Two bodies of masses `m_(1) and m_(2)` have same kinetic energy. The ratio of their momentum is

Relation between kinetic energy and momentum Let us consider a body of mass 'm' having a velocity 'v', then momentum of the body P = mass xx velocity P = m xx v rArr v = (P)/(m) " "...(1) From definition, kinetic energy (K.E) of the body K.E = (1)/(2) mv^(2)" "...(2) Now putting the value of (1) in (2) we have K.E = (1)/(2)m ((P)/(m))^(2) K.E. = (1)/(2)m (P^(2))/(m^(2)) = (1)/(2) (P^(2))/(m) = (P^(2))/(2m)" "...(3) Thus we can write P^(2) = 2m xx K.E rArr P = sqrt(2m xx K.E) Thus momentum = sqrt(2 xx "mass" xx "kinetic energy") Two bodies masses 1 kg and 4 kg having equal kinetic energies. The ratio of their momentum is

Two bodies of masses m_1 and m_2 have equal kinetic energies. What is the ratio of their linear momenta?

Two masses M_1 & M_2 have same kinetic energy. If V_2 = 2V_1 , then find ratio of their momentum

Two moving bodies of masses 5 kg and 25 kg have same kinectic energies . Find the ratio of their linear momentum .

Two bodies of different masses are moving with same kinetic energy. Then, the ratio of their moment is equal to the ratio of their

Two bodies of masses m_1 and m_2 have the same linear momentum. What is the ratio of their kinetic energies?

Two bodies of masses m_(1) and m_(2) have equal kinetic energies. If p_(1) and p_(2) are their respective momentum, then ratio p_(1):p_(2) is equal to