Two people applied force toolbox from opposite directions as shown in the picture the box doesn’t move which statement best explains why the box doesn’t move
push forces do not cause motion
The box is experiencing unbalance forces
The forces have different magnitudes
balance forces do not cause motion
The box doesn’t move because the forces applied from both directions are equal in magnitude and opposite in direction, resulting in a balanced force.
Which answer is it?
The correct answer is: balance forces do not cause motion.
Which example shows unbalance forces acting on an object
A. Two people are on opposite sides of a large box both people pour on the box with equal force
B. Two people are on the same side of the box one person pushes the box and the other pulls the box with equal force
C.
B. Two people are on the same side of the box, one person pushes the box and the other pulls the box with equal force.
Which example shows unbalance forces acting on an object
A. Two people are on opposite sides of a large box both people pour on the box with equal force
B. Two people are on the same side of the box one person pushes the box and the other pulls the box with equal force
C. Two people on the same side of a large box both people pull the box with equal force
D. Two people are on opposite sides of a large box those people push the box with equal force
C. Two people on the same side of a large box, both people pull the box with equal force.
A person tries to push a refrigerator across the kitchen she applies as much force as possible but she cannot make the refrigerator move which statement best describes by the refrigerator does not move.
A. The person does not apply enough force to the refrigerator so the forces are unbalanced
B. The person applies too much force to the refrigerator and now the forces on the refrigerator are unbalanced
C. The person applies too much force to the refrigerator and now the forces on the refrigerator are balanced
D. The person does not apply enough force to the refrigerator so the forces are still balanced
D. The person does not apply enough force to the refrigerator, so the forces are still balanced.
The statement that best explains why the box doesn't move in this scenario is "balance forces do not cause motion".
In order to understand why the box doesn't move, we need to understand the concept of balanced forces. When two forces of equal magnitude and opposite direction are applied to an object, they balance each other out and create what is known as a balanced force. Balanced forces do not cause motion; instead, they keep the object in a state of equilibrium or rest.
In this scenario, the two people are applying forces from opposite directions, exerting equal amounts of force on the box. This creates a balanced force situation, with the forces canceling each other out. As a result, the net force on the box is zero, and the box remains stationary.
It's important to note that the other statements you mentioned, such as "push forces do not cause motion" or "the forces have different magnitudes", are not applicable in this specific scenario. The key factor here is the presence of balanced forces, which prevents the box from moving.