Rockets

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- [Narrator] The ground begins to tremble.

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- [Announcer] Three.

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- [Narrator] Massive engines roar to life.

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- [Announcer] Two.

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- [Narrator] Billowing clouds of exhaust.

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- [Announcer] One.

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- [Narrator] And then a blinding pillar of fire.

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- [Announcer] Liftoff. We have a liftoff.

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- [Narrator] A mighty voyager leaves the Earth behind

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to explore the vast universe among the stars.

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Launching a rocket into space

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is one of humankind's crowning achievements.

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Although they come in many different shapes and sizes,

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all rockets are propelled by engines that produce thrust.

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The rockets that launch into space

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are made up of four major systems, based on function.

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The structural system makes up the frame

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that holds the rocket together

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and consists of the cylindrical body, nose cone, and fins.

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Next, the propulsion system

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takes up the most amount of space

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and includes the rocket engine, fuel, and oxidizer.

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The payload system depends on each mission

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and consists of anything a rocket is carrying into space,

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like a spacecraft, satellite, or human being.

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Lastly, the guidance system is made up of radars

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and computers that provide stability for the rocket

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and control maneuvers in flight.

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In order to launch into space,

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all four of these rocket systems must work together

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to overcome the force of gravity.

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The launch begins when the rocket's propulsion system

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starts to generate a massive amount of thrust.

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Thrust is the force produced by burning fuel

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as exhaust gases escape through the engine.

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Once the rocket generates more thrust than its own weight,

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it lifts into the air to begin its powered ascent.

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During this phase of the flight,

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the weight of the rocket will constantly change

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as fuel continues to burn off.

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As a result, most spacebound rockets

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use a technique called staging

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to reduce dead weight and increase efficiency.

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The method involves breaking off a large rocket

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into two or three smaller rockets

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that fall away at different stages of the launch.

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As the rocket continues into orbit,

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its sophisticated guidance system maintains balance

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and steers to keep the flight trajectory on track.

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At the correct altitude and speed,

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the upper stage engine cuts off,

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completing the rocket's journey

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from Earth's surface into orbit.

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Long before blasting into space,

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rockets were used here on Earth

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as early as the 13th century.

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The first known rockets were introduced by the Chinese

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in 1232 A.D.

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These fire arrows were used to fight against invading armies

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and were made by attaching fireworks packed with gunpowder

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to long arrows.

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By the 16th century, the use of rockets for amusement

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had spread from Asia to Europe,

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where they gained popularity in elaborate firework displays

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at celebrations and festivities.

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During the following centuries, the work of scientists,

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like Isaac Newton and his Laws of Motion,

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began to greatly increase knowledge

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into the forces behind rocketry and how to control them.

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And by the end of the 18th century,

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military forces around the world began to apply

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these new scientific understandings to the battlefield,

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transforming the earlier, crude rockets

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into powerful weapons of war.

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However, the true dawn of space rocketry

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began in the early 20th century,

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thanks to massive technological improvements

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in rocket science and aeronautics.

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By the 1950s, the stage was set for the modern space age,

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and development began

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on sophisticated launch vehicle systems

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like the Atlas rocket family,

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which launched America's first astronaut into orbit,

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the Titan rockets,

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which were behind the pivotal Gemini missions

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during the Space Race, and the Saturn rocket family,

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which includes the largest and most powerful rocket

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ever successfully launched, the mighty Saturn V.

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Standing as high as a 36-story building

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and weighing more than 3,000 tons,

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this behemoth was used to launch

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the Apollo missions to the moon.

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- We choose to go to the moon not because they are easy,

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but because they are hard.

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- [Narrator] Since the beginning of human history,

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adventurers have looked at the skies

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and dreamt of touching the stars.

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And today, innovations in rocketry

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are opening up possibilities to launch astronauts

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farther into space than ever before.

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Whether our sights are set on the moon, Mars, or beyond,

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the future of rocketry and space exploration

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is only just blasting off.