The figure shows two identical rectangular loops (1) and (2) placed on a table along with a straight long current carrying conductor between them. i. What will be the directions of the induced current in the loops when they are pulled away from the conductor with same velocity v? ii. Will the emf induced in the two loops be equal?

i. The direction of induced current will be such that it tends to maintain the original flux. So induced current flows anticlockwise in loop 1 and clockwise in loop 2. ii. No, the emf's induced in the two loops will not be equal. Since, the rate of change of flux is more in the second coil, emf induced in the second coil is more than that in the first coil. Emf in the first coil, E _1= Bav Emf in the school coil, E _2= Bbv Since, b > a therefore, E _2> E _1

The figure shows two identical rectangular loops (1) and (2) plac…

The inputs A and B are inverted by using two NOT gates and their outputs are fed to the NOR gate as shown below.

Analyse the action of the gates (1) and (2) and identify the logic gate of the complete circuit so obtained. Give its symbol and the truth table.

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Write the functions of three segments of a transistor.
Draw the circuit diagram for studying the input and output characteristics of $n-p-n$ transistor in common emitter configuration. Using the circuit, explain how input, output characteristics are obtained.

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A ball is dropped from a balloon going up at a speed of $7\ m/s$. If the balloon was at a height $60m$ at the time of dropping the ball, how long will the ball take in reaching the ground?

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Two concentric circular coils $X$ and $Y$ of radii $16 \ cm$ and $10 \ cm,$ respectively, lie in the same vertical plane containing the north to south direction. Coil $X$ has $20$ turns and carries a current of $16 A;$ coil $Y$ has $25$ turns and carries a current of $18 A$. The sense of the current in $X$ is anticlockwise, and clockwise in $Y$, for an observer looking at the coils facing west. Give the magnitude and direction of the net magnetic field due to the coils at their centre.

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Calculate the following:

Impedance of the given $ac$ circuit.
Wattless current of the given $ac$ circuit.

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Figure shows a part of an electric circuit. The wires $AB, CD$ and $EF$ are long and have identical resistances. The separation between the neighbouring wires is $1.0\ cm$. The wires $AE$ and $BF$ have negligible resistance and the ammeter reads $30A$. Calculate the magnetic force per unit length of $AB$ and $CD$.

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State Gauss᾿s theorem in electrostatics. Using this theorem, derive an expression for the electric field due to an infinitely long straight wire of linear charge density $\lambda$.

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Two cells of emf $E_1$ and $E_2$ have their internal resistances $r_1$ and $r_2$, respectively. Deduce an expression for the equivalent emf and internal resistance of their parallel combination when connected across an external resistance $R.$ Assume that the two cells are supporting each other.
In case the two cells are identical, each of emf $E = 5V$ and internal resistance $\text{r}=2\Omega,$ calculate the voltage across the external resistance $\text{R}=10\Omega.$

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Suppose, one wishes to construct a 1.0 farad capacitor using circular discs. If the separation between the discs be kept at 1.0mm, what would be the radius of the discs?

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Deduce the expression for the torque $\overrightarrow{\tau}$ acting on a planar loop of area $\overrightarrow{\text{A}}$ and carrying current $I$ placed in a uniform magnetic field $\overrightarrow{\text{B}}.$
If the loop is free to rotate, what would be its orientation in stable equilibrium?

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