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When the ball bounces off a wall the net force on the ball is zero because of action and reaction forces?
The net force on the ball is not zero. The ball exerts a force on the wall (the action), and the wall exerts an equal and opposite reaction force on the ball. These two forces do not sum to zero as they are acting on different objects; the action of the ball acts on the wall and the reaction of the wall acts on the ball.
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Why action and reaction forces of newton 3 law not cancel each other give reason?
The action and reaction forces do cancel each other out, so that there is a net force of zero. When you push on a wall, the wall does not move because the action force that you exert and the reaction force that the wall exerts are equal but opposite and the net force is zero.
How do action and reaction forces relate to real life?
Life is shaped by social forces. Action and reaction forces shape the pattern of real life, moving society forward, backward or keeping things stable.
What are the action-reaction forces if a bug hits the windshield?
striking of bug is action while bug getting hurt is reaction -Thunder
What is the sum of action and reaction on a body and explain?
The sum of action and reaction on a body is zero according to Newton's third law of motion. This law states that for every action, there is an equal and opposite reaction. This is because the action and reaction forces act on different objects, resulting in a net force of zero on the system as a whole.
Does action-reaction pairs result in equilibrium?
Yes, action-reaction pairs result in a balance of forces, but they do not necessarily result in equilibrium. In order to achieve equilibrium, the net force acting on an object must be zero, which involves considering all the forces acting on the object, not just the action-reaction pairs.
When a ball bounces off a wall the net force on the ball is zero because of action and reaction forces.?
False!
Which is an example of action and reaction forces?
When an air fillae baloon sets free the air inside it rushes out it is action of air as a reaction the balloon moves in opposite direction this is reaction When we throw a ball on a wall: the throwing process is action. In reaction the wall bounces the ball back to us
What are the forces in equilibrium?
action and reaction
Why does and object move if the action reaction forces are equal?
An object can still move even if the action and reaction forces are equal because they act on different objects. The equal forces produce opposite accelerations on the two objects, causing them to move in opposite directions. This is described by Newton's third law of motion.
What are action -reaction forces?
Forces that are equal and anti-parallel.
Why action and reaction forces produce motion explain?
Action and reaction forces produce motion because for every action force there is an equal and opposite reaction force, as stated by Newton's third law of motion. These forces act on different objects, causing them to accelerate in opposite directions, thus producing motion. When the forces are unbalanced, motion occurs due to the resulting acceleration.
What forces are involved in a bouncing ball?
When a ball bounces, there are primarily two forces at play: gravity, which pulls the ball downwards, and the normal force exerted by the surface the ball bounces off of, which pushes the ball back up. These forces determine the height of the bounce and the time it takes for the ball to return to the surface. Frictional forces may also play a role in influencing the bounce of the ball.
Why does and object move if the action-reaction forces are equal?
action = reaction, but they works in the different object
What statement about action- reaction force is incorrect?
Action-reaction forces act on the same object.
What will the action and reaction forces always be?
Equal in magnitude and opposite in direction.
What will always be the action and reaction forces situation always be?
Newtons third law says that the action and reaction forces in any situation will always be equal.
What forces equal in size but opposite in direction?
action-reaction forces
