Given `m_(e)=9.11 xx 10^(-31)kg` and `h = 6.626 xx 10^(-34)Js`, the uncertainty involved in the measuremenetof velocity within a distance of `0.1Å` is

Given: The mass of electron is 9.11 × 10^(–31) Kg Planck constant is 6.626 ×10^(–34) Js, the uncertainty involved in the measurement of velocity within a distance of 0.1Å is:-

If wavelength of photon is 2.2 xx 10^(-11)m , h = 6.6 xx 10^(-34) Js , then momentum of photons is

Electrons are accelerated through a p.d . Of 150V . Given m=9.1xx10^(-31)kg,e=1.6xx10^(-19)c,h=6.62xx10^(-34)Js , the de Broglie wavelength associated with it is

The mass of electron is 9.11xx10^(-31) kg. Calculate the uncertainty in its velocity if the uncertainty in position is the uncertainty in position is of the order of +-10 pm. (h=6.6xx10^(-34)"kg"m^(2)s^(-1)) .

The uncertainty in measuring the speed of an accelerated electron is 1.2 xx 10^(5) m s^(-1) , Calculate the uncertainty in finding its location while it is still in motion. (Given : m_(e)= 9.31 xx 10^(-31) kg) .

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)

An accelerated electron has a speed of 5 xx 10^6 ms^(-1) with an uncertainty of 0.02%. The uncertainty in finding its location while in motion is x xx 10^(-9) m. The value of x is __________ . (Nearest integer) [Use mass of electron = 9.1 xx 10^(-31) kg, h = 6.63 xx 10^(-34) Js, pi = 3.14 ]