Home
Class 12
PHYSICS
Two capacitros of capacity 6 mu F are ch...

Two capacitros of capacity `6 mu F` are charged to 100 V and 50 V separately and connected as shown. Now all the three switches `S_(1), S_(2)` and `S_(3)` are closed.

Suppose `q_(1), q_(2)` and `q_(3)` be the magnitudes of charge flown from switches `S_(1), S_(2)` and `S_(3)` after they closed. Then

A

Plate 1 and plate 4 separately

B

Plate 2 and plate 3 separately

C

Plate 1 and plate 4 jointly

D

Plate 2 and plate 3 jointly

Text Solution

Verified by Experts

The correct Answer is:
D

Plates 2 and 3 are joined together and they are neither connected to any of the terminals of the battery nor to any other source of charge. So, they jointly form an isolated system. Before closing the switches, charge are shown in Fig. After closing the switch let q charge goes from battery. Then charge on each will increase by q.
Applying Kirchhoff's voltage law, we get
`200-((600+q)/(6))-((150+q)/(3))=0`
or `q=100muC`
so charge on `6muF` capacitor will be `70muC` and `3muF` capacitor will be `250muC` from all the switches `100muC` of charge will flow.
Promotional Banner

Topper's Solved these Questions

  • MISCELLANEOUS VOLUME 3

    CENGAGE PHYSICS ENGLISH|Exercise Interger Answer type|20 Videos

  • MISCELLANEOUS VOLUME 3

    CENGAGE PHYSICS ENGLISH|Exercise Fill in the blanks|10 Videos

  • MISCELLANEOUS VOLUME 3

    CENGAGE PHYSICS ENGLISH|Exercise Assertion and Reason Type|8 Videos

  • MAGNETIC FIELD AND MAGNETIC FORCES

    CENGAGE PHYSICS ENGLISH|Exercise Multiple Correct Answer type|2 Videos

  • MISCELLANEOUS VOLUME 5

    CENGAGE PHYSICS ENGLISH|Exercise Integer|12 Videos

Similar Questions

Explore conceptually related problems

Two capacitors of capacity 6 muF and 3 muF are charge 100 V and 50 V separately and connected as shown in Now all the three switches S_(1), S_(2) , and S_(3) are closed. Which plates form an isolated system?

Two capacitros of capacity 6 and 3 mu F are charged to 100 V and 50 V separately and connected as shown. Now all the three switches S_(1), S_(2) and S_(3) are closed. Charges on both the capacitors in steady state will be (on 6 mu F first)

Two capacitors of capacity 6 muF and 3 muF are charge 100 V and 50 V separately and connected as shown in figure. Now all the three switches S_(1),S_(2) , and S_(3) are closed. Charge on the 3 muF capacitor in steady state willl be.

Two capacitors of capacity 6 muF and 3 muF are charge 100 V and 50 V separately and connected as shown in (Fig.4.201.) Now all the three switches S_(1),S_(2) , and S_(3) are closed. Charge on the 6 muF capacitor in steady state will be.

Two capacitors C_(1) and C_(2) are charged to same potential V , but with opposite polarity as shown in the figure. The switches S_(1) and S_(2) are then closed

Two capacitors C_(1) = 4 muF and C_(2) = 2muF are charged to same potential V = 500 Volt, but with opposite polarity as shown in the figure. The switches S_(1) and S_(2) are closed.

(i) In an isolated system (neither connected to the terminal of a battery nor to any other source of charge e.g each) net charge remains constant. (ii) From two terminal of a battery or from two plates of a capacitor equal and opposite charges enter or leave. Question : Two capacitors of capacity 6muF and 3muF are charged to 100 V and 50 V separatelly and connected as shown. Now all the three swiches S_(1)S_(2) and S_3 are closed. Which plate (s) form an isolated system .

Find the charge flown when the switch S is closed.

Two capacitors C_(1) = 2mu F and C_(2) = 1 muF are charged to same potential V = 100 V , but with opposite polarity as shown in the figure. The switches S_(1) and S_(2) are closed. The ratio of final energy to the initial energy of the system is

Four capacitors of capacitance 10 mu F and a battery of 2V are arranged as shown. How much mu C charge will flow through AB after the switch S is closed ?

CENGAGE PHYSICS ENGLISH-MISCELLANEOUS VOLUME 3-Comprehension Type
  1. Three concentric spherical conductors A, B, and C of radii r, 2R, and ...

    Text Solution

    |

  2. Three concentric spherical conductors A, B, and C of radii r, 2R, and ...

    Text Solution

    |

  3. Two capacitros of capacity 6 mu F are charged to 100 V and 50 V separa...

    Text Solution

    |

  4. Two capacitors of capacity 6 muF and 3 muF are charge 100 V and 50 V s...

    Text Solution

    |

  5. Two capacitros of capacity 6 mu F are charged to 100 V and 50 V separa...

    Text Solution

    |

  6. A charged particle is suspended at the center of two thin concentric s...

    Text Solution

    |

  7. A charged particle is suspended at the center of two thin concentric s...

    Text Solution

    |

  8. A charged particle is suspended at the center of two thin concentric s...

    Text Solution

    |

  9. Capacitor C(3) in the circuit is a veriable capacitor (its capacitance...

    Text Solution

    |

  10. Capacitor C(3) in the circuit is a variable capacitor (its capacitance...

    Text Solution

    |

  11. Capacitor C(3) in the circuit is a variable capacitor (its capacitance...

    Text Solution

    |

  12. In a region , an electroc field E = 10NC^(-1) making an angle of theta...

    Text Solution

    |

  13. In a region , an electroc field E = 10NC^(-1) making an angle of theta...

    Text Solution

    |

  14. Two circular rings A and B each of radius a = 30 cm are placed coaxial...

    Text Solution

    |

  15. Two circular rings A and B each of radius a = 30 cm are placed coaxial...

    Text Solution

    |

  16. Figure shows four plates each of plate area A and separated between pl...

    Text Solution

    |

  17. Figure shows four plates each of plate area A and separated between pl...

    Text Solution

    |

  18. Figure shows four plates each of plate area A and separated between pl...

    Text Solution

    |

  19. Three capacitors C1,C2,andC3 of capacitance 1muF, 2muF, and 3muF, resp...

    Text Solution

    |

  20. Three capacitors C1,C2,andC3 of capacitance 1muF, 2muF, and 3muF, resp...

    Text Solution

    |