A simple spring has length l and force constant K. It is cut into two springs of lengths `l_(1) "and" l_(2)` such that `l_(1) = n l_(2)` (n = an integer). The force constant of spring of length `l_(1)` is

A spring has length'l' and spring constant 'k'. It is cut into two pieces of lengths l_(1) and l_(2) such that l_(1)=nl_(2) . The force constant of the spring of length l_(1) is

A spring has length l and force constant k it is cut into two springs of legnth l_(1) and l_(2) such that l_(1) =nl_(2) (n = an integer). Mass 'm' suspended form l_(1) oscillates with time period.

A spring of force constant k is cut into two pieces of lengths l_(1) and l_(2). Calculate force constant of each part.

A spring whose instretched length is l has a force constant k . The spring is cut into two pieces of unstretched lengths l_(1) and l_(2) where, l_(1) =nl_(2) and n is an integer. The ratio k_(1)//k_(2) of the corresponding force constant, k_(1) and k_(2) will be :

A uniform spring whose unstretched length is l has a force constant k. the spring is cut into two pieces of unstretched lengths l_(1) and l_(2) , where l_(1)=nl_(2) and n is an integer. What are the corresponding force constant k_(1) and k_(2) in terms of n and k?

A uniform spring whose unstretched length is l has a force constant k. the spring is cut into two pieces of unstretched lengths l_(1) and l_(2) , where l_(1)=nl_(2) and n is an integer. What are the corresponding force constant k_(1) and k_(2) in terms of n and k? what is the ratio k_(1)//k_(2)

A uniform spring whose unstretched length is l has a force constant k. the spring is cut into two pieces of unstretched lengths l_(1) and l_(2) , where l_(1)=nl_(2) and n is an integer. What are the corresponding force constant k_(1) and k_(2) in terms of n and k? what is the ratio k_(1)//k_(2)