If uncertainty in position and momentum of a particle of mass 'm' are equal then minimum uncertainty in velocity will be :-

The uncertainty in possition and momentum has a value ………..

It is not possible to determine preciselt both the position and momentum (or velocity) of a small moving particle such as electron, proton etc. This is known as Heisenber uncertainty principle. The mathemactical form of this principle is : Delta x.Delta p ge (h)/(4pi) (constant) However this principle is irrevalent in case of bigger particles such as a cup, ball, car etc., that we come across in our daily life. If uncertainty in position and momentum are equal, the v uncertainty in velocity would be

If the uncertainty in the position of a particle is equal to its de-Broglie wavelength, the minimum uncertainty in its velocity should be

Calculate the uncertainty in the position of a dust particle with mass equal to 1 mg if the uncertiainty in its velocity is 5.5 xx 10^(-20)ms^(-1)

If uncertainty in position and momentum are equal then uncertainty in velocity is.

If uncertainty in the measurement of position and momentum of an electron are equal then uncertainty in the measurement of its velocity is approximatly:

If uncertainties in the measurement of position and momentum are equal, then uncertainty in the measurement of velocity is