If you’re wondering how the Tension T2 compares to the weight of the box when it’s supported, we’ve got the answer for you. Keep reading to find out.

Checkout this video:

## What is the tension T2?

The tension T2 is the force required to move an object of a certain mass at a constant speed in a horizontal direction. The tension T2 is also known as the force F2. The tension T2 is measured in Newton’s (N).

## How does the tension T2 compare to the weight of the box?

The tension T2 in the wire is caused by the weight of the box and its contents. The amount of tension T2 is affected by the weight of the box and its contents, as well as the stiffness of the wire.

## What is the weight of the box?

The weight of the box is the force exerted by gravity on the box. The tension in the rope is the force exerted by the rope on the box. If the box is supported by the rope, then the tension in the rope must be equal to the weight of the box.

## What is the tension T2 in terms of the weight of the box?

The tension T2 can be found by summing theforces acting on the box. The weight of the boxis one of the forces acting on the box, so T2= weight + other forces.

## How does the tension T2 compare to the weight of the box when the box is supported?

The tension T2 in the rope supporting a box is found by first solving for the tension in the lower rope using the free body diagram. The free body diagram for the lower rope shows that the only force acting on the rope is the weight of the box, W. Since the rope is in equilibrium, the sum of all forces must be zero. Therefore,

T2 – W = 0

T2 = W

## What is the tension T2 in terms of the weight of the box when the box is supported?

The tension T2 can be compared to the weight of the box when the box is supported. The tension T2 is the force that is pulling on the object. The weight of the box is the force that is pushing down on the object.

## How does the tension T2 compare to the weight of the box when the box is not supported?

The tension T2 in the rope is greater than the weight of the box when the box is not supported.

## What is the tension T2 in terms of the weight of the box when the box is not supported?

T2 = the tension in the string when the box is not supported

W = the weight of the box

## What is the difference between the tension T2 when the box is supported and when the box is not supported?

The tension T2 is the sum of the tension T1 and the weight W of the box. When the box is supported, the tension T2 is equal to the weight W. When the box is not supported, the tension T2 is less than the weight W.

## What is the significance of the tension T2?

The significance of the tension T2 is that it represents the amount of force required to keep the box in equilibrium. The T2 is equal to the weight of the box multiplied by the acceleration of gravity. The acceleration of gravity is a unitless constant, so the T2 is also a unitless constant.