Two particles A and B having mass ratio 4:3 are moving with kinetic energy 1:27 ratio. What would be the ratio of wavelength associated with particle A to that of particle B.

Two balls of masses 2 g and 6 g are moving with kinetic energy in the ratio of 3:1 . What is the ratio of their linear momentum ?

Two bodies A and B have masses in the ratio 5 : 1 and their kinetic energies are in the ratio 125 : 9. Find the ratio of their velocities.

Two bodies A and B having masses in the ratio of 3 : 1 possess the same kinetic energy. The ratio of their linear momenta is then

Two particles A and B are in motion. If the wavelength associated with particle A is 5 xx 10^(-8)m , calculate the wavelength associated with particle B if its momentum is half of A.

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

The velocity of particle A is 0.1 ms^(-1) and that of particle B is 0.05 ms^(-1) if the mass of the particle B is five times that of particle A the ratio of De Broglie wavelengths associtated with the particles A and B is

The de - Broglie wavelength associated with the particle of mass m moving with velocity v is

If the kinetic energy of a moving particle is E , then the de-Broglie wavelength is

The deBroglie wavelength of a particle of kinetic energy K is lamda . What would be the wavelength of the particle, if its kinetic energy were (K)/(4) ?

What will be the ratio of de - Broglie wavelengths of proton and alpha - particle of same energy ?