"It is not possible to determine
simultaneously the exact position and exact moment of a particle as small as an
electron"
ILLUSTRATIVE EXAMPLE
(1): If error in position of an electron is 0.33 pm, what
will be the error in its velocity? (1 pm=10-12)
ILLUSTRATIVE EXAMPLE (2): If H+ (ion) is accelerated to a final velocity of
6.62×10+6 meter per second and error in velocity is 1% then
find uncertainty in position is?
ILLUSTRATIVE
EXAMPLE (3): Radius of nucleus
is the order of 10-13 cm (10-15 m) and thus on the basis
of Heisenberg's uncertainty principle .show that electron cannot exist within
the atomic nucleus?
SOLUTION:
ILLUSTRATIVE EXAMPLE (4): If uncertainty in position and momentum of electron are equal then prove that uncertainty in velocity is ...
ILLUSTRATIVE EXAMPLE (4): If uncertainty in position and momentum of electron are equal then prove that uncertainty in velocity is ...
SOLUTION:
ILLUSTRATIVE EXAMPLE (5):If uncertainty in momentum of an electron are three times of uncertainty in position then uncertainty in velocity of electron would be
ILLUSTRATIVE EXAMPLE (5):If uncertainty in momentum of an electron are three times of uncertainty in position then uncertainty in velocity of electron would be
SOLUTION:
ILLUSTRATIVE EXAMPLE (6): What is the uncertainty of Photon in position of wave length 500 A .If wave length is known to an accuracy of 1pm.
ILLUSTRATIVE EXAMPLE (6): What is the uncertainty of Photon in position of wave length 500 A .If wave length is known to an accuracy of 1pm.
SOLUTION:
ILLUSTRATIVE EXAMPLE (7): An electron is accelerated by (V) volt and following graph is obtained calculate the (V) voltage?
ILLUSTRATIVE EXAMPLE (7): An electron is accelerated by (V) volt and following graph is obtained calculate the (V) voltage?
SOLUTION:
ILLUSTRATIVE EXAMPLE (8): A electron having velocity 2×10+6 m/s has uncertainty in kinetic energy is 6.62/π×10-34 j, than calculate the uncertainty in position of electron in Anstrom .
ILLUSTRATIVE EXAMPLE (8): A electron having velocity 2×10+6 m/s has uncertainty in kinetic energy is 6.62/π×10-34 j, than calculate the uncertainty in position of electron in Anstrom .
SOLUTION:
ILLUSTRATIVE EXAMPLE (9): Two particles A and B are in motion .if the wave length associated with particle A is 5×10-8 m. Calculate the wave length associated with particle B if momentum is Half of A?
ILLUSTRATIVE EXAMPLE (9): Two particles A and B are in motion .if the wave length associated with particle A is 5×10-8 m. Calculate the wave length associated with particle B if momentum is Half of A?
SOLUTION:
ILLUSTRATIVE EXAMPLE (10): If uncertainty in position of an moving electron is equal to its de Broglie wave length, then its velocity will be completely uncertain. Explain?
ILLUSTRATIVE EXAMPLE (10): If uncertainty in position of an moving electron is equal to its de Broglie wave length, then its velocity will be completely uncertain. Explain?
SOLUTION:
ILLUSTRATIVE EXAMPLE (11): If the de Broglie wave length of a particle of mass (m) is 100 times of its Velocity. Then its value in term of its mass (m) and plank constant (h) is?
ILLUSTRATIVE EXAMPLE (11): If the de Broglie wave length of a particle of mass (m) is 100 times of its Velocity. Then its value in term of its mass (m) and plank constant (h) is?
