Uncertainty in position of a particle of 25 g in space is `10^(-5)` m. Hence, uncertainty in velocity `(m s^(-1))` is (Planck's constant `h=6.6 xx 10^(-34)Js)`

Uncertainty in position of a particle of 25g in space is 10^(8)m Hence uncertainty in velocity (ms^(-1)) is (Planck's constant h=6.6xx10^(-34)Js )

Uncertainity in position of a particles of 15 gram in space is 10^(-5) m. Hence uncertainity in velocity (m//sec) is (h = 6.6 xx 10^(-34)Jsec)

The uncertainty in the position of a buller weight 20 g is +- 10^(-4) m .Calculate the uncertainty in its velocity

0.5 gm particle has uncertainty of 2xx10^(-5) m find the uncertainty in its velocity (m//s)

If the uncertainty in the position of an electron is 10^(-10) m, then what be the value of uncertainty in its momentum in kg m s^(-1) ? (h = 6.62 xx10^(-34) Js)

The de - Broglie wavelength of a ball of mass 120 g moving at a speed of "20 m s"^(-1) is (Planck's constant h=6.6xx10^(-34)Js )

The uncertainty in the momentum of a particle is 6xx10^(-9)kg ms^(-1) . Calculate the uncertainty in its position.

The uncertainty in the momentum of a particle is 3.3 xx10^(-2) kg ms^(-1) the uncertainty in its position will be

The uncertainty in the momentum of a particle is 6.0 xx 10^(-2) kg m s^(-1) .Calculate the uncertainty in the position

Uncertainty in position of a hypothetical subatomic particle is 1 "Å" and uncertainty in velocity is (3.3)/(4 pi) xx 10^(5) m/s then the mass of the particle is approximately ( h = 6.6 xx 10^(-34) Js) :