JEE Advanced 2017 Paper 2 Offline | Capacitor Question 10 | Physics

Consider a simple RC circuit as shown in Figure 1.

Process 1 : In the circuit the switch S is closed at t = 0 and the capacitor is fully charged to voltage V₀ (i.e. charging continues for time T >> RC). In the process some dissipation (E_D) occurs across the resistance R. The amount of energy finally stored in the fully charged capacitor is E_C.

Process 2 : In a different process the voltage is first set to $${{{V_0}} \over 3}$$ and maintained for a charging time T >> RC. Then, the voltage is raised to $${{2{V_0}} \over 3}$$ without discharging the capacitor and again maintained for a time T >> RC. The process is repeated one more time by raising the voltage to V₀ and the capacitor is charged to the same final voltage V₀ as in Process 1.

These two processes are depicted in Figure 2.
JEE Advanced 2017 Paper 2 Offline Physics - Capacitor Question 7 English Comprehension

JEE Advanced 2017 Paper 2 Offline Physics - Capacitor Question 7 English Comprehension

In Process 1, the energy stored in the capacitor E_C and heat dissipated across resistance E_D are related by

E_C = E_D ln2

E_C = E_D

E_C = 2E_D

E_C = $${1 \over 2}$$E_D

JEE Advanced 2017 Paper 2 Offline

MCQ (Single Correct Answer)

-0

Consider a simple RC circuit as shown in Figure 1.

Process 1 : In the circuit the switch S is closed at t = 0 and the capacitor is fully charged to voltage V₀ (i.e. charging continues for time T >> RC). In the process some dissipation (E_D) occurs across the resistance R. The amount of energy finally stored in the fully charged capacitor is E_C.

Process 2 : In a different process the voltage is first set to $${{{V_0}} \over 3}$$ and maintained for a charging time T >> RC. Then, the voltage is raised to $${{2{V_0}} \over 3}$$ without discharging the capacitor and again maintained for a time T >> RC. The process is repeated one more time by raising the voltage to V₀ and the capacitor is charged to the same final voltage V₀ as in Process 1.

These two processes are depicted in Figure 2.

JEE Advanced 2017 Paper 2 Offline Physics - Capacitor Question 6 English Comprehension

JEE Advanced 2017 Paper 2 Offline Physics - Capacitor Question 6 English Comprehension

In Process 2, total energy dissipated across the resistance E_D is

$${E_D} = {1 \over 3}\left( {{1 \over 2}CV_0^2} \right)$$

$${E_D} = 3\left( {{1 \over 2}CV_0^2} \right)$$

$${E_D} = 3CV_0^2$$

$${E_D} = {1 \over 2}CV_0^2$$

IIT-JEE 2012 Paper 2 Offline

MCQ (Single Correct Answer)

-1

In the given circuit, a charge of $$+80$$ $$\mu C$$ is given to the upper plate of the $$4$$ $$\mu F$$ capacitor. Then in the steady state, the charge on the upper plate of the $$3$$ $$\mu F$$ capacitor is
IIT-JEE 2012 Paper 2 Offline Physics - Capacitor Question 16 English

IIT-JEE 2012 Paper 2 Offline Physics - Capacitor Question 16 English

$$ + \,32\,\mu C$$

$$ + \,40\,\mu C$$

$$ + \,48\,\mu C$$

$$ + \,80\,\mu C$$

IIT-JEE 2011 Paper 1 Offline

MCQ (Single Correct Answer)

-0.5

A $$2$$ $$\mu F$$ capacitor is charged as shown in the figure. The percentage of its stored energy dissipated after the switch $$S$$ is turned to position $$2$$ is
IIT-JEE 2011 Paper 1 Offline Physics - Capacitor Question 17 English

IIT-JEE 2011 Paper 1 Offline Physics - Capacitor Question 17 English

$$0\% $$

$$20\% $$

$$75\% $$

$$80\% $$

Questions Asked from MCQ (Single Correct Answer)

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