No. If 2 equal forces are acting on an object in opposite directions it will not accelerate.
10N ->(OBJECT)<-10N = No acceleration.
10N <-(OBJECT)->10N = No acceleration.
Balanced forces are acting on an object when the object is either at rest or moving at a constant velocity. This occurs when the forces applied on the object cancel each other out, resulting in no acceleration.
Balanced forces do not change an object's motion because they cancel each other out, resulting in no net force. Unbalanced forces, however, cause acceleration as they result in a net force acting on an object, causing a change in its motion.
Any time speed or direction changes, that's acceleration. There's no way a balanced group of forces could do any of this, though. The vector sum of a group of balanced forces is zero, and where net force is zero, there's no acceleration.
When a pair of balanced forces act on an object, the net force is zero. This means that the forces cancel each other out, resulting in no acceleration of the object.
No acceleration occurs - if stationary, it does not move, if moving, it continues its original velocity (speed *and* direction).
Balanced forces do not cause changes in an object's motion or acceleration. When two forces are balanced, their magnitudes and directions cancel each other out, resulting in no net force acting on the object.
Balanced forces are acting on an object when the object is either at rest or moving at a constant velocity. This occurs when the forces applied on the object cancel each other out, resulting in no acceleration.
Balanced forces do not change an object's motion because they cancel each other out, resulting in no net force. Unbalanced forces, however, cause acceleration as they result in a net force acting on an object, causing a change in its motion.
Any time speed or direction changes, that's acceleration. There's no way a balanced group of forces could do any of this, though. The vector sum of a group of balanced forces is zero, and where net force is zero, there's no acceleration.
When a pair of balanced forces act on an object, the net force is zero. This means that the forces cancel each other out, resulting in no acceleration of the object.
The the forces are unbalanced, that means that the net force is non-zero.
Zero.
No acceleration occurs - if stationary, it does not move, if moving, it continues its original velocity (speed *and* direction).
Applying balanced forces to an object means the forces are equal in size and opposite in direction, resulting in no change in the object's motion. Applying unbalanced forces means the forces are unequal, leading to a change in the object's motion, such as acceleration or deceleration.
When there are balanced forces acting on an object, the resultant force is zero. This means that the forces are equal in magnitude and opposite in direction, resulting in no acceleration of the object.
Balanced forces do not change its motion (no acceleration). Unbalanced forces changes the motion of the object (acceleration).
Forces are balanced when the net force acting on an object is zero. This means that the forces pushing or pulling in different directions cancel each other out, resulting in no acceleration of the object. When forces are balanced, an object will either remain at rest or move at a constant velocity.