Home
Class 12
PHYSICS
Derive the expression for electric field...

Derive the expression for electric field intensity due to a uniformly charged thin spherical shell
at a point outside the shell

Promotional Banner

Topper's Solved these Questions

  • CURRENT ELECTRICITY - I AND II

    PATHFINDER|Exercise QUESTION BANK|244 Videos

  • ELECTROMAGNETIC INDUCTION

    PATHFINDER|Exercise QUESTION BANK|30 Videos

Similar Questions

Explore conceptually related problems

Derive the expression for electric field intensity due to a uniformly charged thin spherical shell at a point inside the shell.

Find the electric field intensity due to a uniformly charged spherical shell at a point (i) out side the shell

Using Gauss' law deduce the expression for the electric field due to a uniformly charge spherical conducting shell of radius R at a point (i) outside the shell.

Find the electric field intensity due to a uniformly charged spherical shell at a point (ii) inside the shell. Plot the graph of electric field with distance from the centre of the shell.

Using Gauss' law deduce the expression for the electric field due to a uniformly charge spherical conducting shell of radius R at a point (ii) inside the shell.

Derive the expression for electric field intensity at a point on the axial line of a dipole

Show that the intensity of the electric field at an external point due to a uniformly charged thin spherical shell is the same as if the whole charge were situated at its centre.

Derive the expression for electric field intensity at a point on equatorial line of a dipole

Determine the electric field intensity at a point near a uniformly charged infinite plane lamina.

If E be the intensity of the electric field at a distance r(r gt R) due to a uniformly charged spherical shell, then

PATHFINDER-ELECTRIC CHARGES & FIELDS-QUESTION BANK
  1. Two negative point charges each of magnitude 8xx10^(-8)C and another p...

    Text Solution

    |

  2. A cube of each side a is kept in an electric field given by E=cx (as s...

    Text Solution

    |

  3. Consider two conducting spheres of radii R1 and R2 with R1gtR2. If the...

    Text Solution

    |

  4. Derive the expression for electric field intensity due to a uniformly ...

    Text Solution

    |

  5. Derive the expression for electric field intensity due to a uniformly ...

    Text Solution

    |

  6. Derive the expression for electric field intensity at a point on the...

    Text Solution

    |

  7. Derive the expression for electric field intensity at a point on equ...

    Text Solution

    |

  8. Use Gauss's law to obtain an expression for the electric field due to ...

    Text Solution

    |

  9. An electric dipole of dipole moment oversetrarrp is placed in a unifor...

    Text Solution

    |

  10. Three point charges are kept at the vertices A, B, C, of an equilatera...

    Text Solution

    |

  11. Two identical charged spheres are suspended by strings of equal length...

    Text Solution

    |

  12. An infinite number of charges each equal to q are placed along x-axis ...

    Text Solution

    |

  13. An infinite number of charges each equal to q are placed along x-axis ...

    Text Solution

    |

  14. In a certain region of space, elecric field is along Z direction throu...

    Text Solution

    |

  15. An inclined plane making an angle 30^@ with the horizontal is placed i...

    Text Solution

    |

  16. Two infinite parallel metal plates, contain electric charges with char...

    Text Solution

    |

  17. Two infinite parallel sheets A and B having uniform surface charge den...

    Text Solution

    |

  18. Two infinite parallel sheets A and B have surface charge density +sigm...

    Text Solution

    |

  19. Three infinitely long charge sheets are placed as shown below. Find th...

    Text Solution

    |

  20. An electric dipole AB consists of charges +-5nC and seperated by dista...

    Text Solution

    |