the dynamic stability control and a less interfering traction control. Each LRP edition’s governor is limited for achieving its natural top speed, which is claimed to be 187 MPH (Roughly 300 kph). Each M3 LRP Edition comes with a numbered plaque and paper certificate, each one reading "One of 200" instead of a numbering sequence. BMW did this to ensure none of the cars were worth more than another.
Racing
Rahal Letterman M3 GT2 racing at the 2009 Petit Le Mans
Schnitzer Motorsport’s BMW M3 GT2 racing at the 2010 1000 km of Zhuhai.
E92 M3 GT2

BMW Motorsport announced in February 2008 that Rahal Letterman Racing will campaign two factory-backed E92 M3s in the American Le Mans Series in 2009, following a two-year absence by the brand. The cars are homologated for the GT2 category. This was the cover car for the simulation racing game Need for Speed: Shift. Schnitzer Motorsport entered 2 cars at the 1000 km of Spa and finished 4th after a move by the Ferrari in the final corner. For 2010, BMW Motorsport has been granted entry in the 2010 24 Hours of Le Mans and in the 2010 24 Hours Nürburgring. BMW Motorsport/Schnitzer Motorsport went onto to take an overall win at the 24 Hours Nürburgring with the #25 M3 GT2 of Jörg Müller, Augusto Farfus, Pedro Lamy, and Uwe Alzen while the top competitors from Porsche and Audi dropped out one by one. In addition, one of the M3 GT2’s that competed at Le Mans (#79) has been chosen as the 17th BMW Art Car, which will be done by American artist, Jeff Koons. At the 2010 24 Hours of Spa, BMW qualified 1st in class (2nd overall) and maintained 1st with the #79 car throughout the race until it succumbed to a suspension failure with just half an hour remaining, forcing them to give the overall lead to two Porsche 997 GT3-RSRs. The M3s still came 1st in the GTN class. The BMW M3s won the GT2 category in the ILMC 1000 km of Zhuhai. In 2011, the BMW achieved a 1-2 finish in the 12 Hours of Sebring. In the 2011 American Le Mans Series GT class, BMW Team RLL swept all categories, winning the GT manufacturer, team and driver championships. They contest another year in the ALMS GT class, coming off of another fantastic win at the 2012 60th running of the 12 Hours of Sebring. The M3 GT2 was succeeded by the BMW Z4 GTE, an LMGTE specification racing car alongside the Group GT3 spec BMW Z4 GT3. The Z4 GTE started racing at the 2013 12 Hours of Sebring.
E92 M3 GT4

On 10 April 2009, the week after the debut of the GT4, BMW’s Customer Racing program announced it had partnered with Schubert Motorsport (sponsored by Motorsport Arena Oschersleben) to run the BMW M3 GT4 in the 2009 24 Hours Nürburgring race, in the new class for GT4 cars, listed as SP10 there. The BMW M3 GT4 also raced in the Nürburgring VLN ADAC Westfalenfahrt in April 2009, taking the win in the SP10 class and finishing 30th overall. The 2009 24h race took place on the weekend of 23 and 24 May, with Jörg Müller, Andy Priaulx and sport auto journalist Jochen Übler at the wheel. Despite qualifying as best SP10/GT4 car at 57th overall and being at least 10 seconds per lap faster, the team finished third in the class, behind two Aston Martin V8 Vantage N24. The overall rank was 47th.

BMW Motorsport announced on 7 July 2009 the launch of a line of BMW M3 race cars which meet the SRO/FIA’s GT4 spec and are oriented for sale to private teams and drivers. The BMW M3 GT4 price is 121,500 EUR without VAT. While BMW states that ‘the BMW M3 GT4 weighs just 1,430 kilograms’ and the ‘420 bhp engine remained largely untouched’, the 2010 24 Hours Nürburgring "Balance of Performance" requires that the power must not exceed 390 PS (385 HP), while the minimum weight is set to 1400 kg.

The M3 GT4 is offered in Europe as a homologated production race car for sale to the general public. According to Larry Koch, then BMW NA M-brand manager, a feasibility study is currently being conducted to evaluate the possible sale of the M3 GT4 in North America. However, without a sanctioned GT4-class racing series in the USA, the sale of the M3 GT4 in the States is not likely.
Critical reception

Arthur St. Antoine of Motor Trend magazine says: "World’s single greatest car? Seriously? Yes – the new BMW M3 is unquestionably a contender. Probably no other car combines so many virtues – speed, handling, good looks, roominess, practicality – into one package. Driving the new BMW M3 is an absolutely blissful experience, flooding your brain with dopamine as if you were arriving to courtside seats at the Lakers game with Jennifer Connelly on your arm." -and- "If you put an F1 car and a premium sedan in a blender, the M3 would be the cocktail that pours out. Mmmm, nothing else like it. A toast then: To the BMW M3, the greatest all-around car in the world."
Mark Gillies of Car and Driver magazine says: "A car has got to be pretty spectacular to win over the curmudgeons here at 1585 Eisenhower Place, especially when familiarity sets in over the course of 40,000 miles. But our Sparkling Graphite Metallic M3 did indeed win us over.", and "Based on our experience, the current M3 is the world’s all-around best car for the money, although several staffers would have preferred to trade some of the coupe’s looks for the added practicality of the sedan.", and "This is the finest car on the market, period."
Ezra Dyer of Automobile magazine once suggested that "…car magazines generally regard the M3 the same way a four-year-old regards Santa Claus."
Jeremy Clarkson of BBC television show Top Gear says: "This [The M3] is the best car, and always will be, and there’s no point in ever thinking otherwise."
Mark Magrath of Edmunds Inside Line wrote these comments after driving a 2009 E90 M3 saloon in the canyons of Southern California: "This is the best most complete car in the world. It’s actually a bargain for what you get. Wow."
In the high-performance sports luxury niche (an entry-level luxury/compact executive car with a V8 engine), the E90 M3 (usually an E92 M3 Coupé being tested) has won comparison tests against rivals such as the Mercedes-Benz C63 AMG, Lexus IS-F, Audi RS4, Audi RS5 and Cadillac CTS-V.

Steven F. Udvar-Hazy Center: P-40 Warhawk & F-4 Corsair hanging over the SR-71 Blackbird, among others

Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | Curtiss P-40E Warhawk (Kittyhawk IA):

Whether known as the Warhawk, Tomahawk, or Kittyhawk, the Curtiss P-40 proved to be a successful, versatile fighter during the first half of World War II. The shark-mouthed Tomahawks that Gen. Claire Chennault’s "Flying Tigers" flew in China against the Japanese remain among the most popular airplanes of the war. P-40E pilot Lt. Boyd D. Wagner became the first American ace of World War II when he shot down six Japanese aircraft in the Philippines in mid-December 1941.

Curtiss-Wright built this airplane as Model 87-A3 and delivered it to Canada as a Kittyhawk I in 1941. It served until 1946 in No. 111 Squadron, Royal Canadian Air Force. U.S. Air Force personnel at Andrews Air Force Base restored it in 1975 to represent an aircraft of the 75th Fighter Squadron, 23rd Fighter Group, 14th Air Force.

Donated by the Exchange Club in Memory of Kellis Forbes.

Manufacturer:
Curtiss Aircraft Company

Date:
1939

Country of Origin:
United States of America

Dimensions:
Overall: 330 x 970cm, 2686kg, 1140cm (10ft 9 15/16in. x 31ft 9 7/8in., 5921.6lb., 37ft 4 13/16in.)

Materials:
All-metal, semi-monocoque

Physical Description:
Single engine, single seat, fighter aircraft.

• • • • •

See more photos of this, and the Wikipedia article.

Details, quoting from Smithsonian National Air and Space Museum | Lockheed SR-71 Blackbird:

No reconnaissance aircraft in history has operated globally in more hostile airspace or with such complete impunity than the SR-71, the world’s fastest jet-propelled aircraft. The Blackbird’s performance and operational achievements placed it at the pinnacle of aviation technology developments during the Cold War.

This Blackbird accrued about 2,800 hours of flight time during 24 years of active service with the U.S. Air Force. On its last flight, March 6, 1990, Lt. Col. Ed Yielding and Lt. Col. Joseph Vida set a speed record by flying from Los Angeles to Washington, D.C., in 1 hour, 4 minutes, and 20 seconds, averaging 3,418 kilometers (2,124 miles) per hour. At the flight’s conclusion, they landed at Washington-Dulles International Airport and turned the airplane over to the Smithsonian.

Transferred from the United States Air Force.

Manufacturer:
Lockheed Aircraft Corporation

Designer:
Clarence L. "Kelly" Johnson

Date:
1964

Country of Origin:
United States of America

Dimensions:
Overall: 18ft 5 15/16in. x 55ft 7in. x 107ft 5in., 169998.5lb. (5.638m x 16.942m x 32.741m, 77110.8kg)
Other: 18ft 5 15/16in. x 107ft 5in. x 55ft 7in. (5.638m x 32.741m x 16.942m)

Materials:
Titanium

Physical Description:
Twin-engine, two-seat, supersonic strategic reconnaissance aircraft; airframe constructed largley of titanium and its alloys; vertical tail fins are constructed of a composite (laminated plastic-type material) to reduce radar cross-section; Pratt and Whitney J58 (JT11D-20B) turbojet engines feature large inlet shock cones.

• • • • •

Quoting Smithsonian National Air and Space Museum | Vought F4U-1D Corsair :

By V-J Day, September 2, 1945, Corsair pilots had amassed an 11:1 kill ratio against enemy aircraft. The aircraft’s distinctive inverted gull-wing design allowed ground clearance for the huge, three-bladed Hamilton Standard Hydromatic propeller, which spanned more than 4 meters (13 feet). The Pratt and Whitney R-2800 radial engine and Hydromatic propeller was the largest and one of the most powerful engine-propeller combinations ever flown on a fighter aircraft.

Charles Lindbergh flew bombing missions in a Corsair with Marine Air Group 31 against Japanese strongholds in the Pacific in 1944. This airplane is painted in the colors and markings of the Corsair Sun Setter, a Marine close-support fighter assigned to the USS Essex in July 1944.

Transferred from the United States Navy.

Manufacturer:
Vought Aircraft Company

Date:
1940

Country of Origin:
United States of America

Dimensions:
Overall: 460 x 1020cm, 4037kg, 1250cm (15ft 1 1/8in. x 33ft 5 9/16in., 8900lb., 41ft 1/8in.)

Materials:
All metal with fabric-covered wings behind the main spar.

Physical Description:
R-2800 radial air-cooled engine with 1,850 horsepower, turned a three-blade Hamilton Standard Hydromatic propeller with solid aluminum blades spanning 13 feet 1 inch; wing bent gull-shaped on both sides of the fuselage.

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Steven F. Udvar-Hazy Center: principal hall panorama (SR-71, Space Shuttle, et al)

Image by Chris Devers
See far more images of this, and the Wikipedia article.

Information, quoting from Smithsonian National Air and Space Museum | Lockheed SR-71 Blackbird:

No reconnaissance aircraft in history has operated globally in far more hostile airspace or with such total impunity than the SR-71, the world’s fastest jet-propelled aircraft. The Blackbird’s overall performance and operational achievements placed it at the pinnacle of aviation technology developments during the Cold War.

This Blackbird accrued about 2,800 hours of flight time during 24 years of active service with the U.S. Air Force. On its final flight, March six, 1990, Lt. Col. Ed Yielding and Lt. Col. Joseph Vida set a speed record by flying from Los Angeles to Washington, D.C., in 1 hour, 4 minutes, and 20 seconds, averaging 3,418 kilometers (2,124 miles) per hour. At the flight’s conclusion, they landed at Washington-Dulles International Airport and turned the airplane more than to the Smithsonian.

Transferred from the United States Air Force.

Manufacturer:
Lockheed Aircraft Corporation

Designer:
Clarence L. &quotKelly&quot Johnson

Date:
1964

Nation of Origin:
United States of America

Dimensions:
General: 18ft five 15/16in. x 55ft 7in. x 107ft 5in., 169998.5lb. (5.638m x 16.942m x 32.741m, 77110.8kg)
Other: 18ft five 15/16in. x 107ft 5in. x 55ft 7in. (5.638m x 32.741m x 16.942m)

Supplies:
Titanium

Physical Description:
Twin-engine, two-seat, supersonic strategic reconnaissance aircraft airframe constructed largley of titanium and its alloys vertical tail fins are constructed of a composite (laminated plastic-sort material) to decrease radar cross-section Pratt and Whitney J58 (JT11D-20B) turbojet engines feature massive inlet shock cones.

• • • • •

See more photographs of this, and the Wikipedia report.

Specifics, quoting from Smithsonian National Air and Space Museum | Space Shuttle Enterprise:

Manufacturer:
Rockwell International Corporation

Nation of Origin:
United States of America

Dimensions:
General: 57 ft. tall x 122 ft. long x 78 ft. wing span, 150,000 lb.
(1737.36 x 3718.57 x 2377.44cm, 68039.6kg)

Supplies:
Aluminum airframe and physique with some fiberglass attributes payload bay doors are graphite epoxy composite thermal tiles are simulated (polyurethane foam) except for test samples of actual tiles and thermal blankets.

The 1st Space Shuttle orbiter, &quotEnterprise,&quot is a complete-scale test vehicle used for flights in the atmosphere and tests on the ground it is not equipped for spaceflight. Though the airframe and flight manage components are like those of the Shuttles flown in space, this car has no propulsion system and only simulated thermal tiles due to the fact these attributes have been not necessary for atmospheric and ground tests. &quotEnterprise&quot was rolled out at Rockwell International’s assembly facility in Palmdale, California, in 1976. In 1977, it entered service for a nine-month-extended approach-and-landing test flight program. Thereafter it was utilised for vibration tests and fit checks at NASA centers, and it also appeared in the 1983 Paris Air Show and the 1984 World’s Fair in New Orleans. In 1985, NASA transferred &quotEnterprise&quot to the Smithsonian Institution’s National Air and Space Museum.

Transferred from National Aeronautics and Space Administration

Image from web page 76 of “Kramer’s book of trade secrets for the manufacturer and jobber a total compilation of valuable information and formulae for manufacturing all types of flavoring extracts, baking powders, jellies ..” (1905)

Image from web page 76 of “Kramer’s book of trade secrets for the manufacturer and jobber a total compilation of valuable information and formulae for manufacturing all types of flavoring extracts, baking powders, jellies ..” (1905)

Verify out these machining manufacturer images:

Image from page 76 of “Kramer’s book of trade secrets for the manufacturer and jobber a complete compilation of beneficial data and formulae for manufacturing all types of flavoring extracts, baking powders, jellies ..” (1905)

Image by Web Archive Book Photos
Identifier: kramersbookoftra00kram
Title: Kramer’s book of trade secrets for the manufacturer and jobber a complete compilation of useful details and formulae for manufacturing all sorts of flavoring extracts, baking powders, jellies ..
Year: 1905 (1900s)
Authors: Kramer, Adolph, comp
Subjects: Recipes cbk
Publisher: Sutherland, Ia., Sioux publishing organization
Contributing Library: The Library of Congress
Digitizing Sponsor: Sloan Foundation

View Book Web page: Book Viewer
About This Book: Catalog Entry
View All Photos: All Pictures From Book

Click here to view book on the web to see this illustration in context in a browseable on the internet version of this book.

Text Appearing Before Image:
209-211 S. Clinton St.CHICAGO, ILLINOIS ^AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA^ She – We Can Inform Precise Ingredientsof Any Item ^» ^» Do you locate exadly whatyoti want in tnis booR? Do you want to reproduce any specific solution? We analyze anything and can inform the constituents of anycompound or mixture, any ore, metal, alloy, and so on. We treat all inquiries confidentially and furnish absolutelyreliable info, make analysis, assays,-and so forth., at rates thelowest constant with the highest good quality of work. If you want to know the properties of any compound youare preparing to market place it will spend you to seek the advice of us. We employ only chemists who have graduated from repu-table colleges and who have had extended, practical expertise intheir profession. Our laboratories are among the largest andmost entirely equipped of any in the United States and weare ready to give you prompt interest to all inquiries. ^» ^» Max D. Slimmer, PH. D TShe Ellsworth Laboratories Ellsworth Bide., Chicago

Text Appearing Following Image:
A Smsbc VICTOR Provide To any accountable reader of this paperwho will furnish us with references if werequest it, we will ship on Totally free TRIALthe latest model of our Victor RoyalTalking Machine with Unique Exhi-bition Sound Box and your choice of anydozen Victor Records in the catalogue for. Attempt it for a day in your home—if itssatisfactory send us and pay us thebalance .§£A Month For Six Months Unique Notice ^victo^S each and every property in the West, and we will if easyterms will do it. You run no danger, NoC. O. I».or deposit essential. We trust you completely.We ship the machine and records direct to youon completely free trial withoutany conditionswhatever. If it is satisfactory and you make a decision tokeep it, basically spend us as agreed. The Viator Speaking Itf3g&ampt*&amptitt8* is conceded by everyoneIVM*M1rKM&ampSVt&amp tne very best to be had. AtBuffalo and again at St. Louis it was awardedHighest Honors—Gold Medal and 1st prize We guarantee each machine tobe a genuine Victor and the pri

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Steven F. Udvar-Hazy Center: View of south hangar, like B-29 Superfortress “Enola Gay”, a glimpse of the Air France Concorde, and several other folks

Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | Boeing B-29 Superfortress &quotEnola Gay&quot:

Boeing’s B-29 Superfortress was the most sophisticated propeller-driven bomber of World War II and the initial bomber to house its crew in pressurized compartments. Despite the fact that made to fight in the European theater, the B-29 located its niche on the other side of the globe. In the Pacific, B-29s delivered a assortment of aerial weapons: conventional bombs, incendiary bombs, mines, and two nuclear weapons.

On August six, 1945, this Martin-constructed B-29-45-MO dropped the initial atomic weapon used in combat on Hiroshima, Japan. Three days later, Bockscar (on show at the U.S. Air Force Museum close to Dayton, Ohio) dropped a second atomic bomb on Nagasaki, Japan. Enola Gay flew as the advance weather reconnaissance aircraft that day. A third B-29, The Fantastic Artiste, flew as an observation aircraft on both missions.

Transferred from the United States Air Force.

Manufacturer:
Boeing Aircraft Co.
Martin Co., Omaha, Nebr.

Date:
1945

Nation of Origin:
United States of America

Dimensions:
Overall: 900 x 3020cm, 32580kg, 4300cm (29ft 6 5/16in. x 99ft 1in., 71825.9lb., 141ft 15/16in.)

Components:
Polished general aluminum finish

Physical Description:
4-engine heavy bomber with semi-monoqoque fuselage and high-aspect ratio wings. Polished aluminum finish overall, normal late-World War II Army Air Forces insignia on wings and aft fuselage and serial number on vertical fin 509th Composite Group markings painted in black &quotEnola Gay&quot in black, block letters on decrease left nose.

AC Cobra

Image by _ alt3 _
The AC Cobra, sold as the Ford/Shelby AC Cobra in the United States and often known colloquially as the Shelby Cobra in that country, is an American-engined British sports auto produ
ced intermittently given that 1962.

Like numerous British specialist manufacturers, AC Automobiles had been employing the Bristol straight-six engine in its modest-volume production, such as its AC Ace two-seater roadster. This had a hand-constructed physique with a steel tube frame, and aluminium physique panels that had been produced using English wheeling machines. The engine was a pre-Planet War II design and style of BMW which by the 1960s was considered dated. Bristol decided in 1961 to cease production of its engine and instead to use Chrysler 331 cu in (5.4 L) V8 engines. AC began utilizing the 2.6 litre Ford Zephyr engine in its cars. In September 1961, American automotive designer Carroll Shelby wrote to AC asking if they would build him a automobile modified to accept a V8 engine. AC agreed, provided a appropriate engine could be discovered. Shelby went to Chevrolet to see if they would offer him with engines, but not wanting to add competitors to the Corvette they mentioned no. Even so, Ford wanted a vehicle that could compete with the Corvette and they occurred to have a brand new engine which could be employed in this endeavor: Ford’s 260 in HiPo (4.2 L) engine – a new lightweight, thin-wall cast modest-block V8 tuned for high efficiency. Ford offered Shelby with two engines. In January 1962 mechanics at AC Vehicles in Thames Ditton, Surrey fitted the prototype chassis CSX2000 with a 260 ci Ford V8 borrowed from Ford in the UK the 221 ci was by no means sent. Even so, early engineering drawings had been titled &quotAC Ace 3.6&quot. Right after testing and modification, the engine and transmission were removed and the chassis was air-freighted to Shelby in Los Angeles on 2 February 1962. His team fitted it with an engine and transmission in much less than eight hours at Dean Moon’s shop in Santa Fe Springs, California, and started road-testing.

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Winter Living — Sewing the seeds of accomplishment
They turned the prototype more than to the capable hands of his grandmother and her sewing machine. “We went by means of a lot … I understood why I wanted higher top quality components, so when it comes out of manufacturing I can appreciate it a lot more. “I want to …
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Steven F. Udvar-Hazy Center: Vought F4U-1D Corsair

Image by Chris Devers
See more images of this, and the Wikipedia post.

Specifics, quoting from Smithsonian National Air and Space Museum | Vought F4U-1D Corsair:

By V-J Day, September two, 1945, Corsair pilots had amassed an 11:1 kill ratio against enemy aircraft. The aircraft’s distinctive inverted gull-wing design permitted ground clearance for the huge, three-bladed Hamilton Regular Hydromatic propeller, which spanned much more than four meters (13 feet). The Pratt and Whitney R-2800 radial engine and Hydromatic propeller was the largest and one particular of the most strong engine-propeller combinations ever flown on a fighter aircraft.

Charles Lindbergh flew bombing missions in a Corsair with Marine Air Group 31 against Japanese strongholds in the Pacific in 1944. This airplane is painted in the colors and markings of the Corsair Sun Setter, a Marine close-assistance fighter assigned to the USS Essex in July 1944.

Transferred from the United States Navy.

Manufacturer:
Vought Aircraft Business

Date:
1940

Country of Origin:
United States of America

Dimensions:
Overall: 460 x 1020cm, 4037kg, 1250cm (15ft 1 1/8in. x 33ft 5 9/16in., 8900lb., 41ft 1/8in.)

Supplies:
All metal with fabric-covered wings behind the main spar.

Physical Description:
R-2800 radial air-cooled engine with 1,850 horsepower, turned a three-blade Hamilton Normal Hydromatic propeller with solid aluminum blades spanning 13 feet 1 inch wing bent gull-shaped on both sides of the fuselage.

Long Description:
On February 1, 1938, the United States Navy Bureau of Aeronautics requested proposals from American aircraft manufacturers for a new carrier-primarily based fighter airplane. During April, the Vought Aircraft Corporation responded with two styles and one of them, powered by a Pratt &amp Whitney R-2800 engine, won the competition in June. Significantly less than a year later, Vought test pilot Lyman A. Bullard, Jr., 1st flew the Vought XF4U-1 prototype on Could 29, 1940. At that time, the largest engine driving the greatest propeller ever flown on a fighter aircraft propelled Bullard on this test flight. The R-2800 radial air-cooled engine developed 1,850 horsepower and it turned a 3-blade Hamilton Normal Hydromatic propeller with strong aluminum blades spanning 13 feet 1 inch.

The airplane Bullard flew also had one more striking function, a wing bent gull-shaped on both sides of the fuselage. This arrangement gave further ground clearance for the propeller and lowered drag at the wing-to-fuselage joint. Ironically for a 644-kph (400 mph) airplane, Vought covered the wing with fabric behind the main spar, a practice the organization also followed on the OS2U Kingfisher (see NASM collection).

When naval air strategists had crafted the specifications for the new fighter, the want for speed had overridden all other overall performance goals. With this in thoughts, the Bureau of Aeronautics selected the most strong air-cooled engine offered, the R-2800. Vought assembled a team, lead by chief designer Rex Biesel, to design the very best airframe about this powerful engine. The group included project engineer Frank Albright, aerodynamics engineer Paul Baker, and propulsion engineer James Shoemaker. Biesel and his group succeeded in building a really fast fighter but when they redesigned the prototype for production, they were forced to make an unfortunate compromise.

The Navy requested heavier armament for production Corsairs and Biesel redesigned every outboard folding wing panel to carry three .50 caliber machine guns. These guns displaced fuel tanks installed in each and every wing top edge. To replace this lost capacity, an 897-liter (237 gal) fuselage tank was installed in between the cockpit and the engine. To maintain the speedy and narrow fuselage profile, Biesel could not stack the cockpit on top of the tank, so he moved it almost 3 feet aft. Now the wing fully blocked the pilot’s line of sight throughout the most critical stages of landing. The early Corsair also had a vicious stall, potent torque and propeller effects at slow speed, a quick tail wheel strut, primary gear struts that frequently bounced the airplane at touchdown, and cowl flap actuators that leaked oil onto the windshield. These issues, combined with the lack of cockpit visibility, made the airplane almost not possible to land on the tiny deck of an aircraft carrier. Navy pilots quickly nicknamed the F4U the ‘ensign eliminator’ for its tendency to kill these inexperienced aviators. The Navy refused to clear the F4U for carrier operations until late in 1944, far more than seven years soon after the project started.

This flaw did not deter the Navy from accepting Corsairs because Navy and Marine pilots sorely necessary an improved fighter to replace the Grumman F4F Wildcat (see NASM collection). By New Year’s Eve, 1942, the service owned 178 F4U-1 airplanes. Early in 1943, the Navy decided to divert all Corsairs to land-based United States Marine Corps squadrons and fill Navy carrier-primarily based units with the Grumman F6F Hellcat (see NASM collection). At its ideal speed of 612 kph (380 mph) at six,992 m (23,000 ft), the Hellcat was about 24 kph (15 mph) slower than the Corsair but it was a joy to fly aboard the carrier. The F6F filled in splendidly until improvements to the F4U qualified it for carrier operations. Meanwhile, the Marines on Guadalcanal took their Corsairs into combat and engaged the enemy for the very first time on February 14, 1943, six months just before Hellcat pilots on that battle-scared island initial encountered enemy aircraft.

The F4U had an instant impact on the Pacific air war. Pilots could use the Corsair’s speed and firepower to engage the more maneuverable Japanese airplanes only when the advantage favored the Americans. Unprotected by armor or self-sealing fuel tanks, no Japanese fighter or bomber could withstand for far more than a few seconds the concentrated volley from the six .50 caliber machine guns carried by a Corsair. Key Gregory &quotPappy&quot Boyington assumed command of Marine Corsair squadron VMF-214, nicknamed the ‘Black Sheep’ squadron, on September 7, 1943. Throughout much less than five months of action, Boyington received credit for downing 28 enemy aircraft. Enemy aircraft shot him down on January three, 1944, but he survived the war in a Japanese prison camp.

In Could and June 1944, Charles A. Lindbergh flew Corsair missions with Marine pilots at Green Island and Emirau. On September three, 1944, Lindbergh demonstrated the F4U’s bomb hauling capacity by flying a Corsair from Marine Air Group 31 carrying three bombs each weighing 450 kg (1,000 lb). He dropped this load on enemy positions at Wotje Atoll. On the September eight, Lindbergh dropped the 1st 900-kg (2,000 lb) bomb throughout an attack on the atoll. For the finale 5 days later, the Atlantic flyer delivered a 900-kg (2,000 lb) bomb and two 450-kg (1,000 lb) bombs. Lindbergh went ahead and flew these missions following the commander of MAG-31 informed him that if he was forced down and captured, the Japanese would almost undoubtedly execute him.

As of V-J Day, September two, 1945, the Navy credited Corsair pilots with destroying two,140 enemy aircraft in aerial combat. The Navy and Marines lost 189 F4Us in combat and 1,435 Corsairs in non-combat accidents. Beginning on February 13, 1942, Marine and Navy pilots flew 64,051 operational sorties, 54,470 from runways and 9,581 from carrier decks. Throughout the war, the British Royal Navy accepted two,012 Corsairs and the Royal New Zealand Air Force accepted 364. The demand was so great that the Goodyear Aircraft Corporation and the Brewster Aeronautical Corporation also created the F4U.

Corsairs returned to Navy carrier decks and Marine airfields during the Korean War. On September 10, 1952, Captain Jesse Folmar of Marine Fighter Squadron VMF-312 destroyed a MiG-15 in aerial combat over the west coast of Korea. However, F4U pilots did not have several air-to-air encounters over Korea. Their major mission was to help Allied ground units along the battlefront.

Following the Globe War II, civilian pilots adapted the speedy bent-wing bird from Vought to fly in competitive air races. They preferred modified versions of the F2G-1 and -two originally constructed by Goodyear. Corsairs won the prestigious Thompson Trophy twice. In 1952, Vought manufactured 94 F4U-7s for the French Navy, and these aircraft saw action over Indochina but this order marked the finish of Corsair production. In production longer than any other U.S. fighter to see service in Globe War II, Vought, Goodyear, and Brewster constructed a total of 12,582 F4Us.

The United States Navy donated an F4U-1D to the National Air and Space Museum in September 1960. Vought delivered this Corsair, Bureau of Aeronautics serial number 50375, to the Navy on April 26, 1944. By October, pilots of VF-10 have been flying it but in November, the airplane was transferred to VF-89 at Naval Air Station Atlantic City. It remained there as the squadron moved to NAS Oceana and NAS Norfolk. Throughout February 1945, the Navy withdrew the airplane from active service and transferred it to a pool of surplus aircraft stored at Quantico, Virginia. In 1980, NASM craftsmen restored the F4U-1D in the colors and markings of a Corsair named &quotSun Setter,&quot a fighter assigned to Marine Fighter Squadron VMF-114 when that unit served aboard the &quotUSS Essex&quot in July 1944.

• • •

Quoting from Wikipedia | Vought F4U Corsair:

The Likelihood Vought F4U Corsair was a carrier-capable fighter aircraft that saw service mainly in World War II and the Korean War. Demand for the aircraft soon overwhelmed Vought’s manufacturing capability, resulting in production by Goodyear and Brewster: Goodyear-constructed Corsairs were designated FG and Brewster-built aircraft F3A. From the first prototype delivery to the U.S. Navy in 1940, to final delivery in 1953 to the French, 12,571 F4U Corsairs have been manufactured by Vought, in 16 separate models, in the longest production run of any piston-engined fighter in U.S. history (1942–1953).

The Corsair served in the U.S. Navy, U.S. Marines, Fleet Air Arm and the Royal New Zealand Air Force, as properly as the French Navy Aeronavale and other, smaller, air forces until the 1960s. It speedily became the most capable carrier-primarily based fighter-bomber of World War II. Some Japanese pilots regarded it as the most formidable American fighter of Globe War II, and the U.S. Navy counted an 11:1 kill ratio with the F4U Corsair.

F4U-1D (Corsair Mk IV): Built in parallel with the F4U-1C, but was introduced in April 1944. It had the new -8W water-injection engine. This alter gave the aircraft up to 250&nbsphp (190&nbspkW) much more energy, which, in turn, improved functionality. Speed, for instance, was boosted from 417 miles per hour (671&nbspkm/h) to 425 miles per hour (684&nbspkm/h). Since of the U.S. Navy’s require for fighter-bombers, it had a payload of rockets double the -1A’s, as nicely as twin-rack plumbing for an further belly drop tank. Such modifications necessitated the need for rocket tabs (attached to fully metal-plated underwing surfaces) and bomb pylons to be bolted on the fighter, however, causing extra drag. Additionally, the role of fighter-bombing was a new activity for the Corsair and the wing fuel cells proved as well vulnerable and had been removed.[] The extra fuel carried by the two drop tanks would nevertheless allow the aircraft to fly relatively extended missions in spite of the heavy, un-aerodynamic load. The normal armament of six machine guns had been implemented as effectively. The canopies of most -1Ds had their struts removed along with their metal caps, which were utilised&nbsp— at a single point&nbsp— as a measure to avoid the canopies’ glass from cracking as they moved along the fuselage spines of the fighters.[] Also, the clear-view style &quotMalcolm Hood&quot canopy utilized initially on Supermarine Spitfire and P-51C Mustang aircraft was adopted as regular gear for the -1D model, and all later F4U production aircraft. Further production was carried out by Goodyear (FG-1D) and Brewster (F3A-1D). In Fleet Air Arm service, the latter was known as the Corsair III, and each had their wingtips clipped by 8&quot per wing to let storage in the lower hangars of British carriers.

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Steven F. Udvar-Hazy Center: Space Shuttle Enterprise in the James McDonnell Space Hangar

Image by Chris Devers
See more photos of this, and the Wikipedia article.

Details, quoting from Smithsonian National Air and Space Museum | Space Shuttle Enterprise:

Manufacturer:
Rockwell International Corporation

Country of Origin:
United States of America

Dimensions:
Overall: 57 ft. tall x 122 ft. long x 78 ft. wing span, 150,000 lb.
(1737.36 x 3718.57 x 2377.44cm, 68039.6kg)

Materials:
Aluminum airframe and body with some fiberglass features; payload bay doors are graphite epoxy composite; thermal tiles are simulated (polyurethane foam) except for test samples of actual tiles and thermal blankets.

The first Space Shuttle orbiter, "Enterprise," is a full-scale test vehicle used for flights in the atmosphere and tests on the ground; it is not equipped for spaceflight. Although the airframe and flight control elements are like those of the Shuttles flown in space, this vehicle has no propulsion system and only simulated thermal tiles because these features were not needed for atmospheric and ground tests. "Enterprise" was rolled out at Rockwell International’s assembly facility in Palmdale, California, in 1976. In 1977, it entered service for a nine-month-long approach-and-landing test flight program. Thereafter it was used for vibration tests and fit checks at NASA centers, and it also appeared in the 1983 Paris Air Show and the 1984 World’s Fair in New Orleans. In 1985, NASA transferred "Enterprise" to the Smithsonian Institution’s National Air and Space Museum.

Transferred from National Aeronautics and Space Administration

• • •

Quoting from Wikipedia | Space Shuttle Enterprise:

The Space Shuttle Enterprise (NASA Orbiter Vehicle Designation: OV-101) was the first Space Shuttle orbiter. It was built for NASA as part of the Space Shuttle program to perform test flights in the atmosphere. It was constructed without engines or a functional heat shield, and was therefore not capable of spaceflight.

Originally, Enterprise had been intended to be refitted for orbital flight, which would have made it the second space shuttle to fly after Columbia. However, during the construction of Columbia, details of the final design changed, particularly with regard to the weight of the fuselage and wings. Refitting Enterprise for spaceflight would have involved dismantling the orbiter and returning the sections to subcontractors across the country. As this was an expensive proposition, it was determined to be less costly to build Challenger around a body frame (STA-099) that had been created as a test article. Similarly, Enterprise was considered for refit to replace Challenger after the latter was destroyed, but Endeavour was built from structural spares instead.

Service

Construction began on the first orbiter on June 4, 1974. Designated OV-101, it was originally planned to be named Constitution and unveiled on Constitution Day, September 17, 1976. A write-in campaign by Trekkies to President Gerald Ford asked that the orbiter be named after the Starship Enterprise, featured on the television show Star Trek. Although Ford did not mention the campaign, the president—who during World War II had served on the aircraft carrier USS Monterey (CVL-26) that served with USS Enterprise (CV-6)—said that he was "partial to the name" and overrode NASA officials.

The design of OV-101 was not the same as that planned for OV-102, the first flight model; the tail was constructed differently, and it did not have the interfaces to mount OMS pods. A large number of subsystems—ranging from main engines to radar equipment—were not installed on this vehicle, but the capacity to add them in the future was retained. Instead of a thermal protection system, its surface was primarily fiberglass.

In mid-1976, the orbiter was used for ground vibration tests, allowing engineers to compare data from an actual flight vehicle with theoretical models.

On September 17, 1976, Enterprise was rolled out of Rockwell’s plant at Palmdale, California. In recognition of its fictional namesake, Star Trek creator Gene Roddenberry and most of the principal cast of the original series of Star Trek were on hand at the dedication ceremony.

Approach and landing tests (ALT)

Main article: Approach and Landing Tests

On January 31, 1977, it was taken by road to Dryden Flight Research Center at Edwards Air Force Base, to begin operational testing.

While at NASA Dryden, Enterprise was used by NASA for a variety of ground and flight tests intended to validate aspects of the shuttle program. The initial nine-month testing period was referred to by the acronym ALT, for "Approach and Landing Test". These tests included a maiden "flight" on February 18, 1977 atop a Boeing 747 Shuttle Carrier Aircraft (SCA) to measure structural loads and ground handling and braking characteristics of the mated system. Ground tests of all orbiter subsystems were carried out to verify functionality prior to atmospheric flight.

The mated Enterprise/SCA combination was then subjected to five test flights with Enterprise unmanned and unactivated. The purpose of these test flights was to measure the flight characteristics of the mated combination. These tests were followed with three test flights with Enterprise manned to test the shuttle flight control systems.

Enterprise underwent five free flights where the craft separated from the SCA and was landed under astronaut control. These tests verified the flight characteristics of the orbiter design and were carried out under several aerodynamic and weight configurations. On the fifth and final glider flight, pilot-induced oscillation problems were revealed, which had to be addressed before the first orbital launch occurred.

On August 12, 1977, the space shuttle Enterprise flew on its own for the first time.

Preparation for STS-1

Following the ALT program, Enterprise was ferried among several NASA facilities to configure the craft for vibration testing. In June 1979, it was mated with an external tank and solid rocket boosters (known as a boilerplate configuration) and tested in a launch configuration at Kennedy Space Center Launch Pad 39A.

Retirement

With the completion of critical testing, Enterprise was partially disassembled to allow certain components to be reused in other shuttles, then underwent an international tour visiting France, Germany, Italy, the United Kingdom, Canada, and the U.S. states of California, Alabama, and Louisiana (during the 1984 Louisiana World Exposition). It was also used to fit-check the never-used shuttle launch pad at Vandenberg AFB, California. Finally, on November 18, 1985, Enterprise was ferried to Washington, D.C., where it became property of the Smithsonian Institution.

Post-Challenger

After the Challenger disaster, NASA considered using Enterprise as a replacement. However refitting the shuttle with all of the necessary equipment needed for it to be used in space was considered, but instead it was decided to use spares constructed at the same time as Discovery and Atlantis to build Endeavour.

Post-Columbia

In 2003, after the breakup of Columbia during re-entry, the Columbia Accident Investigation Board conducted tests at Southwest Research Institute, which used an air gun to shoot foam blocks of similar size, mass and speed to that which struck Columbia at a test structure which mechanically replicated the orbiter wing leading edge. They removed a fiberglass panel from Enterprise’s wing to perform analysis of the material and attached it to the test structure, then shot a foam block at it. While the panel was not broken as a result of the test, the impact was enough to permanently deform a seal. As the reinforced carbon-carbon (RCC) panel on Columbia was 2.5 times weaker, this suggested that the RCC leading edge would have been shattered. Additional tests on the fiberglass were canceled in order not to risk damaging the test apparatus, and a panel from Discovery was tested to determine the effects of the foam on a similarly-aged RCC leading edge. On July 7, 2003, a foam impact test created a hole 41 cm by 42.5 cm (16.1 inches by 16.7 inches) in the protective RCC panel. The tests clearly demonstrated that a foam impact of the type Columbia sustained could seriously breach the protective RCC panels on the wing leading edge.

The board determined that the probable cause of the accident was that the foam impact caused a breach of a reinforced carbon-carbon panel along the leading edge of Columbia’s left wing, allowing hot gases generated during re-entry to enter the wing and cause structural collapse. This caused Columbia to spin out of control, breaking up with the loss of the entire crew.

Museum exhibit

Enterprise was stored at the Smithsonian’s hangar at Washington Dulles International Airport before it was restored and moved to the newly built Smithsonian’s National Air and Space Museum‘s Steven F. Udvar-Hazy Center at Dulles International Airport, where it has been the centerpiece of the space collection. On April 12, 2011, NASA announced that Space Shuttle Discovery, the most traveled orbiter in the fleet, will be added to the collection once the Shuttle fleet is retired. When that happens, Enterprise will be moved to the Intrepid Sea-Air-Space Museum in New York City, to a newly constructed hangar adjacent to the museum. In preparation for the anticipated relocation, engineers evaluated the vehicle in early 2010 and determined that it was safe to fly on the Shuttle Carrier Aircraft once again.

Steven F. Udvar-Hazy Center: Vought F4U-1D Corsair

Image by Chris Devers
See more photos of this, and the Wikipedia article.

Details, quoting from Smithsonian National Air and Space Museum | Vought F4U-1D Corsair:

By V-J Day, September 2, 1945, Corsair pilots had amassed an 11:1 kill ratio against enemy aircraft. The aircraft’s distinctive inverted gull-wing design allowed ground clearance for the huge, three-bladed Hamilton Standard Hydromatic propeller, which spanned more than 4 meters (13 feet). The Pratt and Whitney R-2800 radial engine and Hydromatic propeller was the largest and one of the most powerful engine-propeller combinations ever flown on a fighter aircraft.

Charles Lindbergh flew bombing missions in a Corsair with Marine Air Group 31 against Japanese strongholds in the Pacific in 1944. This airplane is painted in the colors and markings of the Corsair Sun Setter, a Marine close-support fighter assigned to the USS Essex in July 1944.

Transferred from the United States Navy.

Manufacturer:
Vought Aircraft Company

Date:
1940

Country of Origin:
United States of America

Dimensions:
Overall: 460 x 1020cm, 4037kg, 1250cm (15ft 1 1/8in. x 33ft 5 9/16in., 8900lb., 41ft 1/8in.)

Materials:
All metal with fabric-covered wings behind the main spar.

Physical Description:
R-2800 radial air-cooled engine with 1,850 horsepower, turned a three-blade Hamilton Standard Hydromatic propeller with solid aluminum blades spanning 13 feet 1 inch; wing bent gull-shaped on both sides of the fuselage.

Long Description:
On February 1, 1938, the United States Navy Bureau of Aeronautics requested proposals from American aircraft manufacturers for a new carrier-based fighter airplane. During April, the Vought Aircraft Corporation responded with two designs and one of them, powered by a Pratt & Whitney R-2800 engine, won the competition in June. Less than a year later, Vought test pilot Lyman A. Bullard, Jr., first flew the Vought XF4U-1 prototype on May 29, 1940. At that time, the largest engine driving the biggest propeller ever flown on a fighter aircraft propelled Bullard on this test flight. The R-2800 radial air-cooled engine developed 1,850 horsepower and it turned a three-blade Hamilton Standard Hydromatic propeller with solid aluminum blades spanning 13 feet 1 inch.

The airplane Bullard flew also had another striking feature, a wing bent gull-shaped on both sides of the fuselage. This arrangement gave additional ground clearance for the propeller and reduced drag at the wing-to-fuselage joint. Ironically for a 644-kph (400 mph) airplane, Vought covered the wing with fabric behind the main spar, a practice the company also followed on the OS2U Kingfisher (see NASM collection).

When naval air strategists had crafted the requirements for the new fighter, the need for speed had overridden all other performance goals. With this in mind, the Bureau of Aeronautics selected the most powerful air-cooled engine available, the R-2800. Vought assembled a team, lead by chief designer Rex Biesel, to design the best airframe around this powerful engine. The group included project engineer Frank Albright, aerodynamics engineer Paul Baker, and propulsion engineer James Shoemaker. Biesel and his team succeeded in building a very fast fighter but when they redesigned the prototype for production, they were forced to make an unfortunate compromise.

The Navy requested heavier armament for production Corsairs and Biesel redesigned each outboard folding wing panel to carry three .50 caliber machine guns. These guns displaced fuel tanks installed in each wing leading edge. To replace this lost capacity, an 897-liter (237 gal) fuselage tank was installed between the cockpit and the engine. To maintain the speedy and narrow fuselage profile, Biesel could not stack the cockpit on top of the tank, so he moved it nearly three feet aft. Now the wing completely blocked the pilot’s line of sight during the most critical stages of landing. The early Corsair also had a vicious stall, powerful torque and propeller effects at slow speed, a short tail wheel strut, main gear struts that often bounced the airplane at touchdown, and cowl flap actuators that leaked oil onto the windshield. These difficulties, combined with the lack of cockpit visibility, made the airplane nearly impossible to land on the tiny deck of an aircraft carrier. Navy pilots soon nicknamed the F4U the ‘ensign eliminator’ for its tendency to kill these inexperienced aviators. The Navy refused to clear the F4U for carrier operations until late in 1944, more than seven years after the project started.

This flaw did not deter the Navy from accepting Corsairs because Navy and Marine pilots sorely needed an improved fighter to replace the Grumman F4F Wildcat (see NASM collection). By New Year’s Eve, 1942, the service owned 178 F4U-1 airplanes. Early in 1943, the Navy decided to divert all Corsairs to land-based United States Marine Corps squadrons and fill Navy carrier-based units with the Grumman F6F Hellcat (see NASM collection). At its best speed of 612 kph (380 mph) at 6,992 m (23,000 ft), the Hellcat was about 24 kph (15 mph) slower than the Corsair but it was a joy to fly aboard the carrier. The F6F filled in splendidly until improvements to the F4U qualified it for carrier operations. Meanwhile, the Marines on Guadalcanal took their Corsairs into combat and engaged the enemy for the first time on February 14, 1943, six months before Hellcat pilots on that battle-scared island first encountered enemy aircraft.

The F4U had an immediate impact on the Pacific air war. Pilots could use the Corsair’s speed and firepower to engage the more maneuverable Japanese airplanes only when the advantage favored the Americans. Unprotected by armor or self-sealing fuel tanks, no Japanese fighter or bomber could withstand for more than a few seconds the concentrated volley from the six .50 caliber machine guns carried by a Corsair. Major Gregory "Pappy" Boyington assumed command of Marine Corsair squadron VMF-214, nicknamed the ‘Black Sheep’ squadron, on September 7, 1943. During less than 5 months of action, Boyington received credit for downing 28 enemy aircraft. Enemy aircraft shot him down on January 3, 1944, but he survived the war in a Japanese prison camp.

In May and June 1944, Charles A. Lindbergh flew Corsair missions with Marine pilots at Green Island and Emirau. On September 3, 1944, Lindbergh demonstrated the F4U’s bomb hauling capacity by flying a Corsair from Marine Air Group 31 carrying three bombs each weighing 450 kg (1,000 lb). He dropped this load on enemy positions at Wotje Atoll. On the September 8, Lindbergh dropped the first 900-kg (2,000 lb) bomb during an attack on the atoll. For the finale five days later, the Atlantic flyer delivered a 900-kg (2,000 lb) bomb and two 450-kg (1,000 lb) bombs. Lindbergh went ahead and flew these missions after the commander of MAG-31 informed him that if he was forced down and captured, the Japanese would almost certainly execute him.

As of V-J Day, September 2, 1945, the Navy credited Corsair pilots with destroying 2,140 enemy aircraft in aerial combat. The Navy and Marines lost 189 F4Us in combat and 1,435 Corsairs in non-combat accidents. Beginning on February 13, 1942, Marine and Navy pilots flew 64,051 operational sorties, 54,470 from runways and 9,581 from carrier decks. During the war, the British Royal Navy accepted 2,012 Corsairs and the Royal New Zealand Air Force accepted 364. The demand was so great that the Goodyear Aircraft Corporation and the Brewster Aeronautical Corporation also produced the F4U.

Corsairs returned to Navy carrier decks and Marine airfields during the Korean War. On September 10, 1952, Captain Jesse Folmar of Marine Fighter Squadron VMF-312 destroyed a MiG-15 in aerial combat over the west coast of Korea. However, F4U pilots did not have many air-to-air encounters over Korea. Their primary mission was to support Allied ground units along the battlefront.

After the World War II, civilian pilots adapted the speedy bent-wing bird from Vought to fly in competitive air races. They preferred modified versions of the F2G-1 and -2 originally built by Goodyear. Corsairs won the prestigious Thompson Trophy twice. In 1952, Vought manufactured 94 F4U-7s for the French Navy, and these aircraft saw action over Indochina but this order marked the end of Corsair production. In production longer than any other U.S. fighter to see service in World War II, Vought, Goodyear, and Brewster built a total of 12,582 F4Us.

The United States Navy donated an F4U-1D to the National Air and Space Museum in September 1960. Vought delivered this Corsair, Bureau of Aeronautics serial number 50375, to the Navy on April 26, 1944. By October, pilots of VF-10 were flying it but in November, the airplane was transferred to VF-89 at Naval Air Station Atlantic City. It remained there as the squadron moved to NAS Oceana and NAS Norfolk. During February 1945, the Navy withdrew the airplane from active service and transferred it to a pool of surplus aircraft stored at Quantico, Virginia. In 1980, NASM craftsmen restored the F4U-1D in the colors and markings of a Corsair named "Sun Setter," a fighter assigned to Marine Fighter Squadron VMF-114 when that unit served aboard the "USS Essex" in July 1944.

• • •

Quoting from Wikipedia | Vought F4U Corsair:

The Chance Vought F4U Corsair was a carrier-capable fighter aircraft that saw service primarily in World War II and the Korean War. Demand for the aircraft soon overwhelmed Vought’s manufacturing capability, resulting in production by Goodyear and Brewster: Goodyear-built Corsairs were designated FG and Brewster-built aircraft F3A. From the first prototype delivery to the U.S. Navy in 1940, to final delivery in 1953 to the French, 12,571 F4U Corsairs were manufactured by Vought, in 16 separate models, in the longest production run of any piston-engined fighter in U.S. history (1942–1953).

The Corsair served in the U.S. Navy, U.S. Marines, Fleet Air Arm and the Royal New Zealand Air Force, as well as the French Navy Aeronavale and other, smaller, air forces until the 1960s. It quickly became the most capable carrier-based fighter-bomber of World War II. Some Japanese pilots regarded it as the most formidable American fighter of World War II, and the U.S. Navy counted an 11:1 kill ratio with the F4U Corsair.

F4U-1D (Corsair Mk IV): Built in parallel with the F4U-1C, but was introduced in April 1944. It had the new -8W water-injection engine. This change gave the aircraft up to 250 hp (190 kW) more power, which, in turn, increased performance. Speed, for example, was boosted from 417 miles per hour (671 km/h) to 425 miles per hour (684 km/h). Because of the U.S. Navy’s need for fighter-bombers, it had a payload of rockets double the -1A’s, as well as twin-rack plumbing for an additional belly drop tank. Such modifications necessitated the need for rocket tabs (attached to fully metal-plated underwing surfaces) and bomb pylons to be bolted on the fighter, however, causing extra drag. Additionally, the role of fighter-bombing was a new task for the Corsair and the wing fuel cells proved too vulnerable and were removed.[] The extra fuel carried by the two drop tanks would still allow the aircraft to fly relatively long missions despite the heavy, un-aerodynamic load. The regular armament of six machine guns were implemented as well. The canopies of most -1Ds had their struts removed along with their metal caps, which were used — at one point — as a measure to prevent the canopies’ glass from cracking as they moved along the fuselage spines of the fighters.[] Also, the clear-view style "Malcolm Hood" canopy used initially on Supermarine Spitfire and P-51C Mustang aircraft was adopted as standard equipment for the -1D model, and all later F4U production aircraft. Additional production was carried out by Goodyear (FG-1D) and Brewster (F3A-1D). In Fleet Air Arm service, the latter was known as the Corsair III, and both had their wingtips clipped by 8" per wing to allow storage in the lower hangars of British carriers.

Steven F. Udvar-Hazy Center: Space Shuttle Enterprise (starboard view)

Image by Chris Devers

See more photos of this, and the Wikipedia article.

Details, quoting from Smithsonian National Air and Space Museum | Space Shuttle Enterprise:

Manufacturer:
Rockwell International Corporation

Country of Origin:
United States of America

Dimensions:
Overall: 57 ft. tall x 122 ft. long x 78 ft. wing span, 150,000 lb.
(1737.36 x 3718.57 x 2377.44cm, 68039.6kg)

Materials:
Aluminum airframe and body with some fiberglass features; payload bay doors are graphite epoxy composite; thermal tiles are simulated (polyurethane foam) except for test samples of actual tiles and thermal blankets.

The first Space Shuttle orbiter, "Enterprise," is a full-scale test vehicle used for flights in the atmosphere and tests on the ground; it is not equipped for spaceflight. Although the airframe and flight control elements are like those of the Shuttles flown in space, this vehicle has no propulsion system and only simulated thermal tiles because these features were not needed for atmospheric and ground tests. "Enterprise" was rolled out at Rockwell International’s assembly facility in Palmdale, California, in 1976. In 1977, it entered service for a nine-month-long approach-and-landing test flight program. Thereafter it was used for vibration tests and fit checks at NASA centers, and it also appeared in the 1983 Paris Air Show and the 1984 World’s Fair in New Orleans. In 1985, NASA transferred "Enterprise" to the Smithsonian Institution’s National Air and Space Museum.

Transferred from National Aeronautics and Space Administration

• • •

Quoting from Wikipedia | Space Shuttle Enterprise:

The Space Shuttle Enterprise (NASA Orbiter Vehicle Designation: OV-101) was the first Space Shuttle orbiter. It was built for NASA as part of the Space Shuttle program to perform test flights in the atmosphere. It was constructed without engines or a functional heat shield, and was therefore not capable of spaceflight.

Originally, Enterprise had been intended to be refitted for orbital flight, which would have made it the second space shuttle to fly after Columbia. However, during the construction of Columbia, details of the final design changed, particularly with regard to the weight of the fuselage and wings. Refitting Enterprise for spaceflight would have involved dismantling the orbiter and returning the sections to subcontractors across the country. As this was an expensive proposition, it was determined to be less costly to build Challenger around a body frame (STA-099) that had been created as a test article. Similarly, Enterprise was considered for refit to replace Challenger after the latter was destroyed, but Endeavour was built from structural spares instead.

Service

Construction began on the first orbiter on June 4, 1974. Designated OV-101, it was originally planned to be named Constitution and unveiled on Constitution Day, September 17, 1976. A write-in campaign by Trekkies to President Gerald Ford asked that the orbiter be named after the Starship Enterprise, featured on the television show Star Trek. Although Ford did not mention the campaign, the president—who during World War II had served on the aircraft carrier USS Monterey (CVL-26) that served with USS Enterprise (CV-6)—said that he was "partial to the name" and overrode NASA officials.

The design of OV-101 was not the same as that planned for OV-102, the first flight model; the tail was constructed differently, and it did not have the interfaces to mount OMS pods. A large number of subsystems—ranging from main engines to radar equipment—were not installed on this vehicle, but the capacity to add them in the future was retained. Instead of a thermal protection system, its surface was primarily fiberglass.

In mid-1976, the orbiter was used for ground vibration tests, allowing engineers to compare data from an actual flight vehicle with theoretical models.

On September 17, 1976, Enterprise was rolled out of Rockwell’s plant at Palmdale, California. In recognition of its fictional namesake, Star Trek creator Gene Roddenberry and most of the principal cast of the original series of Star Trek were on hand at the dedication ceremony.

Approach and landing tests (ALT)

Main article: Approach and Landing Tests

On January 31, 1977, it was taken by road to Dryden Flight Research Center at Edwards Air Force Base, to begin operational testing.

While at NASA Dryden, Enterprise was used by NASA for a variety of ground and flight tests intended to validate aspects of the shuttle program. The initial nine-month testing period was referred to by the acronym ALT, for "Approach and Landing Test". These tests included a maiden "flight" on February 18, 1977 atop a Boeing 747 Shuttle Carrier Aircraft (SCA) to measure structural loads and ground handling and braking characteristics of the mated system. Ground tests of all orbiter subsystems were carried out to verify functionality prior to atmospheric flight.

The mated Enterprise/SCA combination was then subjected to five test flights with Enterprise unmanned and unactivated. The purpose of these test flights was to measure the flight characteristics of the mated combination. These tests were followed with three test flights with Enterprise manned to test the shuttle flight control systems.

Enterprise underwent five free flights where the craft separated from the SCA and was landed under astronaut control. These tests verified the flight characteristics of the orbiter design and were carried out under several aerodynamic and weight configurations. On the fifth and final glider flight, pilot-induced oscillation problems were revealed, which had to be addressed before the first orbital launch occurred.

On August 12, 1977, the space shuttle Enterprise flew on its own for the first time.

Preparation for STS-1

Following the ALT program, Enterprise was ferried among several NASA facilities to configure the craft for vibration testing. In June 1979, it was mated with an external tank and solid rocket boosters (known as a boilerplate configuration) and tested in a launch configuration at Kennedy Space Center Launch Pad 39A.

Retirement

With the completion of critical testing, Enterprise was partially disassembled to allow certain components to be reused in other shuttles, then underwent an international tour visiting France, Germany, Italy, the United Kingdom, Canada, and the U.S. states of California, Alabama, and Louisiana (during the 1984 Louisiana World Exposition). It was also used to fit-check the never-used shuttle launch pad at Vandenberg AFB, California. Finally, on November 18, 1985, Enterprise was ferried to Washington, D.C., where it became property of the Smithsonian Institution.

Post-Challenger

After the Challenger disaster, NASA considered using Enterprise as a replacement. However refitting the shuttle with all of the necessary equipment needed for it to be used in space was considered, but instead it was decided to use spares constructed at the same time as Discovery and Atlantis to build Endeavour.

Post-Columbia

In 2003, after the breakup of Columbia during re-entry, the Columbia Accident Investigation Board conducted tests at Southwest Research Institute, which used an air gun to shoot foam blocks of similar size, mass and speed to that which struck Columbia at a test structure which mechanically replicated the orbiter wing leading edge. They removed a fiberglass panel from Enterprise’s wing to perform analysis of the material and attached it to the test structure, then shot a foam block at it. While the panel was not broken as a result of the test, the impact was enough to permanently deform a seal. As the reinforced carbon-carbon (RCC) panel on Columbia was 2.5 times weaker, this suggested that the RCC leading edge would have been shattered. Additional tests on the fiberglass were canceled in order not to risk damaging the test apparatus, and a panel from Discovery was tested to determine the effects of the foam on a similarly-aged RCC leading edge. On July 7, 2003, a foam impact test created a hole 41 cm by 42.5 cm (16.1 inches by 16.7 inches) in the protective RCC panel. The tests clearly demonstrated that a foam impact of the type Columbia sustained could seriously breach the protective RCC panels on the wing leading edge.

The board determined that the probable cause of the accident was that the foam impact caused a breach of a reinforced carbon-carbon panel along the leading edge of Columbia’s left wing, allowing hot gases generated during re-entry to enter the wing and cause structural collapse. This caused Columbia to spin out of control, breaking up with the loss of the entire crew.

Museum exhibit

Enterprise was stored at the Smithsonian’s hangar at Washington Dulles International Airport before it was restored and moved to the newly built Smithsonian’s National Air and Space Museum‘s Steven F. Udvar-Hazy Center at Dulles International Airport, where it has been the centerpiece of the space collection. On April 12, 2011, NASA announced that Space Shuttle Discovery, the most traveled orbiter in the fleet, will be added to the collection once the Shuttle fleet is retired. When that happens, Enterprise will be moved to the Intrepid Sea-Air-Space Museum in New York City, to a newly constructed hangar adjacent to the museum. In preparation for the anticipated relocation, engineers evaluated the vehicle in early 2010 and determined that it was safe to fly on the Shuttle Carrier Aircraft once again.