In Circuit-$1$ and Circuit- $2$ shown in the figures, $R_1=1 \Omega, R_2=2 \Omega$ and $R_3=3 \Omega$. $P_1$ and $P_2$ are the power dissipations in Circuit-$1$ and Circuit-$2$ when the switches $S_1$ and $S_2$ are in open conditions, respectively. $Q_1$ and $Q_2$ are the power dissipations in Circuit-$1$ and Circuit-$2$ when the switches $S_1$ and $S_2$ are in closed conditions, respectively.

Which of the following statement($s$) is(are) correct?

$(A)$ When a voltage source of $6 V$ is connected across $A$ and $B$ in both circuits, $P_1$

$(B)$ When a constant current source of $2 Amp$ is connected across $A$ and $B$ in both circuits, $P_1>P_2$.

$(C)$ When a voltage source of $6 V$ is connected across $A$ and $B$ in Circuit-$1$, $Q_1>P_1$.

$(D)$ When a constant current source of $2 Amp$ is connected across $A$ and $B$ in both circuits, $Q_2$

Q: In Circuit-$1$ and Circuit- $2$ shown in the figures, $R_1=1 \Omega, R_2=2 \Omega$ and $R_3=3 \Omega$. $P_1$ and $P_2$ are the power dissipations in Circuit-$1$ and Circuit-$2$ when the switches $S_1$ and $S_2$ are in open conditions, respectively. $Q_1$ and $Q_2$ are the power dissipations in Circuit-$1$ and Circuit-$2$ when the switches $S_1$ and $S_2$ are in closed conditions, respectively. Which of the following statement($s$) is(are) correct? $(A)$ When a voltage source of $6 V$ is connected across $A$ and $B$ in both circuits, $P_1$ $(B)$ When a constant current source of $2 Amp$ is connected across $A$ and $B$ in both circuits, $P_1>P_2$. $(C)$ When a voltage source of $6 V$ is connected across $A$ and $B$ in Circuit-$1$, $Q_1>P_1$. $(D)$ When a constant current source of $2 Amp$ is connected across $A$ and $B$ in both circuits, $Q_2$

b Case $(i)$ When both switches are open equivalent resistance in circuit $1$ $R _{ c _1}=\frac{16}{11} \Omega$ Equivalent resistance in circuit $2$ $R_{c=}=\frac{6}{11} \Omega$ For voltage source $P=\frac{V^2}{R}$ $P \propto \frac{1}{R}$ $R_{c_e}>R_{c_e}$ $\Rightarrow P_2>P_1 \text { (Option (A) correct) }$ For congtant curent source $P =i^2 R$ $P \propto R$ $\Rightarrow P _1> P _2 \text { (Option (B) coerect) }$ Cros-$II$ When swirch is cloced $R _{c_1}^{\prime}=\frac{5}{11} \Omega$ $R _{c_1}^{\prime}=\frac{1}{2} \Omega$ $R _{c_0}^{\prime} P _2 \text { (Oprion (C) correct) }$ $ R_{c_0}^{\prime}>R_{c_1}^{\prime}$ For current source $P \propto R$. $Q_1>Q_2 \text { (Option (D) also comrect) }$

Question

In Circuit-$1$ and Circuit- $2$ shown in the figures, $R_1=1 \Omega, R_2=2 \Omega$ and $R_3=3 \Omega$. $P_1$ and $P_2$ are the power dissipations in Circuit-$1$ and Circuit-$2$ when the switches $S_1$ and $S_2$ are in open conditions, respectively. $Q_1$ and $Q_2$ are the power dissipations in Circuit-$1$ and Circuit-$2$ when the switches $S_1$ and $S_2$ are in closed conditions, respectively.

Which of the following statement($s$) is(are) correct?

$(A)$ When a voltage source of $6 V$ is connected across $A$ and $B$ in both circuits, $P_1$

$(B)$ When a constant current source of $2 Amp$ is connected across $A$ and $B$ in both circuits, $P_1>P_2$.

$(C)$ When a voltage source of $6 V$ is connected across $A$ and $B$ in Circuit-$1$, $Q_1>P_1$.

$(D)$ When a constant current source of $2 Amp$ is connected across $A$ and $B$ in both circuits, $Q_2$

A$A,B,D$
B$A,B,C$
C$A,B$
D$A,D$

IIT 2022, Advanced

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