yes it can We have Epsilon equals charge by area imagine a photographic enlargement of the charge inside which this point charge exists then you can calculate B(Mag. Field intensity) We have E=Int.(B.dA) Was ur doubt clarified?
There is no electric between two positive charges
Apply this formula
E = 9 x 109 q/r2
Electric field is dependent on the magnitude of the electric charge, E = qzc/r2
Light and all other electromagnetic waves are produced by charged particles. Every charged particle has an electric field surrounding it.
If the charge is uniformly distributed over the shell, then the electric field is zero everywhere inside.
A moving electric charge will produce a magnetic field.A moving electric charge will produce a magnetic field.A moving electric charge will produce a magnetic field.A moving electric charge will produce a magnetic field.
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.
Yes. The electric field in physics is represented by a vector, it has three components governing the field strength in the up-down, left-right and forward-backwards directions.
The electric field around an electric charge varies inversely as the square of the distance to the charge.
A spherical conductor with a radius of 14.0 cm and charge of 26.0 microcoulombs. Calculate the electric field at (a)r=10.0cm and (b)r=20.0cm and (c)r=14.0 from the center.
Magnetic fields do, because there's no such thing as an isolated magnetic "pole", and a magnetic line always starts and ends at opposite poles of the same magnetized object. But electric fields don't. You can easily have a bundle of isolated positive charge over here and a bundle of isolated negative charge over there, whereupon the lines of the electric field start on one bundle and end on the other bundle. But electric field lines can also exist in closed loops, and they do that in radio waves, where the electromagnetic field propagates with an electric field component and a magnetic field component, and they both form closed loops.
The electric field gets stronger as you get closer to an electric charge.
Electric field is dependent on the magnitude of the electric charge, E = qzc/r2
Calculate the field due to an electric dipole of length 10 cm and consisting of charges of -+ 100 μC at appoint 20cm from each charge
Every electric charge is surrounded by an electric field.
An electric field.
electric field due to a single charge.
It's the electric field.
Since neutrons have no charge, they are not influenced measurably by an electric field.