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What has to happen for forces to be balanced?
Forces are balanced when the net force acting on an object is zero. This means that all the individual forces acting on the object are equal in magnitude but opposite in direction. When forces are balanced, the object remains at rest or moves at a constant velocity.
What will happen to an object moving at a constant speed if the forces acting on it are balanced?
If the forces acting on an object are balanced and the object is moving at a constant speed, the object will continue to move at that constant speed in a straight line. There will be no change in the object's velocity or direction of motion.
When a pair of balanced forces acts on an object what happen to the net force?
If the forces oppose each other then nothing will happen, if the forces are acting in the same direction then they would actually be one force, equal to the sum of the two forces, if the forces are oblique then more advanced vectors would come into play... the ones that i know well enough to use but not teach.
What may happen when an object receives balanced forces?
When an object experiences balanced forces, it remains at rest or continues moving at a constant velocity. This is because the forces acting on the object cancel each other out, resulting in no acceleration.
What will happen when to an object if the forces acting on it are balanced?
If the forces acting on an object are balanced, the object will remain at rest or continue to move at a constant velocity. This is in accordance with Newton's First Law of Motion, which states that an object in equilibrium will remain in equilibrium unless acted upon by an unbalanced force.
When a pair of balanced forces acts on an object what will happen to an object that is moving?
If two forces acting on an object are equal and opposite, then the net force acting on the object is zero. If the net force acting on an object is zero, then the object's velocity will not change. If it is already moving, then it will continue to move in a straight line at that same velocity. If it is not already moving, it will stay stationary.
Why are forces unbalanced?
Forces are unbalanced when there is a net force acting on an object causing it to accelerate or change its motion. This could happen when the forces acting on an object are not equal in magnitude or not opposite in direction. Unbalanced forces result in a change in the object's velocity.
Do balanced forces of unequal strengths cancel out each other?
No, balanced forces of unequal strengths do not cancel each other out. Balanced forces occur when two forces of equal strength act in opposite directions, resulting in no change in the object's motion. If forces of unequal strength act on an object in opposite directions, they will not cancel out, and the object will accelerate in the direction of the stronger force.
When can forces be added together to find the net force upon an object?
Yes, when all the forces acting on a body have been resolved, the final force is known as the 'net force' acting on that body.
What happen to the magnitude of forces as the angle between them is increased?
As the angle between forces increases, the component of each force that acts in the direction of the other force decreases. This results in a decrease in the net force acting in the overall direction of the two forces.
Are there any forces acting on you in the direction you are moving?
Maybe, maybe not. Forces don't happen because you're moving ... forces are what cause you to move. If there are no forces acting on you, then you keep moving whichever way you're moving, and your speed or direction don't change. If there are forces acting on you, then your speed and/or direction can change. If the force is in the same direction that you're already moving, you'll move faster (accelerate). If the force is in the direction opposite to the direction you're moving, then your speed will decrease. Does any of this sound surprising ???
What will happen if forces that act on an object are not balanced?
Then the objects will move in the direction of the resultant force.
