359405 Figure shows a solid hemisphere with a charge of \(5\,nC\) distributed uniformly through its volume. The hemisphere lies on a plane and point \(P\) is located on the plane, along a radial line from the centre of curvature at distance \(15\;cm\). The electric potential at point \(P\) due to the hemisphere, is

359406 The insulation property of air breaks down at \(3 \times {10^6}\;V\;{m^{ - 1}}\). The maximum charge that can be given to a sphere of diameter \(5\;m\) is nearly

359407 Assertion :
\(A\) and \(B\) are two conducting spheres of same radius. A being solid and \(B\) hallow. Both are charged to the same potential. Then, charge on \(A =\) charge on \(B\).
Reason :
Potential on both are same.

359408 The potential of a large liquid drop when eight liquid drops are combined is 20 \(V\). Then the potential of each single drop was

359405 Figure shows a solid hemisphere with a charge of \(5\,nC\) distributed uniformly through its volume. The hemisphere lies on a plane and point \(P\) is located on the plane, along a radial line from the centre of curvature at distance \(15\;cm\). The electric potential at point \(P\) due to the hemisphere, is

359406 The insulation property of air breaks down at \(3 \times {10^6}\;V\;{m^{ - 1}}\). The maximum charge that can be given to a sphere of diameter \(5\;m\) is nearly

359407 Assertion :
\(A\) and \(B\) are two conducting spheres of same radius. A being solid and \(B\) hallow. Both are charged to the same potential. Then, charge on \(A =\) charge on \(B\).
Reason :
Potential on both are same.

359408 The potential of a large liquid drop when eight liquid drops are combined is 20 \(V\). Then the potential of each single drop was

359405 Figure shows a solid hemisphere with a charge of \(5\,nC\) distributed uniformly through its volume. The hemisphere lies on a plane and point \(P\) is located on the plane, along a radial line from the centre of curvature at distance \(15\;cm\). The electric potential at point \(P\) due to the hemisphere, is

359406 The insulation property of air breaks down at \(3 \times {10^6}\;V\;{m^{ - 1}}\). The maximum charge that can be given to a sphere of diameter \(5\;m\) is nearly

359407 Assertion :
\(A\) and \(B\) are two conducting spheres of same radius. A being solid and \(B\) hallow. Both are charged to the same potential. Then, charge on \(A =\) charge on \(B\).
Reason :
Potential on both are same.

359408 The potential of a large liquid drop when eight liquid drops are combined is 20 \(V\). Then the potential of each single drop was

359405 Figure shows a solid hemisphere with a charge of \(5\,nC\) distributed uniformly through its volume. The hemisphere lies on a plane and point \(P\) is located on the plane, along a radial line from the centre of curvature at distance \(15\;cm\). The electric potential at point \(P\) due to the hemisphere, is

359406 The insulation property of air breaks down at \(3 \times {10^6}\;V\;{m^{ - 1}}\). The maximum charge that can be given to a sphere of diameter \(5\;m\) is nearly

359407 Assertion :
\(A\) and \(B\) are two conducting spheres of same radius. A being solid and \(B\) hallow. Both are charged to the same potential. Then, charge on \(A =\) charge on \(B\).
Reason :
Potential on both are same.

359408 The potential of a large liquid drop when eight liquid drops are combined is 20 \(V\). Then the potential of each single drop was