Anything that has mass will cause a push or pull because all objects are moving
Not necessarily. Forces can act on an object even if it is not in motion, causing it to accelerate or just balance out other forces. The net force on an object determines its motion, accounting for all forces acting on it.
The result of unbalanced forces is a net force that can accelerate a body.
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 all forces are equal. Forces can vary in magnitude and direction, and can result in different effects on objects. In a balanced situation, opposing forces may be equal which results in no net force on an object.
The result of unbalanced forces is called acceleration. When the forces acting on an object are unbalanced, the object will accelerate in the direction of the stronger force.
Two or more forces are balanced if their vector sum is zero. That means they all cancel each other out, and the total result is just as if there were no forces at all.
Forces that result in no change in an object's motion balanced forces.
Forces that result in no change in an object's motion balanced forces.
not correct
Not necessarily. Forces can act on an object even if it is not in motion, causing it to accelerate or just balance out other forces. The net force on an object determines its motion, accounting for all forces acting on it.
The result of unbalanced forces is a net force that can accelerate a body.
All of those motions are 100% the result of the forces on the object.
All of those motions are 100% the result of the forces on the object.
All of those motions are 100% the result of the forces on the object.
All of those motions are 100% the result of the forces on the object.
All of those motions are 100% the result of the forces on the object.
Balanced Forces