Newton's first law states that an object at rest stays at rest and an object in motion
stays in motion with constant velocity unless acted upon by an unbalanced force. This
is also called the law of inertia. So, the forces acting on an object are balanced when
the object is not accelerating. This happens when the object is at rest, or when the
object is moving at constant velocity.
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The forces on an object are balanced when their vector sum is zero.
If the net force is zero, then the forces are balanced. If the net force is not zero, then the forces are not balanced. You can have a balanced pair of forces, but not a pair of balanced forces.
If the forces are balanced, then by definition the sum of the forces is zero.
If the forces are balanced they will have no action or the object, if not they will accelerate the object in the resultant direction of the two forces..
If the forces weren't balanced, then the car would be (de) accelerating, thus the forces must be balanced.
Balanced forces do not alter the motion of objects.
If the net force is zero, then the forces are balanced. If the net force is not zero, then the forces are not balanced. You can have a balanced pair of forces, but not a pair of balanced forces.
If the forces are balanced, then by definition the sum of the forces is zero.
Forces that cancel each other out are said to be balanced.
If the forces are balanced they will have no action or the object, if not they will accelerate the object in the resultant direction of the two forces..
If the forces weren't balanced, then the car would be (de) accelerating, thus the forces must be balanced.
Unbalanced forces is when the forces are 0N or more. Balanced forces are 0.
balanced
A balanced group of forces has the same effect as no force at all.
are any the forces acting on the freezer balanced
Balanced forces do not alter the motion of objects.
"Balanced" refers to forces, not to velocities or speeds. If an object is at terminal SPEED, the FORCES on it are balanced.
No, they are not. The forces are balanced only when forces of equal magnitude are acting in the opposite direction.