The uncertainty in position and velocity of the particle are `0.1 nm` and `5.27 xx 10^-27 ms^-1` respectively. Then the mass of the particle is : `(h = 6.625 xx 10^-34 J s)`.

The uncertainty in position and velocity of the particle are 0.2mm and 10.54xx10^(-27)ms^(-1) respectively then the mass of the particle is : ( h=6.625xx10^(-34)Js)

The uncertainty in the position and velocity of a particle are 10^(-10) m and 5.27 xx 10^(-24) ms^(-1) respectively. Calculate the mass of the particle.

The uncertainty in position and velocity of the particle are 0.1 nm and 5.27xx10^(-24) ms^(-1) respectively then find the approximate integral mass of the particle (in g ) . (h=6.625xx10^(-34) Js)

The uncertainity in position and velocity of a particle are 10^(-11)m and 5.27times10^(-24)m//sec respectively.What is the minimum mass of the particle in kg .

(i)The uncertainties in the potisition and velocity of particle are 3.14 xx 10^(-10)m and 5.27 xx 10^(-24) m//s respectively . Calculate mass of the particle. (ii)Find the numberof waves made by a Bohr electron in one complete revolution in the 3rd Bohr orbit.

The uncertainty in the velocity of a particle of mass 6.626 xx 10^(-31) kg is 1 xx 10^6 ms^(-1) . What is the uncertainty in its position (in nm) ? (h = 6.626 xx 10^(-34) Js)

The minimum values of uncertainties involved in the determination of both the position and velocity of a particle are respectively 1xx10^(-10) m and 1xx10^(-10)m s^(-1) , Then, the mass (in kg) of the particle is