Want this question answered?
The force you are exerting to stretch it, and the restoring force of the spring.
The spring will stretch 18 cm when a force of 15 N is applied. I have used the simple method of ratios and proportion.
It may loose its elastic nature.
That depends on the spring.
The stretch or compression of a spring is defined by Hooke's Law,where F is the Force acting on the spring,k is the constant spring factor, based on the material and construction of the spring.x is the displacement of the spring.The formula holds true until, or unless the force permanently deforms the spring material.
The force you are exerting to stretch it, and the restoring force of the spring.
The spring will stretch 18 cm when a force of 15 N is applied. I have used the simple method of ratios and proportion.
It may loose its elastic nature.
That depends on the spring.
Newtonian force The amount of force is measured by its ability to stretch or compress a spring.
When you pull on the scale you stretch the spring the pointer on the scales moves as you pull to measure the force you are using you have to be able to lift or pull on the spring scale
It may loose its elastic nature.
depends on the initial length of the spring, and how much force is required to stretch the spring
Because over a certain limited range, a carefully manufactured and very expensive spring will stretch exactly in proportion to the magnitude of the force that's causing it to stretch, and the magnitude of the force can be accurately determined simply by observing and measuring the length of the stretch.
The stretch or compression of a spring is defined by Hooke's Law,where F is the Force acting on the spring,k is the constant spring factor, based on the material and construction of the spring.x is the displacement of the spring.The formula holds true until, or unless the force permanently deforms the spring material.
External force or you can say deformation force causes spring to stretch and restoring force is developed due to introduction of restoring strain in spring to restore in its original shape.
Springs are great for absorbing energy. The spring force is negative when the spring is stretched and positive when it is compressed or pushed.