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

A cricket ball of 0.5kg moving with a velocity of 100 m s^(-1) The wavelength associtated with in motion is

A ball of mass 100 g is moving with a velocity of 100 msec^(-1) . Find its wavelength.

The velocity associated with a proton moving in a potential difference of 1000 V is 4.37xx10^(-5)ms^(-1) . If the hockey ball of mass 0.1 kg is moving with the velocity, calcuate the wavelength associated with this.

A body of mass 10 mg is moving with a velocity of 100 ms^(-1) . The wavelength of the de Broglie wave associated with it would be

The velocity associated with a proton moving in a potential difference of 1000 V is 4.37xx10^(5) m s^(-1) . If the hockey ball of mass 0.1 kg is moving with this velocity, calculate the wavelength associated with this velocity.

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 body of mass 100 g is moving with a velocity of 15 m/s. The momentum associated with the ball will be

A particle of mass 10^31 kg is moving with a velocity equal to 10^5ms^-1 . The wavelength of the particle is equal to