In the circuit $R_1 = R_2$.The value of $E$ and $R_1$ are ________($E-EMF,R_1$-resistance)
- $180\, V, 60\, \Omega$
- $120\, V,60\, \Omega$
- $180\, V,10\, \Omega$
- $ 120\,V, 10\,\Omega$
The Correct Option is A
Solution and Explanation
$-I R-(I-1.5) R+E=0$
or $ E=I R+(I-1.5) R$
$\Rightarrow E=R[2 /-1.5] \,\,\,\,\,\,...(i)$
Now apply KVL in loop $ABCDEFA$, $-I R-1.5 R'+E=0$
$\Rightarrow E=I R+1.5 R'\,\,\,\,\,\,\,...(ii)$
Eliminating / from Equ. (i) and (ii),
$\Rightarrow \frac{1}{2}\left[\frac{E}{R}+1.5\right]=1\,\,\,\,\,$[from E(i)]
and $\left[\frac{E-1.5 R^{\prime}}{R}\right]=1$
[from E (ii)]
So, $\frac{E}{R}+1.5=\frac{2}{R}\left[E-1.5 R'\right]$
So, if $R'$ were known, then from options we could get the answer.
Top Questions on Current electricity
- A conductor of length \( l \) is connected across an ideal cell of emf E. Keeping the cell connected, the length of the conductor is increased to \( 2l \) by gradually stretching it. If R and \( R' \) are initial and final values of resistance and \( v_d \) and \( v_d' \) are initial and final values of drift velocity, find the relation between:
\( R' \) and \( R \)
\( R' = 4R \)- CBSE CLASS XII - 2025
- Physics
- Current electricity
- In the given figure, three identical bulbs P, Q, and S are connected to a battery.
[(i)] Compare the brightness of bulbs P and Q with that of bulb S when key K is closed.
[(ii)] Compare the brightness of the bulbs S and Q when the key K is opened.
Justify your answer in both cases.
- CBSE CLASS XII - 2025
- Physics
- Current electricity
The current passing through the battery in the given circuit, is:
- NEET (UG) - 2025
- Physics
- Current electricity
- A conductor of length \( l \) is connected across an ideal cell of emf \( E \). Keeping the cell connected, the length of the conductor is increased to \( 2l \) by gradually stretching it. If \( R \) and \( R' \) are the initial and final values of resistance, and \( v_d \) and \( v'_d \) are the initial and final values of drift velocity, find the relation between (i) \( R' \) and \( R \) and (ii) \( v'_d \) and \( v_d \).
- CBSE CLASS XII - 2025
- Physics
- Current electricity
- With the help of the given circuit, find out the total resistance of the circuit and the current flowing through the cell.
\includegraphics[width=0.5\linewidth]{image4.png}- UP Board XII - 2025
- Physics
- Current electricity
Questions Asked in KCET exam
- A potential at a point A is 3 V and that at another point B is 5 V. What is the work done in carrying a charge of 5 mC from B to A?
- KCET - 2025
- Electric Field
A wooden block of mass M lies on a rough floor. Another wooden block of the same mass is hanging from the point O through strings as shown in the figure. To achieve equilibrium, the coefficient of static friction between the block on the floor and the floor itself is
- KCET - 2025
- Newtons Laws of Motion
- A series LCR circuit containing an AC source of 100V has an inductor and a capacitor of reactances 24\(\Omega\) and 16\(\Omega\) respectively. If a resistance of 6\(\Omega\) is connected in series, then the potential difference across the series combination of inductor and capacitor will be
- KCET - 2025
- Electromagnetic waves
- A scientist wants to produce virus-free plant in tissue culture. Which part of the plant will he use as an explant? a) mature stem b) axillary meristem c) apical meristem d) mesophyll cell Choose the correct option from the following.
- KCET - 2025
- Tissue Culture
In an experiment to determine the figure of merit of a galvanometer by half deflection method, a student constructed the following circuit. He applied a resistance of \( 520 \, \Omega \) in \( R \). When \( K_1 \) is closed and \( K_2 \) is open, the deflection observed in the galvanometer is 20 div. When \( K_1 \) is also closed and a resistance of \( 90 \, \Omega \) is removed in \( S \), the deflection becomes 13 div. The resistance of galvanometer is nearly:
- KCET - 2025
- Viscosity
Concepts Used:
Current Electricity
Current electricity is defined as the flow of electrons from one section of the circuit to another.
Types of Current Electricity
There are two types of current electricity as follows:
Direct Current
The current electricity whose direction remains the same is known as direct current. Direct current is defined by the constant flow of electrons from a region of high electron density to a region of low electron density. DC is used in many household appliances and applications that involve a battery.
Alternating Current
The current electricity that is bidirectional and keeps changing the direction of the charge flow is known as alternating current. The bi-directionality is caused by a sinusoidally varying current and voltage that reverses directions, creating a periodic back-and-forth motion for the current. The electrical outlets at our homes and industries are supplied with alternating current.