I supose in laymans language the forces would be referred to as equal and opposite reactions. In fact your question answers itself , but it is an intelligent question.
Balanced, or in equilibrium
equal, oppositewhen a force is exerted another force occurs that is equal in size and opposite in direction.wish that helps you. ^ ^
The equal and opposite reaction in the force felt by the object pushing the box. E.g. if a person pushes a box the opposite force is the force felt on the hands
300 Newtons to the left. Remember, there is an equal and opposite force. So the force is equal, 300 Newtons, and it is opposite (opposite of right is left).
Because an equal and opposite force is being exerted on it.
Balanced, or in equilibrium
A force is exerted on a box and an equal and opposite force is exerted by the box is an example that explains Newton's second law of motion. It states that for every action, there is an equal and opposite reaction.
equal, oppositewhen a force is exerted another force occurs that is equal in size and opposite in direction.wish that helps you. ^ ^
These forces are called frictional forces. (: My source is the Physical Science with Earth science textbook, Chapter 3. (:
These forces are called frictional forces. (: My source is the Physical Science with Earth science textbook, Chapter 3. (:
Action-Reaction Forces.
The equal and opposite reaction in the force felt by the object pushing the box. E.g. if a person pushes a box the opposite force is the force felt on the hands
no net force
300 Newtons to the left. Remember, there is an equal and opposite force. So the force is equal, 300 Newtons, and it is opposite (opposite of right is left).
In mechanics, the force exerted upwards by the surface that a body sits on is equal and opposite to the force exerted downwards by that body and is referred to as the Ground Reaction Force (GRF) or simply Reaction.
Yes for every action there will be an EQUAL and opposite reaction. This is Newton's third law
Because an equal and opposite force is being exerted on it.