It is not possible to determine simultaneously the exact position and the exact momentum of a fast moving micro particle. Explain.

"It is impossible to determine simultaneously the exact position and axact momentum(or velocity) of an electron." This principle is

Match the following rules with their statement : {:(,"Rules",,"Statements",),(("a"),"Hund's Rule",("i"),"No two electrons in an atom can have the same set of four quantum numbers.",),("(b)","Aufbau Principle",("ii"),"Half-filled and completely filled orbitals have extra stability.",),("(c)","Pauli Exclusion Principle",("iii"),"Pairing of electrons in the orbitals belonging to the same subshell does not take place until each orbital is singly occupied.",),(("d"),"Heisenberg's Uncertainty","(iv)","It is impossible to determine the exact position and exact momentum of a subatomic particle simultaneously.",),(,,("v"),"In the ground state of atoms, orbitals are filled in the order of their increasing energies.",):}

Simultaneous determination of exact position and momentum of an electron is.

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. In case of small microscopic particles, Heisenberg's uncertainty principle rules out simultaneous exact determination of their

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 the uncertainty in position of the electron is zero, the uncertainty in its momentum would be

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

Assertion (A) It is impossible to determine the exact position and exact momentum of an electron simultaneously. Reason (R) The path of an electron in an atom is clearly defiened.