When i hit a ball i.e. we give a force in the ball,the ball give an equal & opposite force in our hand..as the two forces acting in the two different bodies so the equal and opposite forces cannot balance with each other..
When two forces cancel each other out, -- their magnitudes (size) must be exactly equal -- their directions must be exactly opposite.
Yes if they r equal and opposite to each other
Well, Professor Newton has taught that the reaction is always equal and opposite to the action, and we know that equal and opposite forces cancel each other. So it seems that the answer to the question must be: They always do.
equal to zero because two opposite forces will cancel each other
Two forces equal in size and opposite in direction are balanced, not unbalanced, because they cancel each other out. Any set of forces which has a resultant of zero is said to be balanced.
Balanced forces, that are of equal strength.
During motion, the only two equal forces that can cancel each other without altering the motion of the object are normal and gravity, they are opposite to each other but the same. Also if Fa/T is equal to Friction, then the forces are balanced.
Equilibrium
During motion, the only two equal forces that can cancel each other without altering the motion of the object are normal and gravity, they are opposite to each other but the same. Also if Fa/T is equal to Friction, then the forces are balanced.
If they cancel, then their magnitudes must be equal.
No. When two forces act in the same direction, they can be added together. It is only when two identical forces act in opposite directions that they cancel each other out.
Two equal forces (equal in magnitude and direction) result in simply double each individual force. However, if the forces are acting opposite to each other they will cancel each other out and they cause a resultant force of zero. This means the object is in linear equilibrium and is either moving at a constant speed or is stationary.