STS-135: Final Launch of Atlantis and the Space Shuttle Program.

[obeygiant]

Footage and explanation of high-speed 16mm, 35mm, and HD cameras running during shuttle liftoffs.

Mesmerizing footage!

 

[MacNut]

Footage and explanation of high-speed 16mm, 35mm, and HD cameras running during shuttle liftoffs.

Mesmerizing footage!

These videos show just how complex this machine was and all of the engineering that went into launch.

 

[obeygiant]

These videos show just how complex this machine was and all of the engineering that went into launch.

For Sure!

The most complex machine ever built, the space shuttle has more than 2.5 million parts, including almost 370 kilometers (230 miles) of wire, more than 1,060 plumbing valves and connections, over 1,440 circuit breakers, and more than 27,000 insulating tiles and thermal blankets.

On 8 ½ minutes after launch, the shuttle accelerates from zero to about nine times as fast as a rifle bullet, or 28,002.6 kilometers per hour (17,400 miles per hour), to attain Earth orbit.

The space shuttle weighs more than 2.04 million kilograms (4.5 million pounds) at launch — over 1.59 million kilograms (3.5 million pounds) of propellants are entirely consumed in the next 8 ½ minutes.

If the shuttle’s main engines pumped water instead of fuel, they would drain an average-sized swimming pool every 25 seconds.

Because liquid hydrogen and liquid oxygen fuel the main engines, the majority of exhaust produced is water vapor.

At launch, the shuttle’s two solid rockets consume more than 9.07 metric tons (10 tons) of fuel each second and produce 44 million horsepower, equal to 14,700 locomotives.

The three shuttle main engines produce power equivalent to 13 times that produced by the Hoover Dam.

The shuttle's solid rockets burn powdered aluminum as fuel — a different form of the same type of material that is used as a foil wrap in most kitchens.

The temperatures inside the shuttle’s main engines and solid rockets reach more than 3,315.6ŗ Celsius (6,000ŗ Fahrenheit), higher than the boiling point of iron, yet the main engine’s fuel, liquid hydrogen, is the second coldest liquid on Earth at minus 252.8ŗ Celsius (423ŗ Fahrenheit).

The discharge pressure of a shuttle main engine turbopump could send a column of liquid hydrogen 57.9 kilometers (36 miles) into the air.

Temperatures experienced by the shuttle range from as low as minus 156.7 Celsius (minus 250ŗ Fahrenheit) in space to as high as 1,648ŗ Celsius (3,000ŗ Fahrenheit) as it re-enters the atmosphere.

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[jaduff46]

Amazing footage! Thanks for the gift.

 

[ucfgrad93]

Footage and explanation of high-speed 16mm, 35mm, and HD cameras running during shuttle liftoffs.

Mesmerizing footage!

Awesome! Thanks for sharing.