Consider 3rd orbit of He^(+) (Helium) us...

Consider `3rd` orbit of `He^(+)` (Helium) using nonrelativistic approach the speed of electron in this orbit will be (given `K = 9 xx 10^(9)` constant `Z = 2` and `h` (Planck's constant) `= 6.6 xx 10^(-34)Js`.)

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Consider 3rd orbit of Het (Helium), using non-relativistic approach, the speed of electron in this orbit will be given k = 9 xx 10^(9) constant, Z = 2 and h(Planck's Constant) = 6.6xx10^(-34)JK)

Consider 3rd orbit of He^+ (Helium), using non-relativistic approach , the speed of electron in this orbit will be [given k=9xx10^(9) constant, Z=2 and h(Planck's constant) =6.6 xx10^(-34)J*s ]

Consider 3rd orbit of He+ (Helium), using non- relativistic approach, the speed of electron in this orbit will be [given K = 9 × 10^9 constant, Z=2 and h (Planck's Constant)= 6.6 × 10^-34 J s ]

Consider 3rd orbit of He^(+) (Helium ) Using non relativistic approach , the speed of electron in this orbit will be (given K = 9 xx 10^(9) constant , Z = 2 and h = 6.6 xx 10^(34) Js) (Plancks constant = h )

The de Broglie wavelength of an electron (mass =1 xx 10^(-30)kg , charge =1.6 xx 10^(-19)C ) with a kinetic energy of 200eV is (Planck's constant =6.6 xx 10^(-34)Js )

Calculate the speed of the electron in the first Bohr orbit given that h=6.6xx10^(-34) Js, m=9.11xx10^(-31) kg and e=1.603xx10^(-19) C .

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)

Consider `3rd` orbit of `He^(+)` (Helium) using nonrelativistic approach the speed of electron in this orbit will be (given `K = 9 xx 10^(9)` constant `Z = 2` and `h` (Planck's constant) `= 6.6 xx 10^(-34)Js`.)

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