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 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")

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")

A dust particle of mass 2 mg is carried by wind with a velocity of 100 cm/s. What is the de-Broglie wavelength associated with the dust particle? ( h = 6.63 xx 10^(-34) J-s )

Uncertainty in position of a hypothetical subatomic particle is 1 "Å" and uncertainty in velocity is (3.3)/(4 pi) xx 10^(5) m/s then the mass of the particle is approximately ( h = 6.6 xx 10^(-34) Js) :

Uncertainty in position of a hypothetical subatomic particle is 1 "Å" and uncertainty in velocity is (3.3)/(4 pi) xx 10^(5) m/s then the mass of the particle is approximately ( h = 6.6 xx 10^(-34) Js) :

A dust particle of mass 2mg is carried by wind with a velocity of 100m/s. What is the de broglie wavelength associated with the dust particle ? (h=6.64xx10^(-34)J-s)

What should be the momentum (in gram cm per second) of a particle if its De Broglie wavelength is 1Å and the value of h is 6.6252xx10^(-27) erg second?

What should be the momentum (in gram cm per second) of a particle if its De Broglie wavelength is 1Å and the value of h is 6.6252xx10^(-27) erg second?

What should be the momentum (in gram cm per second) of a particle if its De Broglie wavelength is 1Å and the value of h is 6.6252xx10^(-27) erg second?