The force created by a rocket is called thrust. Thrust is generated by the expulsion of gas at high speed from the rocket's engines, following Newton's third law of motion: for every action, there is an equal and opposite reaction. This thrust propels the rocket upward against the force of gravity.
The propulsive force of a rocket engine is called thrust. It is the force that propels the rocket in the opposite direction to the exhaust expelled from the rocket engine.
An unbalanced force in a rocket launch is created when the thrust generated by the rocket engines pushing the rocket upwards is greater than the force of gravity pulling it down. This causes the rocket to accelerate upwards, overcoming gravity and launching it into space.
Thrust ... [ :
Reaction force that is equal and opposite to thrust force from the rocket's engine.
A rocket gets off the ground through a process called ignition. Once the rocket's engines are ignited, they generate thrust, which propels the rocket upwards. The thrust created by the engines overcomes the force of gravity, allowing the rocket to lift off the ground and enter into space.
The force that launches a rocket is generated by the rocket engines thrusting against the ground, creating a reaction force that propels the rocket upward. This force is known as thrust force.
As a rocket burns fuel, it expels exhaust gases. When the gases are forced out of the rocket, they exert an equal and opposite force on the rocket. A rocket can rise into the air because the gases it expels with a downward force exert an equal but opposite force on the rocket. As long as this upward pushing force, called thrust, is greater than the downward pull of gravity, there is a net force in the upward direction. As a result, the rocket accelerates upwards.-information from Prentice Hall, Science Explorer: Physical Science
As a rocket burns fuel, it expels exhaust gases. When the gases are forced out of the rocket, they exert an equal and opposite force on the rocket. A rocket can rise into the air because the gases it expels with a downward force exert an equal but opposite force on the rocket. As long as this upward pushing force, called thrust, is greater than the downward pull of gravity, there is a net force in the upward direction. As a result, the rocket accelerates upwards.-information from Prentice Hall, Science Explorer: Physical Science
A force can change the direction of the rocket's motion but not its speed if the force is applied perpendicular to the rocket's velocity. If the force is applied in the same direction as the rocket's motion, it can accelerate or decelerate the rocket.
The combustion of rocket fuel ejects a mass of material at high velocity. In accordance with Newton's third law, the momentum of the ejecta generates an equal and opposite reaction - which propels the rocket forward.
Force influences a rocket by providing thrust for propulsion. The force generated by the rocket engines pushes against the ground or exhaust gases, propelling the rocket upward. The amount of force generated determines the acceleration and speed of the rocket.
A rocket experiences an unbalanced force when there is a difference between the thrust produced by the rocket engines and the resistive forces acting on the rocket, such as air resistance or gravity. This unbalanced force causes the rocket to accelerate in the direction of the net force.