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(A) According to Bohr's model for a one-electron atom:$1.$ Radius of $n^{	ext{th}}$ orbit,$r_n = \frac{n^2 h^2 \epsilon_0}{\pi m Z e^2} \propto n^2$.

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$3, 4$

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(A) According to Bohr's model for a one-electron atom:$1.$ Radius of $n^{	ext{th}}$ orbit,$r_n = \frac{n^2 h^2 \epsilon_0}{\pi m Z e^2} \propto n^2$. Thus,$(I)$ matches with $(T)$.$2.$ Angular momentum,$L = \frac{nh}{2\pi} \propto n^1$. Thus,$(II)$ matches with $(S)$.$3.$ Kinetic energy,$KE = \frac{m Z^2 e^4}{8 \epsilon_0^2 n^2 h^2} \propto n^{-2}$. Thus,$(III)$ matches with $(P)$.$4.$ Potential energy,$PE = - \frac{m Z^2 e^4}{4 \epsilon_0^2 n^2 h^2} \propto n^{-2}$. Thus,$(IV)$ matches with $(P)$.For question $(1)$,the correct combination is $(I), (T)$,which is option $(3)$.For question $(2)$,the correct combination is $(III), (P)$,which is option $(4)$.Therefore,the answer is $3, 4$.

$List-I$	$List-II$
$(I)$ Radius of the $n^{\text{th}}$ orbit	$(P) \propto n^{-2}$
$(II)$ Angular momentum of the electron in the $n^{\text{th}}$ orbit	$(Q) \propto n^{-1}$
$(III)$ Kinetic energy of the electron in the $n^{\text{th}}$ orbit	$(R) \propto n^0$
$(IV)$ Potential energy of the electron in the $n^{\text{th}}$ orbit	$(S) \propto n^1$
-	$(T) \propto n^2$
-	$(U) \propto n^{1/2}$

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