Home
Class 12
PHYSICS
Magnitude of electric field only on the ...

Magnitude of electric field only on the x-coordinate as `vec(E)=20/x^(2) hat(i) V//m`. Find
(i) The potential difference between two points A (5m, 0) and B (10m, 0).
(ii) Potential at `x = 5` if V at `oo` is 10 volt.
(iii) In part (i), does the potential difference between a and B depend on whether the potential at `oo` is 10 volt or something else.

Text Solution

Verified by Experts

Given, `vec(E)=20/x^(2) hat(i) V//m`
We know that : `intdV=-int vec(E).vec(dr)" "implies" "underset(V_(1))overset(V_(2))(int)dV=-underset(x_(1))overset(x_(2))(int) 20/x^(2) dx`
`:.` Potential difference, `DeltaV=20/x|_(x_(1))^(x_(2))" "implies" "V_(2)-V_(1)=20/x_(2)-20/x_(1)`
(i) Potential difference between point A and B `(DeltaV" for A to B")`
`V_(B)-V_(A)=20/10-20/5=-2` volt
(ii) `DeltaV` for `x=oo` to `x=5`
`V_(5)-V_(oo)=20/5-20/oo" ":." "V_(5)=10+4=14` volt
(iii) Potential difference between two point does not depend on reference value of potential. So, the potential difference between a and B does not depend on whether the potential at `oo` is 10 volt ot something else.
Promotional Banner

Topper's Solved these Questions

  • ELECTROSTATICS

    RESONANCE|Exercise Exercise-1 Section (A)|9 Videos

  • ELECTROSTATICS

    RESONANCE|Exercise Exercise-1 Section (B)|12 Videos

  • ELECTROSTATICS

    RESONANCE|Exercise HLP|39 Videos

  • ELECTROMAGNETIC INDUCTION

    RESONANCE|Exercise A.l.P|19 Videos

  • EXPERIMENTAL PHYSICS

    RESONANCE|Exercise PART -II|10 Videos

Similar Questions

Explore conceptually related problems

Potential difference between points A and B (i.e. V_(A) - V_(B) ) is -----

In any region, if electric field is define as bar(E ) = ( hat(i) + 2 hat(j)+ hat(k))V//m , then the potential differnece between two points A ( 0,0,0) and B ( 2,3,4) in that region is

Uniform electric field of magnitude 100 V//m in space is directed along the line y=3+x . Find the potential difference between point A (3, 1) & B(1, 3)

An electric field is described as vec(E) = hat(i)x + hat(k) z . The potential difference V_(AB) (in volt) between A(0,0,0) and B(2,2,0) is :

Find the potential difference between the points A and B . (a) If V_A - V_B = 5 V , find voltage across each capacitor.

If the electric field is given by vec(E ) = ((100)/(x^(2)))i the potential difference between points x=10m and x=20m in volts is

Electric field at a distance x from the origin is given as E =(100N-m^2//C)/x^2 . Then potential difference between the points situated at x = 10 m and x = 20m is :-

A uniform electric field of 30NC^(-1) exists along the X-axis calculate the potential difference V_(B)-V_(A) between the points A (4m,2m) and B(10m,5m).

A uniform electric field is along x-axis. The potential difference V_(A)-V_(B)=10 V is between two points A (2m, 3m) and (4m, 8m). Find the electric field intensity.

RESONANCE-ELECTROSTATICS-Problems
  1. A charges Q is placed at each of the two opposite corners of a square....

    Text Solution

    |

  2. An infinitely large non-conducting sheet of thickness t and uniform vo...

    Text Solution

    |

  3. Figure shows a uniformly charged thin non-conducting sphere of total c...

    Text Solution

    |

  4. Figure shows two concentric spheres of radii R(1) and R(2) (R(2) gt R(...

    Text Solution

    |

  5. A solid non conducting sphere of radius R and uniform volume density r...

    Text Solution

    |

  6. Three identical spheres, each having a charge q and radius R. are kept...

    Text Solution

    |

  7. A uniform electric field of 20 N/C exists in the vertically downward d...

    Text Solution

    |

  8. An electric field of 10 N/C exists along the x-axis in space. Calculat...

    Text Solution

    |

  9. Some equi-potential surfaces are shown in figure. What can you say abo...

    Text Solution

    |

  10. A point charge of charge -q and mass m is released with negligible spe...

    Text Solution

    |

  11. Four small point charges (each of equal magnitude q) are placed at fou...

    Text Solution

    |

  12. If V=x^(2)y+y^(2)z then find vec(E) at (x, y, z)

    Text Solution

    |

  13. Magnitude of electric field only on the x-coordinate as vec(E)=20/x^(2...

    Text Solution

    |

  14. If E=2r^(2) then find V(r)

    Text Solution

    |

  15. A charge Q is uniformly distributed over a rod of length l. Consider a...

    Text Solution

    |

  16. A charge Q is placed at the centre of a cube. Find the flux of the ele...

    Text Solution

    |

  17. An isolated conducting sphere of charge Q and radius R is grounded by ...

    Text Solution

    |

  18. An isolated conducting sheet of area A and carrying a charge Q is plac...

    Text Solution

    |

  19. Two uncharged and parallel conducting sheets, each of area A are place...

    Text Solution

    |

  20. A positive charge q is placed in front of conducting solid cube at a d...

    Text Solution

    |