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The Space Shuttle takes off like a ............flies around the earth like a........... and lands like an?
the space shuttle takes off like a rocket flies around the earth like a bird and lands like an airoplane
What happens to the rocket when they leave earth?
When a rocket leaves Earth, it continues to accelerate to overcome Earth's gravity and reach orbital velocity. Once in space, the rocket enters orbit or continues on its trajectory to its destination. Without the force of Earth's gravity pulling on it, the rocket stays in motion according to the laws of physics.
What would happen if the thrust of the rocket at take-off was not enough to put the rocket in orbit around the earth?
If the thrust of the rocket at take-off is not enough to put the rocket in orbit around the Earth, it will not be able to overcome the gravitational pull of the Earth and achieve the necessary velocity to stay in orbit. The rocket would likely fall back to Earth due to gravity.
What is the force that tries to pull the rocket back to earth?
The force that tries to pull the rocket back to Earth is gravity. This force is responsible for the rocket's weight and acts in the direction toward the center of the Earth.
How does a single stage rocket get off the earth?
A single-stage rocket gets off the Earth by igniting its engines at liftoff, generating thrust that overcomes Earth's gravity. The rocket gains speed and altitude until it reaches the required velocity to enter orbit or escape the Earth's atmosphere.
What is a reuseable vehicle that goes into orbit like a rocket and then glides back to earth like an airplane?
rocket
How does a rocket reenter the earth atmosphere?
The Earth's atmosphere is just gas, just like an airplane can get through clouds, a rocket can get through the Earth's atmosphere.
What would happen if the thrust of the rocket at take off was not enough to put the rocket in orbit around the earth?
It would crash like NASA's Titan rocket did.
The Space Shuttle takes off like a ............flies around the earth like a........... and lands like an?
the space shuttle takes off like a rocket flies around the earth like a bird and lands like an airoplane
Rocket A travels with speed 0.800c relative to the earth Rocket B passes rocket A with speed 0.500c relative to rocket A Determine the speed of rocket B relative to the earth Assume that the earth?
0.929c formula is: vbe =( vae +vba )/(1+( vae *vba )/c2 )
What causes a rocket to drop back to earth?
A rocket drops back to Earth due to the force of gravity pulling it down. Once the rocket's engines stop providing thrust, the gravity of Earth becomes the dominant force, causing the rocket to descend.
What happens to the rocket when they leave earth?
When a rocket leaves Earth, it continues to accelerate to overcome Earth's gravity and reach orbital velocity. Once in space, the rocket enters orbit or continues on its trajectory to its destination. Without the force of Earth's gravity pulling on it, the rocket stays in motion according to the laws of physics.
What is a reusable vehicel that goes into orbit like a rocket and then glides back to Earth like an airplane?
I would call that a Space Shuttle.
What stops a rocket from leaving the earth?
The Earth's Gravitational field
What would happen if the thrust of the rocket at take-off was not enough to put the rocket in orbit around the earth?
If the thrust of the rocket at take-off is not enough to put the rocket in orbit around the Earth, it will not be able to overcome the gravitational pull of the Earth and achieve the necessary velocity to stay in orbit. The rocket would likely fall back to Earth due to gravity.
What is the force that tries to pull the rocket back to earth?
The force that tries to pull the rocket back to Earth is gravity. This force is responsible for the rocket's weight and acts in the direction toward the center of the Earth.
How does a single stage rocket get off the earth?
A single-stage rocket gets off the Earth by igniting its engines at liftoff, generating thrust that overcomes Earth's gravity. The rocket gains speed and altitude until it reaches the required velocity to enter orbit or escape the Earth's atmosphere.
