The electric field in a region is given by E→=(A/x3)i^ An expression for the potential in the region assuming the potential at infinity to be zero is
Sahay Sir > Question Answers > The electric field in a region is given by E→=(A/x3)i^ An expression for the potential in the region assuming the potential at infinity to be zero is
The potential (in volts) of a charge distribution is given by V(z)=30−5z^2 for |z|≤1m V(z)=35−10|z| for |z|≥1m. V(z) does not depend on x and y. If this potential is generated by a constant charge per unit volume ρ0 (in units of ϵ0) which is spread over a certain region, then choose the correct statement.
30
Nov
The potential (in volts) of a charge distribution is given by V(z)=30−5z^2 for |z|≤1m V(z)=35−10|z| for |z|≥1m. V(z) does not depend on x and y. If this potential is generated by a constant charge per unit volume ρ0 (in units of ϵ0) which is spread over a certain region, then choose the correct statement. The [...]
Two thin wire rings each having radius R are placed at a distance d apart with their axes coinciding. The charges on the two rings are +Q and -Q. The potential difference between the center of the two rings is :
30
Nov
Two thin wire rings each having radius R are placed at a distance d apart with their axes coinciding. The charges on the two rings are +Q and -Q. The potential difference between the center of the two rings is : The electric field in a region is given by E→=(A/x3)i^ An expression for the [...]
The electric field in a region is given by E→=(A/x3)i^ An expression for the potential in the region assuming the potential at infinity to be zero is
30
Nov
The electric field in a region is given by E→=(A/x3)i^ An expression for the potential in the region assuming the potential at infinity to be zero is The electric field in a region is given by E→=(A/x3)i^ An expression for the potential in the region assuming the potential at infinity to be zero is November [...]