Current Electricity Class 12 Case Study Questions Physics Chapter 3

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Last Updated on December 26, 2024 by XAM CONTENT

Hello students, we are providing case study questions for class 12 physics. Case study questions are the new question format that is introduced in CBSE board. The resources for case study questions are very less. So, to help students we have created chapterwise case study questions for class 12 physics. In this article, you will find case study questions for cbse class 12 physics chapter 3 Current Electricity.

Chapter	Current Electricity
Type of Questions	Case Study Questions
Nature of Questions	Competency Based Questions
Board	CBSE
Class	12
Subject	Physics
Unit	Unit 2 Current Electricity
Useful for	Class 12 Studying Students
Answers provided	Yes
Difficulty level	Mentioned
Important Link	Class 12 Physics Chapterwise Case Study

Case Study Questions on Current Electricity

Questions

Question 1:

Emf of a cell is the maximum potential difference between two electrodes of the cell when no current is drawn from the cell. Internal resistance is the resistance offered by the electrolyte of a cell when the electric current flows through it. The internal resistance of a cell depends upon the following factors:
(i) distance between the electrodes,
(ii) nature and temperature of the electrolyte,
(iii) nature of electrodes and
(iv) area of electrodes.
For a freshly prepared cell, the value of internal resistance is generally low and goes on increasing as the cell is put to more and more use. The potential difference between the two electrodes of a cell in a closed circuit is called terminal potential difference and its value is always less than the emf of the cell in a closed circuit. It can be written as $V=\varepsilon-I r$.

Read the given passage carefully and give the answer of the following questions:

Q 1. Acell of emf $E$ and internal resistance $r$ is connected across a resistance $R$. If internal resistance is equal to $R$, what will be the potential difference between the terminals of the cell?

Q 2. A cell of emf $E$ and internal resistance $r$ give a current of 0.5 A with an external resistance of $12 \Omega$ and a current of 0.25 A with an external resistance of $25 \Omega$. What is the value of internal resistance of the cell?

Q 3. Two batteries of emfs 2 V and 1 V of internal resistances $1 \Omega$ and $2 \Omega$ respectively are connected in parallel. What is the effective emf of the combination?

Q 4. An external resistance $R$ is connected to a cell of internal resistance $r$. At which condition, the maximum current flows in the external resistance?

Q 5. If external resistance connected to a cell has been increased to 5 times, the potential difference across the terminals of the cell increases from 10 V to 30 V . Then what will be the value of the emf of the cell?

Answers

1.
$$
\begin{aligned}
&\begin{aligned}
E & =I(R+r) \text { and } V=I R \\
\Rightarrow \frac{V}{E} & =\frac{R}{R+r}=\frac{R}{R+R}=\frac{1}{2} \Rightarrow V=\frac{E}{2}
\end{aligned}
\end{aligned}
$$

2.

$$
E=I(R+r)
$$

In first case, $\quad I=0.5 \mathrm{~A} ; R=12 \Omega$

$$
E=6.0+0.5 r ….(1)
$$

In second case, $I=0.25 A ; R=25 \Omega$

$$
E=6.25+0.25 r …(2)
$$

From eqs. (1) and (2), $r=1 \Omega$

3. In parallel combination of cells,

$$
E_{e q}=\frac{E_1 r_2+E_2 r_1}{r_1+r_2}
$$

Here $E_1=2 \mathrm{~V}, E_2=1 \mathrm{~V}, r_1=1 \Omega, r_2=2 \Omega$

$$
\therefore \quad E_{e q}=\frac{2 \times 2+1 \times 1}{1+2}=\frac{5}{3} V
$$

4. Current in the circuit, $I=\frac{E}{R+r}$
or

$$
\begin{aligned}
& I=\frac{E}{\sqrt{(R-r)^2+4 r R}} \\
& \quad\left[\because R+r=\sqrt{(R-r)^2+4 R r}\right]
\end{aligned}
$$

Obviously I will be maximum if denominator is minimum, for which we must have

$$
\begin{aligned}
R-r & =0 \\
R & =r
\end{aligned}
$$

or
When $R=r$, then maximum current will flow in the external resistance.

5. For first case, $\frac{E}{R+r}=\frac{10}{R}$

For second case, $\frac{E}{5 R+r}=\frac{30}{5 R}$
Dividing above equations, we get, $r=5 R$
From eq. (1),

$$
\begin{aligned}
\frac{E}{R+5 R} & =\frac{10}{R} \\
E & =60 \mathrm{~V}
\end{aligned}
$$

Also check

Case study questions for other chapters of class 12 physics is given below.

• Semiconductor Electronics Class 12 Case Study Questions Physics Chapter 14
• Nuclei Class 12 Case Study Questions Physics Chapter 13
• Atoms Class 12 Case Study Questions Physics Chapter 12
• Dual Nature of Radiation and Matter Class 12 Case Study Questions Physics Chapter 11
• Wave Optics Class 12 Case Study Questions Physics Chapter 10
• Ray Optics and Optical Instruments Class 12 Case Study Questions Physics Chapter 9
• Electromagnetic Waves Class 12 Case Study Questions Physics Chapter 8
• Alternating Current Class 12 Case Study Questions Physics Chapter 7
• Electromagnetic Induction Class 12 Case Study Questions Physics Chapter 6
• Magnetism and Matter Class 12 Case Study Questions Physics Chapter 5
• Moving Charges and Magnetism Class 12 Case Study Questions Physics Chapter 4
• Current Electricity Class 12 Case Study Questions Physics Chapter 3
• Electrostatic Potential and Capacitance Class 12 Case Study Questions Physics Chapter 2
• Electric Charges and Fields Class 12 Case Study Questions Physics Chapter 1
• Case Study Questions for Class 12 Physics

We hope the given case study questions for Current Electricity Class 12 helps you in your learning.

Download eBooks for CBSE Class 12 Physics (Exam Special)

• 120 Case Study Questions for Class 12 Physics
• 320 Assertion Reasoning Questions for Class 12 Physics
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• Important Derivation for Class 12 Physics
• MCQ Questions for Class 12 Physics
• Chapter Test for Class 12 Physics with Solutions
• 230 Important Numerical for Class 12 Physics
• 75 Important Diagrams & Graphs for Class 12 Physics

Topics from which case study questions may be asked

• Electric Current and Flow of Electric Charges
• Drift Velocity, Mobility, and Their Relation with Electric Current
• Ohm’s Law
• V-I Characteristics (Linear and Non-linear)
• Electrical Energy and Power
• Electrical Resistivity and Conductivity
• Temperature Dependence of Resistance
• Internal Resistance of a Cell
• Potential Difference and EMF of a Cell
• Combination of Cells in Series and Parallel
• Kirchhoff’s Rules
• Wheatstone Bridge

Drift velocity is directly proportional to the relaxation time of the electrons.

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