A tennis ball of mass `6.0 x 10^(-2) kg` is moving with a speed of `62 ms^(-1)` . Calculate the wavelength associated with this moving tennis ball. Will the movement of this ball exhibit a wave character?

A cricket ball of 0.5 kg is moving with a velocity of 100ms^(-1) . The wavelength associated with its motion is :

A ball of mass 0.12 kg is moving with a speed 20 m//s . Calculate the de Broglie wavelength. (planck constant h= 6.62xx10^(-34)J.s )

Can a moving cricket ball have a wave character ?

A 0.66 kg ball is moving wih a speed of 100 m//s . The associated wavelength will be.

Calaculate the wavelength of the particle in the following tow cases: (i) The fastest serve in tennis is about 130 miles per hour, or 58ms^(-1) . Calculate the wavelength associated with a 6.0xx10^(-2) kg tennis bell travelling at this speed. (ii) Calculate the wavelength associated with an electorn moving at 58ms^(-1) . Strategy : The de Broglie relationship says that the wavelength lambda of an object with mass m moving at a velocity v can be calculated by the equation lambda = h//mv .

A steel ball of mass m is moving with a kinetic energy K. The de-Broglie wavelength associated with the ball is

What is de-Broglie wavelength of a 0.2 kg ball moving with speed of 30 ms^(-1) ?

A ball A of mass 1 kg , moving with a speed of 12 m//s , collides obliquely and elasticity with another ball B which was initially at rest. Ball A then moves off at the right angle to its initial direction with a speed of 5 m//s . The momentum of ball B after the collision is