Rarely to to opposing force (opposite forces) push with the same exact force (strength). Usually one force or the other will prevail.
What are forces of equal strength acting in opposite directions on an object called
the answer is equilibriumequilibrium
When forces on a body are equal, the body stays still. The forces have to be equal in strength but the direction of application should be exactly opposite.
Magnetic (north and south poles are equal and opposite) otherwise Newton says every action has an equal but opposite reaction. If you punch a wall your fist hits the wall at the same rate the wall damages your fist.
Forces are not always equal and opposite. This question needs to be rewritten.
Two forces of equal strength acting in opposite directions on an object would result in a net force of zero on the object. This would cause the object to remain stationary or if it is already in motion, to continue moving at a constant velocity.
It happens when 1 force is having larger magnituge and the other is less in magnitude ........ and then the forces does not balance each other Take the example of weight and tension of a body connected by string . weight and tension are always opposite in the direction if the weight is suppose 12 newton and tension is 10 newton , then same thing will happen , they can't balance each other ...... as the strength of weight is more than tension
opposing forces push with equal strength
They are called COUPLE.if forces on an object are equal and opposite...
Two forces that are equal in size but opposite in direction are called balanced forces.
Actually, forces that are equal in size but opposite in direction are called balanced forces. Unbalanced forces are forces that are not equal in size and/or opposite in direction, resulting in a change in an object's motion.
When two forces of equal strength are pushing in opposite directions, they will cancel each other out. This results in a net force of zero, and the object will remain stationary or continue on its current path with constant velocity.