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If spring is cut into two parts, each spring will have it's stiffness doubled. For n parts, stiffness of each part will be nk
It gets bigger lol
The elastic potential energy (EEp) of the spring with displacement x from its original length is given by: EEp = 1/2 kx2 (can be proved using integration) where k is the spring constant of the spring. So, if the displacement of the mass is doubled, the elastic EEp stored will increase by 22, that is by 4.
maybe if you spin the spring washer and its shortened the washer move is verry fast.
The larger the force pulling on a spring, the greater the length in the spring and the more energy that is stored in that spring. When looking at a spring there is a gradient that determines how much force much be used to sqeeze or stretch a spring a given amount. When a spring is stretched, the greater the force that is applied, the greater the change in length of the spring and the greater the amount of energy that is stored in the spring. A link is supplied to the Wikipedia article on the spring (device).
If spring is cut into two parts, each spring will have it's stiffness doubled. For n parts, stiffness of each part will be nk
Nothing; it remains the same as before.
It gets bigger lol
The elastic potential energy (EEp) of the spring with displacement x from its original length is given by: EEp = 1/2 kx2 (can be proved using integration) where k is the spring constant of the spring. So, if the displacement of the mass is doubled, the elastic EEp stored will increase by 22, that is by 4.
maybe if you spin the spring washer and its shortened the washer move is verry fast.
The larger the force pulling on a spring, the greater the length in the spring and the more energy that is stored in that spring. When looking at a spring there is a gradient that determines how much force much be used to sqeeze or stretch a spring a given amount. When a spring is stretched, the greater the force that is applied, the greater the change in length of the spring and the greater the amount of energy that is stored in the spring. A link is supplied to the Wikipedia article on the spring (device).
multiply the force with length.
Usually it gets bigger, if you wanted to do an experement, you would- Measure the spring, put it in water, take it out then measure it again and it would be bigger!
if f is applied on L length sprig it will deflect by x distance. When spring is L/2 deflection is also x/2 for same force f.. and K=F/deflection. there for k is inversaly proptional to deflection .. when deflection is half K is double.
depends on the initial length of the spring, and how much force is required to stretch the spring
spring happens when the earth's axis tilts slant-wise between the sun and well nothing, which make spring happens.
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