The electron in a hydrogen atom make a transtion `n_(1) rarr n_(2)` where `n_(1) and n_(2)` are the priocipal quantum number of the two states . Assume the Bohr model to be valid . The time period of the electron in the initial state is eight time that in the final state . The possible values of `n_(1) and n_(2)` areA. `n_(1)=4, n_(2)=2`B. `n_(1)=8, n_(2)=2`C. `n_(1)=8, n_(2)=1`D. `n_(1)=6, n_(2)=3`

The electron in a hydrogen atom make a transtion `n_(1) rarr n_(2)` wh

1.	The electron in a hydrogen atom make a transtion `n_(1) rarr n_(2)` where `n_(1) and n_(2)` are the priocipal quantum number of the two states . Assume the Bohr model to be valid . The time period of the electron in the initial state is eight time that in the final state . The possible values of `n_(1) and n_(2)` areA. `n_(1)=4, n_(2)=2`B. `n_(1)=8, n_(2)=2`C. `n_(1)=8, n_(2)=1`D. `n_(1)=6, n_(2)=3`
Answer» Correct Answer - A::D As `r_(n)propn^(2), v_(n) prop 1/n`, time `t=(2pir_(n))/(v_(n))` i.e, `t_(n) prop (r_(n))/(v_(n))` or `T_(n) prop n^(3)`, i.e., `(T_(1))/(T_(2))=((n_(1))/(n_(2)))^(3)` or `8=((n_(1))/(n_(2)))^(3)` or `(2)^(3)=((n_(1))/(n_(2)))^(3)` hence `n_(1)=2n_(2)`, `:.` when (a) `n_(1)=4, n_(2)=2` and (d) `n_(1)=6, n_(2)=3`

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The radioactive nuclei are unstable and emit alpha `(._(2)He^(4))` , beta `(._(-1)e^(0))` and gamma `(._(0)gamma^(0))` radiations to acheive states of greater stability. Rutherford and Soddy suggested the following rules governing the radioactive decay, (i) The algebric sum of charges (atomic numbers) before and after disintegration must be the same. (ii) The sum of mass numbers before and after disintegration must also be the same. In beta decayA. A remains unaffected, Z increases by 1.B. A is unaffected, Z decreases by 1C. A increases by 1, Z is unaffactedD. A decreases by 1, Z is unaffected.
The radioactive nuclei are unstable and emit alpha `(._(2)He^(4))` , beta `(._(-1)e^(0))` and gamma `(._(0)gamma^(0))` radiations to acheive states of greater stability. Rutherford and Soddy suggested the following rules governing the radioactive decay, (i) The algebric sum of charges (atomic numbers) before and after disintegration must be the same. (ii) The sum of mass numbers before and after disintegration must also be the same. In alpha decayA. mass number A decrease by 4 and atomic number Z increases by 2.B. A decreases by 4 and Z decreases by 2C. A increases by 4 and Z decreases by 2D. A increases by 4 and Z increases by 2.
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