Q: What is the bucket curling force?

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The force pulling the bucket down is the force of gravity. It is equal to the weight of the bucket, which is given by the mass of the bucket multiplied by the acceleration due to gravity.

When a person lifts a bucket upward, the person exerts an upward force on the bucket, and the bucket exerts a downward force on the person. When a bucket is pushed along the ground, the person exerts a forward force on the bucket, and the bucket exerts an equal and opposite backward force on the person.

The tension force in the rope supporting the bucket is also 38N, equal in magnitude to the weight of the bucket. The tension force is required to counteract the force of gravity acting downwards on the bucket, keeping it suspended.

You cannot lift a bucket of water without holding it because you need to apply a force to overcome the weight of the bucket and the water inside it. If you do not hold it, the force of gravity will cause it to fall back down. Holding the bucket allows you to apply the necessary force to lift it.

Yes, work is done when lowering the bucket into the well because a force is applied over a distance, resulting in the displacement of the bucket against the force of gravity. Work is defined as force multiplied by displacement in the direction of the force.

The water doesn't fall out of a vertically rotating bucket due to inertia and centripetal force. The inertia of the water causes it to continue moving in a straight line while the bucket moves around it, and the centripetal force generated by the bucket's motion keeps the water contained within the bucket.

roller coaster, when you put water in a bucket and swing the bucket in circles and the water will stay in the bucket

The action is the man exerting an upward force on the bucket to hold it up. The reaction is the bucket exerting an equal and opposite downward force on the man's hand.

The forces acting on the bucket are the gravitational force pulling the bucket down and the normal force exerted by your hand pushing the bucket up. These forces cancel each other out, resulting in a state of equilibrium where the bucket remains stationary. As a result, there is no net force acting on the bucket to cause a change in its state of motion.

The balanced forces acting on a stationary bucket would be the force of gravity pulling the bucket downwards and the normal force exerted by the surface supporting the bucket pushing upwards. These two forces are equal in magnitude and opposite in direction, keeping the bucket in equilibrium.

Gravity.

The force required to push a 5-gallon bucket underwater would depend on the buoyancy force exerted by the volume of water displaced by the bucket. This force would be equal to the weight of the water displaced, which can be calculated based on the density of water (about 62.4 pounds per cubic foot). Therefore, you would need a force greater than the buoyancy force to push the bucket underwater.