A particle having a mass of 10 milligram has a velocity of 3600 km/hour. Calculate the wavelength of the particle `(h = 6.626 xx 10^(-27) "erg second")`

Particle having a mass of 1.0 mg has a velocity of 3600 km/h. Calculate the wavelength of the particle.

Particle having a mass of 1.0 mg has a velocity of 3600 km/h. Calculate the wavelength of the particle.

The mass of a particle is 1mg and its velocity is 4.5xx10^(5)cm per second. What should be the wavelength of this particle if h=6.652xx10^(-27) "erg second" .

The mass of a particle is 1mg and its velocity is 4.5xx10^(5)cm per second. What should be the wavelength of this particle if h=6.652xx10^(-27) "erg second" .

The mass of a particle is 1mg and its velocity is 4.5xx10^(5)cm per second. What should be the wavelength of this particle if h=6.652xx10^(-27) "erg second" .

A macroscopic dust particle of mass 0.01 mg is. moving with a velocity of 100 cm//sec . Calculate its wave length [h = 6.625 xx 10^-27 erg-sec.] will be wave phenomenon like diffraction be observed for the above particle? Justify your answer

The uncertainty in the position and velocity of a particle are 10^(-10)" m and "5.27 xx 10^(-24)" m s"^(-1) respectively. Calculate the mass of the particle (h = 6.625 xx 10^(-34)" Js").

The uncertainty in the position and velocity of a particle are 10cm and 5.27xx 10^3 m/s respectively. Calculate the mass of the particle (h= 6.626 xx 10^(-34) J s)

An electron has mass 9.1xx10^(-28)g and is moving with a velocity of 10^(5)cm//sec . Calculate its kinetic energy and wavelength when h=6.626xx10^(-27)erg-sec