Uncertainty in the position of an electron `(mass = 9.1 xx 10^(-31) kg)` moving with a velocity 300 m `s^(-1)` , accurate up to `0.001%` will be:

Unertainty in the position of an electron (mass =9.1xx10^(-31) kg) moving with a velocity 300ms^(-1) accurate upto 0.001% will be h=6.63xx10^(-34)Js

Uncertainty in the position of an electron (mass =9.1xx10^(-31)kg ) moving with a velocity 300 ms^(-1 accurate upto 0.001%will be (h=6.6xx10^(-34)Js)

The uncertainty in the position of an electron (mass =9.1xx10^(-28)g ) moving with a velocity of 3.0xx10^(4)cms^(-1) accurate up to 0.011% will be

Calculate the de Broglie wavelength of an electron of mass 9.11 xx 10^(-31) kg and moving with a velocity of 1.0xx 10^(6) ms^(-1)

Calculate the wavelength associated with an electron (mass 9.1 xx 10^(-31) kg) moving with a velocity of 10^3m sec^(-1) (h=6.626 xx 10^(-34) kg m^2 sec^(-1)) .

Calculate the product of uncertainity in position and velocity for an electron of mass 9.1 xx 10^(-31) kg according to Heisenberg uncertainty principle.

Calculate the wavelength of a body of mass 1 mg moving with a velocity of 10 m sec^(-1) .

The uncertainity in the position of a moving bullet of mass 10 g is 10^(-5) m.Calculate the uncertainty in its velocity .

The de Broglie wavelength of 1 kg mass moving with a velocity of 10 ms^-1 is