A rocket can take off by the Newton Third law of motion
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.
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.
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.
Thrust is the main force used in take off in a rocket. It is the force generated by the rocket engines which propels the rocket upwards. Gravity and aerodynamic forces also play a role in the take off phase.
A rocket needs a powerful thrust to overcome Earth's gravity and lift off. This thrust is typically provided by rocket engines that burn fuel to create a force that propels the rocket upward. Additionally, the rocket needs a stable structure to withstand the forces of liftoff and the harsh conditions of space.
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.
It would crash like NASA's Titan rocket did.
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.
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.
Thrust is the main force used in take off in a rocket. It is the force generated by the rocket engines which propels the rocket upwards. Gravity and aerodynamic forces also play a role in the take off phase.
me
A rocket needs a powerful thrust to overcome Earth's gravity and lift off. This thrust is typically provided by rocket engines that burn fuel to create a force that propels the rocket upward. Additionally, the rocket needs a stable structure to withstand the forces of liftoff and the harsh conditions of space.
you take the screw off the carbarator.
Actually its the other way around, if a rocket were to launch off the moon it would take less fuel than if it had launched off of earth. It would take less fuel because the moon has lighter gravity.
Outer space is defined to start at about 100 km above Earth's surface; a rocket taking off can probably do that in a few minutes.
hello poo
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.