Acceleration is caused by unbalanced forces. They may or may not be opposite in direction. If they are, they must be different in size.
Balanced forces cause no acceleration because they result in a net force of zero acting on an object. When the forces in opposite directions are equal in magnitude, they cancel each other out, leading to no change in the object's motion.
Two forces may not balance each other if they are acting in different directions or have different magnitudes. When forces are not equal and opposite, they result in acceleration or movement of the object in the direction of the greater force.
Forces that don't cancel each other out are called unbalanced forces. When two or more forces act in opposite directions and do not cancel each other completely, they create a net force that results in an acceleration of the object.
An object at rest being pulled in opposite directions by equal forces experiences a state of equilibrium where the forces cancel each other out. As a result, the object remains stationary with no net acceleration or movement in any direction.
Yes, velocity and acceleration can point in the opposite direction to each other. This is because neither one depends on the other. When velocity and acceleration are opposite each other this results in slowing down, for example when you hit the break on your car.
Balanced forces cause no acceleration because they result in a net force of zero acting on an object. When the forces in opposite directions are equal in magnitude, they cancel each other out, leading to no change in the object's motion.
Two forces may not balance each other if they are acting in different directions or have different magnitudes. When forces are not equal and opposite, they result in acceleration or movement of the object in the direction of the greater force.
Yes, if two forces are equal in magnitude and opposite in direction, they will cancel each other out. As a result, there will be no net force acting on the object, and according to Newton's second law (F=ma), with no net force, there will be no acceleration of the object.
Forces that don't cancel each other out are called unbalanced forces. When two or more forces act in opposite directions and do not cancel each other completely, they create a net force that results in an acceleration of the object.
well one side is positive the other side is negative positive+negitive=0 acceleration kinda like doing -5 + 5 = 0
An object at rest being pulled in opposite directions by equal forces experiences a state of equilibrium where the forces cancel each other out. As a result, the object remains stationary with no net acceleration or movement in any direction.
Yes, velocity and acceleration can point in the opposite direction to each other. This is because neither one depends on the other. When velocity and acceleration are opposite each other this results in slowing down, for example when you hit the break on your car.
Acceleration is the result of unbalanced forces acting on an object. When the forces acting on an object are unbalanced, there is a net force that causes the object to accelerate. Balanced forces, on the other hand, result in no acceleration as the forces cancel each other out.
No, not every force causes acceleration. For an object to accelerate, the force acting on it must not be balanced by an equal and opposite force. If the forces are balanced, the object will either remain at rest or continue moving at a constant velocity.
The acceleration is zero, since the net force (or total force) is zero: the acceleration on one side cancels out the acceleration on the other. Imagine pushing your hands together. Equal and opposite forces cancel out, and your hands remain in the middle.
Nothing! If the two forces are equal and opposite then they will cancel each other out. What will happen next is described in Newton's First law when it says "An object in motion will stay in motion unless acted upon by an outside force". Two equal and opposite forces have the same effect as no force, therefore the object's motion will remain the same as if it had never been acted upon by the two opposite forces.
cause motion &+ cause positive acceleration . #