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How does a rocket ship take off from the ground?
A rocket ship takes off from the ground by igniting its engines to produce thrust. The thrust pushes the rocket upward, overcoming Earth's gravitational pull. As the rocket accelerates, it gains the speed needed to break free from the Earth's atmosphere and enter space.
During a rocket launch whioch is greater thrust of the rocket engine or weight of the rocket?
During a rocket launch, the thrust of the rocket engine is greater than the weight of the rocket. This is necessary for the rocket to overcome Earth's gravitational pull and lift off into space. The thrust generated pushes the rocket upwards while gravity pulls it down.
How rocket ship take off?
A rocket ship takes off by igniting its rocket engines, which produce thrust that propels the ship upward. The force generated by the rocket engines pushes the ship off the ground and into the air, overcoming Earth's gravity. As the rocket ascends, its engines continue to provide thrust to propel it further into space.
How does a rocket take off from Earth?
A rocket takes off from Earth by igniting its engines to produce thrust, which propels it upwards against the force of gravity. The thrust generated must be greater than the force of gravity in order for the rocket to overcome Earth's gravitational pull and lift off into space. Once the rocket reaches a certain speed and altitude, it can transition to its intended trajectory.
Why does a rocket need a large thrust on take off from the earth?
A rocket needs a large thrust on takeoff from Earth to overcome the force of gravity pulling it down. The large thrust is necessary to generate enough speed to reach escape velocity and break free from Earth's gravitational pull. Once the rocket is in space, it needs less thrust to maintain its course.
How does a rocket ship take off from the ground?
A rocket ship takes off from the ground by igniting its engines to produce thrust. The thrust pushes the rocket upward, overcoming Earth's gravitational pull. As the rocket accelerates, it gains the speed needed to break free from the Earth's atmosphere and enter space.
How does a rocket accelerate away from earth?
A rocket accelerates away from Earth by using propellant combustion in its engines to produce thrust. By expelling exhaust gases at high speeds, the rocket follows Newton's third law of motion, which states that for every action, there is an equal and opposite reaction, propelling the rocket upward. The combination of thrust overcoming the force of gravity enables the rocket to accelerate and eventually break free from Earth's gravity.
During a rocket launch whioch is greater thrust of the rocket engine or weight of the rocket?
During a rocket launch, the thrust of the rocket engine is greater than the weight of the rocket. This is necessary for the rocket to overcome Earth's gravitational pull and lift off into space. The thrust generated pushes the rocket upwards while gravity pulls it down.
How rocket ship take off?
A rocket ship takes off by igniting its rocket engines, which produce thrust that propels the ship upward. The force generated by the rocket engines pushes the ship off the ground and into the air, overcoming Earth's gravity. As the rocket ascends, its engines continue to provide thrust to propel it further into space.
How does a rocket take off from Earth?
A rocket takes off from Earth by igniting its engines to produce thrust, which propels it upwards against the force of gravity. The thrust generated must be greater than the force of gravity in order for the rocket to overcome Earth's gravitational pull and lift off into space. Once the rocket reaches a certain speed and altitude, it can transition to its intended trajectory.
What is the main factor in determining the amount of thrust a rocket requires to leave the earths atmosphere?
The main factor in determining the amount of thrust a rocket requires to leave the Earth's atmosphere is the mass of the rocket. The heavier the rocket, the more thrust is needed to overcome Earth's gravity and propel it into space.
Why does a rocket need a large thrust on take off from the earth?
A rocket needs a large thrust on takeoff from Earth to overcome the force of gravity pulling it down. The large thrust is necessary to generate enough speed to reach escape velocity and break free from Earth's gravitational pull. Once the rocket is in space, it needs less thrust to maintain its course.
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 main factor in determining the amount of thrust a rocket requires to leave the Earth's atmosphere?
Payload weight.
What is the name of the force needed for a rocket to escape from the earth beginning with a T?
thrust
What is the factor in determining the amount of thrust a rocket requires to leave the earths atmosphere?
Payload weight
How many pounds of thrust does the first stage of the Apollo rocket have?
The first stage of the Apollo rocket had about 7.5 million pounds of thrust, generated by five F-1 engines. This massive amount of thrust was needed to launch the rocket and overcome Earth's gravity.
