An atom has a mass of `0.02kg` and uncertainty in its velocity is `9.218xx10^(-0)m//s` then uncertainly in position is `(h=6.626xx10^(-34)Js)`

An atom has mass of 0.02 kg and uncertainty in its velocity is 9.218× 10^(−6) m/s then uncertainty in position is (h=6.626× 10^(−34) Js)

An atom has mass of 0.2 kg and uncertainty in its velocity is 6.218× 10^(−6) m/s then uncertainty in position is (h=6.626× 10^(−34) Js)

An atom has mass of 0.01 kg and uncertainty in its velocity is 7.318× 10^(−6) m/s then uncertainty in position is (h=6.626× 10^(−34) Js)

An atom has mass of 0.01 kg and uncertainty in its velocity is 4.318× 10^(−6) m/s then uncertainty in position is (h=6.626× 10^(−34) Js)

An atom has a mass of 0.02 kg and uncertainty in its velocity is 9.218 xx 10^-6 ms^-1 , then uncertainty in position is ____. (h = 6.626 xx 10^-34 J s)

The uncertainty in momentum of an electron is 1xx10^(-5) kgms^(-1) . The uncertainty in its position will be (h= 6.62xx10^(-34) Js)

Uncertainty in position of a 0.25 kg particle is 10^(-5) , uncertainty of velocity is (h=6.6xx10^(-34) Js)

The uncertainty in momentum of an electron is 1 xx 10^-5 kg m//s . The uncertainty in its position will be (h = 6.62 xx 10^-34 kg m^2//s) .

An electron is moving with a velocity of 2.5 xx 10^(6) ms^(-1) . If the uncertainty in its velocity is 0.1% , calculate the uncertainty in its position. (Plank's constant, h = 6.626 xx 10^(-34) Js),( Mass of the electron = 9.1 xx 10^(-31) kg.)