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

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

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

The uncertainty in the momentum of a particle is 2.2 xx 10^(4)" g cms"^(-1) . With what accuracy can its position be determined ?

The uncertainity in momentum of an electron is 1 xx 10^(-5) kg.m//s . The uncertainity in its position will be (h = 6.62 xx 10^(-34)kg.m//s)

The uncertainity in momentum of an electron is 1 xx 10^(-5) kg m/s. The uncertainity in its position will be (h = 6.62 xx 10^(-34) Kg m//s)

The uncertainity in momentum of an electron is 1 xx 10^(-5) kg.m/s. The uncertainity in its position be ( h = 6.62 xx 10^(-34) kg.m/s)

The product of uncertainty in the position and uncertainty in velocity of a particle is 5.79 xx 10^(-5) m^2 s^(-1) . If uncertainty in the position is 1 nm , what is the uncertainty in the measurement of its velocity in m s^(-1) ?

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)

If the uncertainty in velocity of a particle of mass 0.1 kg is 6.626 xx 10^(8) m.s^(-1) , the uncertainty in its distance (in m) is (h = 6.626 xx 10^(-34)Js)

It is not possible to determine precisely both the position and the momentum or velocity) of a small moving particle (e.g. electron , proton, etc) Calculate the uncertainity in velocity of a cricket ball of mass 150 g if the uncertainity in its position is of the order of 1 Å (h = 6.6 xx 10^(-34) kgm^(2)s^(-1))