In space, rockets use thrusters that expel mass such as gas or liquid fuel to generate thrust. This thrust propels the rocket forward by obeying Newton's third law of motion, where for every action (exhaust expelled), there is an equal and opposite reaction (rocket moves forward).
This is a rewording of the "nothing to push against" argument. The answer is that the "push" occurs on the rocket itself. The exhaust goes out the back, and because of Newton's Third Law, the rocket must then more forward.
The gases in the fuel chamber of the rocket combust and push on the inside of the rocket, propeling it forward or upward. This is because in space there is nothing for a rocket to push of off, except itself.
Weight refers to the force of gravity acting on the rocket, thrust is the force propelling the rocket upward, lift is the force generated by the rocket's fins to keep it stable, and drag is the resistance encountered as the rocket moves through the air. Weight must be overcome by thrust for the rocket to launch, while lift helps the rocket maintain stability and drag opposes its forward motion. Balancing these forces is crucial for a successful rocket launch.
The forward motion of a rocket is caused by the expulsion of high-speed exhaust gases from the combustion of rocket fuel. Newton's third law of motion states that for every action, there is an equal and opposite reaction, so the force of the expelled gases propels the rocket forward.
Rockets are propelled forward by thrust generated by the combustion of rocket fuel and controlling the direction of the exhaust.
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a rocket can be slowed down by firing trusters in the opposite direction however the slower the rocket moves forward the faster it will fall
A rocket moves forward by expelling high-speed exhaust gases out of its engines, following Newton's third law of motion which states that for every action there is an equal and opposite reaction. As the gases are forced out of the rocket at a high velocity, the rocket experiences a thrust in the opposite direction, propelling it forward.
A rocket moves forward by expelling high-speed exhaust gases from its engines, creating thrust through the principle of action and reaction described by Newton's third law of motion. The expelled gases push against the surrounding air or empty space, propelling the rocket in the opposite direction.
One of Newton's Laws of Motion- for every action, there is an equal but opposite reaction. Rocket motors eject gasses from burning rocket fuel with great force. Their action (going to the rear) causes the rocket to react- being pushed forward.
A rocket moves forward by expelling high-speed gases out of its engines, in accordance with Newton's third law of motion. As the gases are ejected downward, an equal and opposite reaction force propels the rocket forward. This principle is known as action and reaction.
Propulsion is the force that moves an object forward. It is the result of applying force to the object in the opposite direction it needs to move. For example, in a rocket, propulsion is generated by expelling propellant gases backwards, causing the rocket to move forward.
A balloon rocket moves forward due to the principle of action and reaction as outlined in Newton's Third Law of Motion. When the air is forced out of the balloon in one direction, the balloon is propelled forward in the opposite direction.
In space, rockets use thrusters that expel mass such as gas or liquid fuel to generate thrust. This thrust propels the rocket forward by obeying Newton's third law of motion, where for every action (exhaust expelled), there is an equal and opposite reaction (rocket moves forward).
because a rocket makes an explosion that is stopped at one end and so can only go the other way. one of the laws of physics is every action has an equal and opposite reaction which, in this case, moves the rocket.One word: thrust, when gas is propelled out the back of the rocket it provides the amount of thrust needed to propel the rocket forward.
The third law of motion, known as Newton's third law, is used to explain rocket propulsion. This law states that for every action, there is an equal and opposite reaction. In the case of a rocket, hot gases are expelled backward, causing the rocket to move forward in the opposite direction.