The power dissipated in the circuit shown in
the figure is 30 Watt. The value of R is :
(1)
(2)
(3)
(4)
A cell having an emf internal resistance r is connected across a variable external resistance R. As the resistance R is increased, the plot of potential difference V across R is given by
(a)
(b)
(c)
(d)
If power dissipated in the 9 resistor in the circuit shown is 36 W, the potential difference across the 2 resistor is
1. 8 V
2. 10 V
3. 2 V
4. 4 V
A current of 2A flows through a 2 resistor
when connected across a battery. The same
battery supplies a current of 0.5 A when
connected across a 9 resistor. The internal
resistance of the battery is
(1)
(2)
(3)
(4)
A galvanometer of resistance, G is shunted by a resistance S ohm. To keep the main current in the circuit unchanged, the resistance to be put in series with the galvanometer is
(1)
(2)
(3)
(4)
Which one of the following bonds produces a solid that reflects light in the visible region and whose electrical conductivity decreases with temperature and has high melting point?
(1) metallic bonding
(2) van der Waals'bonding
(3) ionic bonding
(4) covalent bonding
A potentiometer circuit is set up as shown.The potential gradient across the potentiometer wire, is k volt/cm and the ammeter, present in the circuit, reads 1.0A when two way key is switched off. The balance points, when the key between the terminals (i) 1 and 2 (ii) 1and 3, is plugged in, are found to be at lengths respectively.The magnitudes, of the resistors R and X, in ohm, are then, equal, respectively, to
(a)
(b)
(c)
(d)
A galvanometer has a coil of resistance and gives a full scale deflection for 30 mA current.If it is to work as a voltmeter of 30V range, the resistance required to be added will be
(1) 900
(2) 1800
(3) 500
(4) 1000
A series combination of \(n_1\) capacitors, each of value \(C_1\), is charged by a source of potential difference \(4\) V. When another parallel combination of \(n_2\) capacitors, each of value \(C_2\), is charged by a source of potential difference \(V\), it has the same (total) energy stored in it as the first combination has. The value of \(C_2\) in terms of \(C_1\) is:
1. \(\frac{2C_1}{n_1n_2}\)
2. \(16\frac{n_2}{n_1}C_1\)
3. \(2\frac{n_2}{n_1}C_1\)
4. \(\frac{16C_1}{n_1n_2}\)
Consider the following two statements :
(1) Kirchhoff's junction law follows from the conservation of charge.
(2) Kirchhoff's loop law follows from the conservation of energy.
Which of the following is correct?
(a) Both (A) and (B) are wrong
(b) (A) is correct and (B) is wrong
(3) (A) is wrong and (B) is correct
(4) Both (A) and (B) are correct