it is isn't really a force but when something expands, it's called tension.
The stretching force that occurs in a spring or rope being pulled is called tension. Tension is the force that tends to stretch or pull apart the material it is acting on.
The name given to the stretching force that occurs in a spring or rope being pulled is tension. It is a pulling force exerted by the material when it is stretched or pulled.
A stretching force is called tension. It is a force that pulls or elongates an object without changing its shape.
Yes, you can stretch a spring by applying a force to it. When you push or pull on a spring, you are exerting a force that causes the spring to deform and extend. This stretching force is known as tension in the spring.
The work done by the stretching body is equal to the difference in potential energy stored in the spring before and after it is stretched. This work is done against the restoring force of the spring.
The stretching force that occurs in a spring or rope being pulled is called tension. Tension is the force that tends to stretch or pull apart the material it is acting on.
The name given to the stretching force that occurs in a spring or rope being pulled is tension. It is a pulling force exerted by the material when it is stretched or pulled.
A stretching force is called tension. It is a force that pulls or elongates an object without changing its shape.
Yes, you can stretch a spring by applying a force to it. When you push or pull on a spring, you are exerting a force that causes the spring to deform and extend. This stretching force is known as tension in the spring.
The work done by the stretching body is equal to the difference in potential energy stored in the spring before and after it is stretched. This work is done against the restoring force of the spring.
Tension
Tension
Tension
A spring scale is simply a spring fixed at one end with a hook to attach an object at the other. It works on the principle of Hookes Law, that states that the force needed to extend the spring is proportional to the distance that the spring extended from it's fixed position.
When a pulling force is applied to a spring, it stretches due to the tension created in the spring's material. The spring elongates in the direction of the applied force until the force is removed. The amount of stretching is proportional to the force applied, as described by Hooke's Law.
The spring stretches when pulling force acts on it. The greater the force, the extension of the spring. The spring is attached to a pointer, which indicates the amount of force exerted on the spring
As the system rotates, the mass is moved in a circle which means that there is a net force acting on it and is directed towards the center. That force is provided by the spring which has to be streched in order to provide the force needed.