An equipotential surface has the same value of potential. Thus, work done would be zero. Work done = Charge X Potential difference
0, because its equipotential surface
no gauss low is only applicable for closed paths. a plane sheet is not a closed path. for applying gauss law the charge must be inside the closed loop or path... ========================== I'll say "yes". Gauss' law says that the electric flux through a closed surface is proportional to the amount of charge inside the closed surface. The shape of the surface doesn't matter, and the shape of the charge distribution inside it doesn't matter either. If a closed surface encloses a part of a sheet of charge, then the flux through the surface is proportional to the amount of charge that's on the part of the sheet inside the surface. That doesn't bother me at all.
It depends on the amount of charge and nature of charge i.e. whether positive or negative
The distance, and the amount of charge on each object.
Glass is an insulator and will not allow excess charge to leave, as insulators prevent electrons from flowing freely from atom to atom.
what is the geometrical shape of equipotential surface due to single isolated charge
0, because its equipotential surface
yes
concentric spherical surfaces
Yes the Earth has a vertical electric field that points down. So if you were to try and calculate the amount of excess charge on the Earth's surface, you would get a negative value.
It's all chemical energy with a small amount of surface charge.
A service charge is typically a charge for a specific action that a company performs on an account or an order. A finance charge is an amount of interest that is charged on an amount of principal owed by a customer.
no gauss low is only applicable for closed paths. a plane sheet is not a closed path. for applying gauss law the charge must be inside the closed loop or path... ========================== I'll say "yes". Gauss' law says that the electric flux through a closed surface is proportional to the amount of charge inside the closed surface. The shape of the surface doesn't matter, and the shape of the charge distribution inside it doesn't matter either. If a closed surface encloses a part of a sheet of charge, then the flux through the surface is proportional to the amount of charge that's on the part of the sheet inside the surface. That doesn't bother me at all.
Write off is the difference between total charge and the allowable amount by the insurace. Write off is the difference between total charge and the allowable amount by the insurace.
Atoms normally contain equal numbers of protons and electrons. The amount of positive charge on a single proton is identical to the amount of negative charge on a single electron. So atoms and, therefore, the body from which they are formed, are normally neutral because the amount of positive charge is exactly countered by the amount of negative charge. A body acquires a charge if there is an imbalance between the number of protons and electrons within its atoms. If the electrons outnumber the protons, then the body acquires a negative charge; if the protons outnumber the electrons, then the body acquires a positive charge. The amount of charge is determined by the amount of imbalance between protons and electrons. WebRep currentVote noRating noWeight
This theorem gives a relation between the total flux through any surface and net charge enclosed within the surface.
It depends on the amount of charge and nature of charge i.e. whether positive or negative