Two identical cells each of emf E and internal resistance r are connected in parallel with an external resistance R. To get maximum power developed across R, the value of R is

Equivalent resistance $R_{eq}= \frac {r}{2}+R= \frac {r+2R}{2}$ $\therefore \hspace15mm I=\frac {2E}{r+2R} $ For maximum power consumption, I should be maximum so denominator is minimum. For this $\, \, \, \, \, \, r+2R=(\sqrt r- \sqrt {2R})^2+2 \sqrt r \sqrt {2R} $ $\Rightarrow \hspace10mm \sqrt r- \sqrt {2R}=0 $ $\Rightarrow \hspace10mm R=\frac {r}{2} $

Two identical cells each of emf E and internal res

Top Questions on Electromagnetic induction

A rectangular metallic loop is moving out of a uniform magnetic field region to a field-free region with a constant speed. When the loop is partially inside the magnetic field, the plot of the magnitude of the induced emf $(\varepsilon)$ with time $(t)$ is given by:
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A conducting bar moves on two conducting rails as shown in the figure. A constant magnetic field $B$ exists into the page. The bar starts to move from the vertex at time $t = 0$ with a constant velocity. If the induced EMF is $E \propto t^n$ , then the value of $n$ is ________________________.
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If $B$ is magnetic field and $\mu_0$ is permeability of free space, then the dimensions of $\frac{B}{\mu_0}$ is:
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Consider $I_1$ and $I_2$ are the currents flowing simultaneously in two nearby coils 1 and 2, respectively. If $L_1$ = self-inductance of coil 1, $M_{12}$ = mutual inductance of coil 1 with respect to coil 2, then the value of induced emf in coil 1 will be:
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A coil of area $A$ and $N$ turns is rotating with angular velocity $\omega$ in a uniform magnetic field $B$ about an axis perpendicular to $B$ . Magnetic flux $\phi$ and induced emf $\varepsilon$ across it, at an instant when $B$ is parallel to the plane of the coil, are:
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Concepts Used:

Electromagnetic Induction

Electromagnetic Induction is a current produced by the voltage production due to a changing magnetic field. This happens in one of the two conditions:-

When we place the conductor in a changing magnetic field.
When the conductor constantly moves in a stationary field.

Formula:

The electromagnetic induction is mathematically represented as:-

e=N × d∅.dt

Where

e = induced voltage
N = number of turns in the coil
Φ = Magnetic flux (This is the amount of magnetic field present on the surface)
t = time

Applications of Electromagnetic Induction

Electromagnetic induction in AC generator
Electrical Transformers
Magnetic Flow Meter