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A square current carrying loop is suspended in a uniform magnetic field acting in the plane of the loop. If the force on one arm of the loop is $bold F with bold rightwards arrow on top$ , the net force on the remaining three arms of the loops is

3 $bold F with bold rightwards arrow on top$
- $bold F with bold rightwards arrow on top$
$negative 3 space bold F with bold rightwards arrow on top$
$negative 3 space bold F with bold rightwards arrow on top$

1440 Views

182.

A particle having a mass of 10^-2 kg carries a charge of 5 x 10^-8 C. The particle is given an initial horizontal velocity of 10⁵ ms^-1 in the presence of electric field and $bold E with bold rightwards arrow on top$ magnetic field. $bold B with rightwards arrow on top$ To keep the particle moving in a horizontal direction. it is necessary that

1) $bold B with rightwards arrow on top$ should be perpendicular to the direction of velocity and $bold E with bold rightwards arrow on top$ should be along the direction of velocity

2) Both $bold B with rightwards arrow on top$ and $bold E with bold rightwards arrow on top$ should be along the direction of velocity.

3) Both $bold B with rightwards arrow on top$ and $bold E with bold rightwards arrow on top$ are mutually perpendicular and perpendicular to the direction of velocity

4) $bold B with rightwards arrow on top$ should be along the direction of velocity and $bold E with bold rightwards arrow on top$ should be perpendicular to the direction of velocity.

(1) and (3)
(3) and (4)
(2) and (3)
(2) and (3)

544 Views

183.

A current loop consists of two identical semicircular parts each of radius R, one lying in the x-y plane and the other in x-z plane. if the current in the loop is i. The resultant magnetic field due to the two semicircular parts at their common centre is

$fraction numerator straight mu subscript straight o space straight i over denominator 2 square root of 2 straight R end root end fraction$
$fraction numerator straight mu subscript 0 straight i over denominator 2 straight R end fraction$
$fraction numerator straight mu subscript straight o straight i over denominator 4 straight R end fraction$
$fraction numerator straight mu subscript straight o straight i over denominator 4 straight R end fraction$

567 Views

184.

A wire of resistance 12 Ωm^-1 is bent to form a complete circle of radius 10 cm. The resistance between its two diametrically opposite point, A and B as shown in the figure, is

0.6 π Ω
3 π Ω
6 π Ω
6 π Ω

496 Views

185.
A student measures the terminal potential difference (V) of a cell (of emf and internal resistance r) as a function of the current (I) flowing through it. The slope and intercept of the graph between V and I, then respectively, equal

$straight epsilon space and space minus straight r$
$negative straight r space and space straight epsilon$
$straight r space and space minus straight epsilon$
$straight r space and space minus straight epsilon$

negative straight r space and space straight epsilon

According to Ohm's law

362 Views

186.

The magnetic force acting on a charged particle of charge -2 μC in a magnetic field of 2T acting in y direction, when the particle velocity is $left parenthesis 2 straight i with hat on top space plus 3 straight j with hat on top right parenthesis space straight x space 10 to the power of 6 space ms to the power of negative 1 end exponent space is$

8N in -z direction
4N in z direction
8 N in y direction
8 N in y direction

785 Views

187.

A particle mass m, charge Q and kinetic energy T enter a transverse uniform magnetic field of induction. $bold B with rightwards arrow on top$ After 3 s the kinetic energy of the particle will be

661 Views

188.

A long solenoid has 500 turns. When a current of 2 A is passed through it, the resulting magnetic flux linked with each turn of the solenoid is 4 x 10^-3 Wb. The self -inductance of the solenoid is

2.5 H
2.0 H
1.0 H
1.0 H

926 Views

189.

A galvanometer of resistance 50 Ω is connected to a battery of 3 V along with a resistance of 2950 Ω in series. A full-scale deflection of 30 divisions is obtained in the galvanometer. In order to reduce this deflection to 20 divisions, the resistance in series should be

5050 Ω
5550 Ω
6050 Ω
6050 Ω

1818 Views

190.

Two circular coils 1 and 2 are made from the same wire but the radius of the 1st coil is twice that of the 2nd coil. What is the ratio of potential difference applied across them so that the magnetic field at their centres is the same?

1106 Views