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Gerardo Glover

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3y ago

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Which type of force is exerted on the support of the ropes of a hammock when you lie in it?

The force exerted on the support of the ropes of a hammock when you lie in it is tension. The tension force runs along the ropes and is responsible for keeping the hammock stable and supporting your weight.


What type of factor is exerted on the support ropes of a hammock when you lie in it?

The force exerted on the support ropes of a hammock when you lie in it is a tension force. This force is along the length of the ropes and is balanced by the force of gravity acting on your body weight, keeping you suspended in the hammock.


Which type of force is exerted on the supported ropes of hammock when you lie on it?

The force exerted on the supported ropes of a hammock when you lie on it is tension. The ropes experience a tensile force pulling in opposite directions to support your weight and keep you suspended.


Which type of force is exerted on the support ropes of a hammock when you lie in it?

The support ropes of a hammock experience tension force when you lie in it. This tension force is a result of the hammock's weight pulling down on the ropes, which in turn creates an equal and opposite force of tension in the ropes to keep the hammock suspended.


Which type of force is exerted on the support ropes of a hammock when you lie in i?

When you lie in a hammock, the support ropes experience tension forces. These tension forces are generated as a reaction to your weight pulling down on the hammock and are directed along the ropes to keep them taut and support your body.

Related Questions

Which type of force is exerted on the support of the ropes of a hammock when you lie in it?

The force exerted on the support of the ropes of a hammock when you lie in it is tension. The tension force runs along the ropes and is responsible for keeping the hammock stable and supporting your weight.


What type of factor is exerted on the support ropes of a hammock when you lie in it?

The force exerted on the support ropes of a hammock when you lie in it is a tension force. This force is along the length of the ropes and is balanced by the force of gravity acting on your body weight, keeping you suspended in the hammock.


Which type of force is exerted on the supported ropes of hammock when you lie on it?

The force exerted on the supported ropes of a hammock when you lie on it is tension. The ropes experience a tensile force pulling in opposite directions to support your weight and keep you suspended.


Which type of force is exerted on the support ropes of a hammock when you lie in it?

The support ropes of a hammock experience tension force when you lie in it. This tension force is a result of the hammock's weight pulling down on the ropes, which in turn creates an equal and opposite force of tension in the ropes to keep the hammock suspended.


Which type of force is exerted on the support ropes of a hammock when you lie in i?

When you lie in a hammock, the support ropes experience tension forces. These tension forces are generated as a reaction to your weight pulling down on the hammock and are directed along the ropes to keep them taut and support your body.


Which type of forces is exerted on the support ropes of a hammock when you lie in It?

Tension


Which of type of force is exerted on the row of bricks in a building?

compression


What type of force is exerted on the bottom row of bricks is a building?

compression


Which type of force is exerted on the bottom row of brick in building?

compression


What type of force is exerted in the bottom row of bricks in a building?

compression


Which type of force exerted on the bottom row of bricks in a building?

compression


What is the force exerted by a person on a machine?

The force exerted by a person on a machine is typically the input force required to operate the machine. This force can vary depending on the type of machine and the task being performed. It is important to consider factors such as friction and mechanical advantage when calculating the force exerted on a machine.