A point charge q is placed at a distance d from the centre of an uncharged conducting sphere of radius r. The potential of the sphere is (d > r):
Answers
Answer:
Charge =q
Charge =qdistance =2R
Charge =qdistance =2Rradius =R
Charge =qdistance =2Rradius =RV= Potential at centre of the shell due to charge induced on shell.
Charge =qdistance =2Rradius =RV= Potential at centre of the shell due to charge induced on shell.As the electric field inside a conductor is zero. The electrostatic potential is constant it. The potential at centre will be the potential of entire conductor. The entire charge of conductor is on surface N.
Charge =qdistance =2Rradius =RV= Potential at centre of the shell due to charge induced on shell.As the electric field inside a conductor is zero. The electrostatic potential is constant it. The potential at centre will be the potential of entire conductor. The entire charge of conductor is on surface N.Now, V=
Charge =qdistance =2Rradius =RV= Potential at centre of the shell due to charge induced on shell.As the electric field inside a conductor is zero. The electrostatic potential is constant it. The potential at centre will be the potential of entire conductor. The entire charge of conductor is on surface N.Now, V= 4πϵ
Charge =qdistance =2Rradius =RV= Potential at centre of the shell due to charge induced on shell.As the electric field inside a conductor is zero. The electrostatic potential is constant it. The potential at centre will be the potential of entire conductor. The entire charge of conductor is on surface N.Now, V= 4πϵ 0
Charge =qdistance =2Rradius =RV= Potential at centre of the shell due to charge induced on shell.As the electric field inside a conductor is zero. The electrostatic potential is constant it. The potential at centre will be the potential of entire conductor. The entire charge of conductor is on surface N.Now, V= 4πϵ 0
Charge =qdistance =2Rradius =RV= Potential at centre of the shell due to charge induced on shell.As the electric field inside a conductor is zero. The electrostatic potential is constant it. The potential at centre will be the potential of entire conductor. The entire charge of conductor is on surface N.Now, V= 4πϵ 0
Charge =qdistance =2Rradius =RV= Potential at centre of the shell due to charge induced on shell.As the electric field inside a conductor is zero. The electrostatic potential is constant it. The potential at centre will be the potential of entire conductor. The entire charge of conductor is on surface N.Now, V= 4πϵ 0 −1
Charge =qdistance =2Rradius =RV= Potential at centre of the shell due to charge induced on shell.As the electric field inside a conductor is zero. The electrostatic potential is constant it. The potential at centre will be the potential of entire conductor. The entire charge of conductor is on surface N.Now, V= 4πϵ 0 −1
Charge =qdistance =2Rradius =RV= Potential at centre of the shell due to charge induced on shell.As the electric field inside a conductor is zero. The electrostatic potential is constant it. The potential at centre will be the potential of entire conductor. The entire charge of conductor is on surface N.Now, V= 4πϵ 0 −1
Charge =qdistance =2Rradius =RV= Potential at centre of the shell due to charge induced on shell.As the electric field inside a conductor is zero. The electrostatic potential is constant it. The potential at centre will be the potential of entire conductor. The entire charge of conductor is on surface N.Now, V= 4πϵ 0 −1 R
Charge =qdistance =2Rradius =RV= Potential at centre of the shell due to charge induced on shell.As the electric field inside a conductor is zero. The electrostatic potential is constant it. The potential at centre will be the potential of entire conductor. The entire charge of conductor is on surface N.Now, V= 4πϵ 0 −1 Rq
Charge =qdistance =2Rradius =RV= Potential at centre of the shell due to charge induced on shell.As the electric field inside a conductor is zero. The electrostatic potential is constant it. The potential at centre will be the potential of entire conductor. The entire charge of conductor is on surface N.Now, V= 4πϵ 0 −1 Rq
Charge =qdistance =2Rradius =RV= Potential at centre of the shell due to charge induced on shell.As the electric field inside a conductor is zero. The electrostatic potential is constant it. The potential at centre will be the potential of entire conductor. The entire charge of conductor is on surface N.Now, V= 4πϵ 0 −1 Rq
Charge =qdistance =2Rradius =RV= Potential at centre of the shell due to charge induced on shell.As the electric field inside a conductor is zero. The electrostatic potential is constant it. The potential at centre will be the potential of entire conductor. The entire charge of conductor is on surface N.Now, V= 4πϵ 0 −1 Rq The (−Ve) sign due to spherical shell of centre (inside).