Home
Class 12
PHYSICS
Figure shows a conducting rod of negligi...

Figure shows a conducting rod of negligible resistance that can slide on smooth U-shaped rail made of wire of resistance `1Omega//m`. Position of the conducting rod at `t=0` is shown. A time dependent magnetic field `B=2t` tesla is switched on at `t=0`

The current in the loop at `t=0` due to induced emf is

A

(a) `0.16 A`, clockwise

B

(b) `0.08 A`, clockwise

C

( c) `0.08 A`, anticlockwise

D

(d) zero

Text Solution

Verified by Experts

The correct Answer is:
A
(a) `(dB)/(dt) = 2 T//s`
`E = -(AdB)/(dt) = -800 xx 10^(-4)m^(2) = 0.16 V`
`I = (0.16)/(1 Omega) = 0.16 A, clockwise`
At `t = 2 s, B = 4 T, (dB)/(dt) = 2 T//s `
`a = 20 xx 30 cm^(2)`
`= 600 xx 10^(-4)m^(2), (dA)/(dt) = -(5 xx 20)cm^(2)//s`
`= -100 xx 10^(-4)m^(2)//s`
`E = -(dphi)/(dt) = -[(d(BA))/(dt)] = -[(BdA)/(dt) + (AdB)/(dt)]`
`= -[4 xx(-100 xx 10^(-4)) + 600 xx 10^(-4) xx 2]`
`= -[-0.04 + 0.120] = -0.08 V`
Alternative: `phi = BA = 2t xx 0.2(0.4 - vt)`
`E = -(dphi)/(dt) = 0.8 vt - 0.16`
At `t = 2s`
`E = 0.08 V`
At `t =2s`, "length of the wire" `= (2 xx 30 cm) + 20cm = 0.8`
"Resistance of wire" `= 0,8 Omega`
Current through the rod `= (0.08)/(0.8) = (1)/(10)A`
Force on the wire is `= ilB`
`= (1)/(10) xx (0.2) xx 4 = 0.08 N`
Same force is placed on the rod in opposite direction to make net force zero.
Promotional Banner

Topper's Solved these Questions

  • ELECTROMAGNETIC INDUCTION

    CENGAGE PHYSICS ENGLISH|Exercise Exercises Integer|9 Videos

  • ELECTROMAGNETIC INDUCTION

    CENGAGE PHYSICS ENGLISH|Exercise Archives Fill In The Blanks|3 Videos

  • ELECTROMAGNETIC INDUCTION

    CENGAGE PHYSICS ENGLISH|Exercise Exercises Asserton - Reasoning|8 Videos

  • ELECTRICAL MEASURING INSTRUMENTS

    CENGAGE PHYSICS ENGLISH|Exercise M.C.Q|2 Videos

  • ELECTRON,PHONTS,PHOTOELECTRIC EFFECT & X-RAYS

    CENGAGE PHYSICS ENGLISH|Exercise dpp 3.3|15 Videos

Similar Questions

Explore conceptually related problems

Figure shows a conducting rod of negligible resistance that can slide on smooth U-shaped rail made of wire of resistance 1Omega//m . Position of the conducting rod at t=0 is shown. A time dependent magnetic field B=2t tesla is switched on at t=0 The magnitude of the force required to move the conducting rod at constant speed 5cm/s at the same instant t=2s , is equal to

Figure shows a conducting rod of negligible resistance that can slide on smooth U-shaped rail made of wire of resistance 1Omega//m . Position of the conducting rod at t=0 is shown. A time dependent magnetic field B=2t tesla is switched on at t=0 At t=0 , when the magnetic field is switched on, the conducting rod is moved to the left at constant speed 5cm//s by some external means. At t=2s , net induced emf has magnitude

A conducting circular loop of radius a and resistance R is kept on a horizontal plane. A vertical time varying magnetic field B=2t is switched on at time t=0. Then

A square wire of resistance 1.3Omega and side 1cm is moving in uniform magnetic field B=1T with speed 1cm//sec as shown in figure then the current in loop is :

A conducting circular loop made of a thin wire, has area 3.5xx10^(-3)m^(2) and resistance 10Omega. It is placed perpendicular to a time dependent magnetic field B(t)=(0.4T)sin(50pit) . The field is uniform in space. Then the net charge flowing through the loop during t=0 s and t=10 ms is close to :

Consider the situation shown in . The wire PQ has mass m, resistance r and can slide on the smooth, horizontal parallel rails separted by a distance l. The resistance of the rails is negligible. A uniform magnetic field B exists in the rectangualr region and a resistance R connects the rails outsided the field region At t= 0, the wire PQ is puched towards right with a speed v_0 . find (a) the current in the loop at an instant when the speed of the wire PQ is v, (b) the acceleration of the wire at this instatn, (c ) the velocity v as a function of x and (d) the maximum distance the wire will move.

Consider the situation shown in . The wire PQ has mass m, resistance r and can slide on the smooth, horizontal parallel rails separted by a distance l. The resistance of the rails is negligible. A uniform magnetic field B exists in the rectangualr region and a resistance R connects the rails outsided the field region At t= 0, the wire PQ is puched towards right with a speed v_0 . find (a) the current in the loop at an instant when the speed of the wire PQ is v, (b) the acceleration of the wire at this instatn, (c ) the velocity v as a function of x and (d) the maximum distance the wire will move.

In the figure shown a conducting rod of length l , resistnace R and mass m is moved with a constant velocity v .The magnetic field B varies with time t as B=5 t , where t is time in second.At t=0 the area of the loop containing capacitor and the rod is zero and the capacitor is uncharged.The rod started moving at t=0 on the fixed smooth conducting rails which have negligible resistance.Find (i)The current in the circuit as a function of time t . (ii)If the above system is kept in vertical plane such that the rod can move vertically downward due of gravity and other parts are kept fixed and B =constant = B_(0) .then find the maximum current in the circuit.

Figure shows a conducting Rectangular loop of electrical resistance R. There exists a uniform magnetic field given by vecB=B_(0)(10t^(2)-5t)hat(k) in the region. The current in the loop at

A conductor of length 0.1m is moving with a velocity of 4m/s in a uniform magnetic field of 2T as shown in the figure. Find the emf induced ?

CENGAGE PHYSICS ENGLISH-ELECTROMAGNETIC INDUCTION-Exercises Linked Comprehension
  1. In Fig. shown, the rod has a resistance R, the horizontal rails have n...

    Text Solution

    |

  2. A square conductind loop, 20.0 cm on a side placed in the same magneti...

    Text Solution

    |

  3. A square conductind loop, 20.0 cm on a side placed in the same magneti...

    Text Solution

    |

  4. A square conductind loop, 20.0 cm on a side placed in the same magneti...

    Text Solution

    |

  5. In a very long solenoid of radius R, if the magnetic field chabges at ...

    Text Solution

    |

  6. In a very long solenoid of radius R, if the magnetic field chabges at ...

    Text Solution

    |

  7. A standing wave y = 2A sin kx cos omegat is set up in the wire AB fixe...

    Text Solution

    |

  8. A standing wave y = 2A sin kx cos omegat is set up in the wire AB fixe...

    Text Solution

    |

  9. A standing wave y = 2A sin kx cos omegat is set up in the wire AB fixe...

    Text Solution

    |

  10. A fan operates at 200 volt (DC) consuming 1000W when running at full s...

    Text Solution

    |

  11. A fan operates at 200 volt (DC) consuming 1000W when running at full s...

    Text Solution

    |

  12. A fan operates at 200 volt (DC) consuming 1000W when running at full s...

    Text Solution

    |

  13. Figure shows a conducting rod of negligible resistance that can slide ...

    Text Solution

    |

  14. Figure shows a conducting rod of negligible resistance that can slide ...

    Text Solution

    |

  15. Figure shows a conducting rod of negligible resistance that can slide ...

    Text Solution

    |

  16. A brilliant student of physics developed a magnetic balance to weight ...

    Text Solution

    |

  17. A brilliant student of physics developed a magnetic balance to weight ...

    Text Solution

    |

  18. Consider two parallel conducting frictionless tracks kept in a gravity...

    Text Solution

    |

  19. Consider two parallel conducting frictionless tracks kept in a gravity...

    Text Solution

    |

  20. Consider two parallel conducting frictionless tracks kept in a gravity...

    Text Solution

    |