If an electron is travelling at 200 m/s within 1 m/s uncertainty, whtat is the theoretical uncertainty in its position in mum (micrometer)?

The mass of a particle is 10^(10)g and its radius is 2 xx 10^(-4)cm . If its velocity is 10^(-6) cm sec^(-1) with 0.0001% uncertainty in measurement, the uncertainty in its position is :

The uncertainty in the momentum of a particle is 3.31 xx 10^(-2) Kgms^(-1) . The uncertainty in its position is (in meters)

A microscope using suitable photons is employed to locate an electron in an atom within a distance of 0.1 Å . What is the uncertainty involved in the measurement of its velocity ?

An iron ball has a mass of 35gms and a speed of 50m/s. If the speed can be measured with in accuracy of 2% then the uncertainty in the position

The uncertainty in the momentum of a particle is 3.31 xx 10^(-2) kgms^(-1) . The uncertainity in its position is (in metres)

de-Broglie proposed dual nature for electron moving. The wavelength is given by the equations lambda = (h)/(m u) . Later on Heisenburg proposed. The total incertainly uncertainity principle as. If uncertainity in position an momentum of an electron are same, then uncertainty in its velocity can be given by

If the uncertainity in velocity of a moving object is 1.0 xx 10^(-6) ms^(-1) and the uncertainty in its position is 58m, the mass of this object is approximately equal to that of (h = 6.626 xx10^(-34) Js)