Explain how newton's third law of motion is applied in launching a rocket
Answers
Amani your answer is very correct.
As you know the NEWTON'S third law of motion is for every action there is an equal and opposite reaction.
As the gases and flame come out of the nozzels of the rocket is exerting equal and opposite force this causes the rocket to blast of.
Every pls give Amani 5 stars and thanks ok.
Answer:
Newton's third law states that if object A exerts a force on object B, then object B must apply a force to object A that is equal in magnitude and directed in the opposite direction.
Explanation:
According to the third law of motion, every action has a corresponding and opposing response. Both objects that are at rest and those that are speeding can exhibit this. For instance, a box that is resting pushes down on the ground as a result of gravity.
Newton's third law of motion is applied in launching a rocket:
When a rocket is launched, fuel is burned inside the rocket and the burnt gases are ejected out of the rocket through the nozzle at high pressure and high temperature. Gases are thus forced by the rocket's F(action) to be ejected out the nozzle in a reverse direction. The rocket goes ahead because the gases it emits impose an equal and opposite force on it called a reaction, or R.
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