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First, a force has 'size'. A bowling ball exerts a larger force on the floor than a golf ball does, and thegolf ball exerts a larger force on a tabletop than a housefly does. Also, it has been suggested that aswimmer exerts a smaller force on a stationary pier than a battleship does.Second, a force has 'direction'. You yourself, in the privacy of your own home, can push a small packageleft, right, forward, backward, up, down, or any of these in combination.The force is completely described by its size and direction, which makes it a vector.
When one object exerts a force on another object, the second object the same size force on the first object.
20 newtons
yes force has size. it also has direction
The magnitude of the force is exactly the same (Newton's Third Law).
Same force, opposite direction (according to Newton's Third Law).
nothing
newton's third law
First, a force has 'size'. A bowling ball exerts a larger force on the floor than a golf ball does, and thegolf ball exerts a larger force on a tabletop than a housefly does. Also, it has been suggested that aswimmer exerts a smaller force on a stationary pier than a battleship does.Second, a force has 'direction'. You yourself, in the privacy of your own home, can push a small packageleft, right, forward, backward, up, down, or any of these in combination.The force is completely described by its size and direction, which makes it a vector.
newtons 3rd law states that if object A exerts a force on object B then, object Bwill exert the same amount of force on object A( newtons 3rd law of motion states that for every action there is an equal or opposite reaction )
When one object exerts a force on another object, the second object the same size force on the first object.
20 newtons
yes force has size. it also has direction
The magnitude of the force is exactly the same (Newton's Third Law).
I don't know but Force has Magnitude and Direction (and it also has size).
The magnitude of the force is exactly the same (Newton's Third Law).
This is newtons third law in action, which states that for every action there is an equal and opposite reaction. If you push on a wall with 50 newtons of force, the wall will not move, and it will have no acceleration. To make the sum of the forces zero, the wall must push back on you with the same 50 newton force. This is implying that you do not push on the wall hard enough to were it breaks. If it does this it means you are overcoming the force that the wall can push back.