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
electric force between 2 charges is equal to product of the amount of charge(in units) of both particles and a constant 9*109 divided by the square of the distance between them.
Moving electric charges create electromagnetic fields.
That depends on where the charges are, and the magnitude of the charges. In general, you must calculate the vector for the force due to each individual charge, then add all the vectors together.
If you are referring to the flow of electric charges it is called electrical energy.
Electric fields start on positive charges and terminate on negative charges..
Q1:How to calculate electric potential due to a dipole? Q2:How to calculate electric potential due to ring of charges? Q3:How to calculate electric potential due to charge disk? Q4:how to calculate electric potential due to a quadrupole?
electric force between 2 charges is equal to product of the amount of charge(in units) of both particles and a constant 9*109 divided by the square of the distance between them.
The flow of electric charges is current.
Moving electric charges create electromagnetic fields.
flow of electricity through a conductor are electric charges
Like electric charges - charges of the same sign - repel each other.
That depends on where the charges are, and the magnitude of the charges. In general, you must calculate the vector for the force due to each individual charge, then add all the vectors together.
Electric fields start on positive charges and terminate on negative charges..
If you are referring to the flow of electric charges it is called electrical energy.
Electric current is defined as the movement of electrical charges.
the electric charges is measured in terms of electrons gained or lost.it is expressed in colombos .
electric current