Rockets 101 | National Geographic

– [Narrator] The ground begins to tremble.
– [Announcer] Three.
– [Narrator] Massive engines roar to life.
– [Announcer] Two.
– [Narrator] Billowing clouds of exhaust.
– [Announcer] One.
– [Narrator] And then a blinding pillar of fire.
– [Announcer] Liftoff. We have a liftoff.
– [Narrator] A mighty voyager leaves the Earth behind
to explore the vast universe among the stars.
Launching a rocket into space
is one of humankind’s crowning achievements.
Although they come in many different shapes and sizes,
all rockets are propelled by engines that produce thrust.
The rockets that launch into space
are made up of four major systems, based on function.
The structural system makes up the frame
that holds the rocket together
and consists of the cylindrical body, nose cone, and fins.
Next, the propulsion system
takes up the most amount of space
and includes the rocket engine, fuel, and oxidizer.
The payload system depends on each mission
and consists of anything a rocket is carrying into space,
like a spacecraft, satellite, or human being.
Lastly, the guidance system is made up of radars
and computers that provide stability for the rocket
and control maneuvers in flight.
In order to launch into space,
all four of these rocket systems must work together
to overcome the force of gravity.
The launch begins when the rocket’s propulsion system
starts to generate a massive amount of thrust.
Thrust is the force produced by burning fuel
as exhaust gases escape through the engine.
Once the rocket generates more thrust than its own weight,
it lifts into the air to begin its powered ascent.
During this phase of the flight,
the weight of the rocket will constantly change
as fuel continues to burn off.
As a result, most spacebound rockets
use a technique called staging
to reduce dead weight and increase efficiency.
The method involves breaking off a large rocket
into two or three smaller rockets
that fall away at different stages of the launch.
As the rocket continues into orbit,
its sophisticated guidance system maintains balance
and steers to keep the flight trajectory on track.
At the correct altitude and speed,
the upper stage engine cuts off,
completing the rocket’s journey
from Earth’s surface into orbit.
Long before blasting into space,
rockets were used here on Earth
as early as the 13th century.
The first known rockets were introduced by the Chinese
in 1232 A.D.
These fire arrows were used to fight against invading armies
and were made by attaching fireworks packed with gunpowder
to long arrows.
By the 16th century, the use of rockets for amusement
had spread from Asia to Europe,
where they gained popularity in elaborate firework displays
at celebrations and festivities.
During the following centuries, the work of scientists,
like Isaac Newton and his Laws of Motion,
began to greatly increase knowledge
into the forces behind rocketry and how to control them.
And by the end of the 18th century,
military forces around the world began to apply
these new scientific understandings to the battlefield,
transforming the earlier, crude rockets
into powerful weapons of war.
However, the true dawn of space rocketry
began in the early 20th century,
thanks to massive technological improvements
in rocket science and aeronautics.
By the 1950s, the stage was set for the modern space age,
and development began
on sophisticated launch vehicle systems
like the Atlas rocket family,
which launched America’s first astronaut into orbit,
the Titan rockets,
which were behind the pivotal Gemini missions
during the Space Race, and the Saturn rocket family,
which includes the largest and most powerful rocket
ever successfully launched, the mighty Saturn V.
Standing as high as a 36-story building
and weighing more than 3,000 tons,
this behemoth was used to launch
the Apollo missions to the moon.
– We choose to go to the moon not because they are easy,
but because they are hard.
– [Narrator] Since the beginning of human history,
adventurers have looked at the skies
and dreamt of touching the stars.
And today, innovations in rocketry
are opening up possibilities to launch astronauts
farther into space than ever before.
Whether our sights are set on the moon, Mars, or beyond,
the future of rocketry and space exploration
is only just blasting off.

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