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What is the size of the upward force compared with the pulling force How do you know?
The upward force is equal in magnitude to the pulling force. This is because of Newton's third law of motion, which states that for every action, there is an equal and opposite reaction. So the force pulling an object up is equal to the force pulling it down.
A stack of books is pulling downward on the table what force is pulling down on it?
Gravity, which force will equal the weight of the books
Name the forces acting on a plastic bucket containing water held above the ground level in your handdiscuss why the forces acting on the bucket do not bring change in its state of motion?
If it is held stationary, there will be the downward force of gravity, and the upward (normal) force from your hand. The reason that the bucket does not move is because the forces are equal and opposite.
What is the size of the force pulling down compared to the size of the net force pushing up?
The force pulling down is typically equal in size to the net force pushing up on an object in equilibrium. This is known as Newton's third law of motion, which states that for every action, there is an equal and opposite reaction.
What force was pulling the anvil down?
The force pulling the anvil down would be gravity.
What is of the force pulling the bucket down?
Gravity.
What is the size of the upward force compared with the pulling force How do you know?
The upward force is equal in magnitude to the pulling force. This is because of Newton's third law of motion, which states that for every action, there is an equal and opposite reaction. So the force pulling an object up is equal to the force pulling it down.
A stack of books is pulling downward on the table what force is pulling down on it?
Gravity, which force will equal the weight of the books
Name the forces acting on a plastic bucket containing water held above the ground level in your handdiscuss why the forces acting on the bucket do not bring change in its state of motion?
If it is held stationary, there will be the downward force of gravity, and the upward (normal) force from your hand. The reason that the bucket does not move is because the forces are equal and opposite.
What is the size of the force pulling down compared to the size of the net force pushing up?
The force pulling down is typically equal in size to the net force pushing up on an object in equilibrium. This is known as Newton's third law of motion, which states that for every action, there is an equal and opposite reaction.
What force was pulling the anvil down?
The force pulling the anvil down would be gravity.
What force of a hanging light does not move because the force of gravity pulling down is balanced in the cord pulling it up?
The tension force in the cord that is pulling the light up is equal in magnitude but opposite in direction to the force of gravity pulling the light down. This balance of forces causes the light to remain stationary in its position.
What is the name of the force that is pulling you down when you stand on a set of bathroom scales?
Gravity . . . pulling you down. The scale . . . pushing you up. If these two forces were not equal, then there would be a net force on the bottom of your feet, either upward or downward, and you would be accelerating.
What is the size of the force pulling an apple down compared with the size of the force pushing it up?
The force pulling the apple down (gravity) is equal in size to the force pushing it up (normal force) when the apple is at rest or moving at a constant velocity. This is because the apple is in equilibrium and the forces are balanced.
What is the force pulling the 100 gram mass down?
The force pulling the 100 gram mass down is its weight, which is equal to the mass times the acceleration due to gravity. In this case, the force is 0.98 Newtons (0.1 kg * 9.8 m/s^2).
To stop the table in your class falling through the floor what must the floor do against the force of gravity pulling the table down?
The floor must exert a force equal to that of the force exerted on the desk from gravity. This force is called a "normal force"
If you stand on the ground with the action force of gravity pulling down in which direction is there a reaction force?
The reaction force to gravity is the ground pushing back up against you with an equal force to support your weight. This is known as the normal force.
