What is it called when one spring is cut into two equal pieces?
What is it called when one spring is cut into two equal pieces?
Assertion (A):When a spring is cut into two equal parts, spring constant of each piece is doubled. Reason (R): Spring constant is inversely proportional to length of spring.
How does the spring constant of the smaller springs relate to that of the original spring choose the correct explanation?
How does the spring constant of the smaller springs relate to that of the original spring? Choose the correct explanation. The spring constant of each half will be twice the spring constant of the original long spring since it will stretch only half as much under the same tension.
How do you find the spring constant when cutting a spring?
When a spring is cut into two halves of equal length, the spring constant of each half doubles. The product of spring constant and length remains constant. Thus K multiplied by length must be same . Thus, the new spring constant will be twice of the original spring constant.
What happens to the spring constant when the length is halved?
Halving the length changes how far it can be deformed. Within the new range, the spring constant may or may not be the same. In some cases, eg rods being stretched elastically, considered as a spring, the spring constant is inversely proportional to the length, so it will double.
What is the spring constant of elongation in spring BP?
Assume that elongation in spring BP is 5 c m and its spring constant is 1000 N /m (g =10 m / s 2) The length of a spring is l and its spring constant is k. It is cut into two parts of length l 1 and l 2 and l 1 = n l 2 . The spring constant k 1 of the part l 1 will be
What is the spring constant when taking spring force into account?
When the Spring Force is taken into account , the spring force doubles by the equation: (F= 1/2 kx) = ( 2 F = kx). Since it is the spring constant that is asked for it remains the same because the material of the spring remains the same. Early symptoms of spinal muscular atrophy may surprise you.