Home
Class 11
MATHS
[" 59.An electric field "vec E=vec iAx" ...

[" 59.An electric field "vec E=vec iAx" exists in the space,where "],[A=10Vm^(-2)" .Take the potential at "(10m,20m)" to be "],[" zero.Find the potential at the origin."]

Promotional Banner

Similar Questions

Explore conceptually related problems

An electric field vecE = vec I Ax exists in the space, where A= 10 V m ^(-2). Take the potential at (10m, 20m ) to be zero. Find the potential at the origin.

An electric field vecE = vec I Ax exists in the space, where A= 10 V m ^(-2). Take the potential at (10m, 20m ) to be zero. Find the potential at the origin.

An electric field vecE = vec I Ax exists in the space, where A= 10 V m ^(-2). Take the potential at (10m, 20m ) to be zero. Find the potential at the origin.

An electric field vec(E ) = hat(i) Cx exists in the space, where C = 10 V/ m^(2) . Taking the potential at (10 m, 20 m ) to be zero, find the potential at the origin.

An electric field vec(E)=B x hat(i) exists in space, where B = 20 V//m^(2) . Taking the potential at (2m, 4m) to be zero, find the potential at the origin.

An electric field vec(E)=B x hat(i) exists in space, where B = 20 V//m^(2) . Taking the potential at (2m, 4m) to be zero, find the potential at the origin.

An electric field vecE = vec(i20 + vecj30 ) NC^(-1) exists in the space. If the potential at the origin is taken to be zero find the potential at (2m, 2m).

An electric field vecE = vec(i20 + vecj30 ) NC^(-1) exists in the space. If the potential at the origin is taken to be zero find the potential at (2m, 2m).

An electric field vecE = (20i + 30j) NC^(-1) exists in the space. If the potential at the origin is taken to be zero find the potential at (2m, 2m).

An electric field vec(E)=(10 hat(i) + 20 hat(j)) N//C exists in the space. If the potential at the origin is taken to be zero, find the potential at (3m, 3m).