The force is the derivative of the energy W = -Ze2zc/4pir + cP = -vh/w + cP where v=alphaZ c, and Z is the product of the charges in electron and Alpha is the Fine Structure Constant and c is the speed of light. The Energy W has potential enrgy vh/w and the vector Momentum energy cP. This Momentum energy is the so-called "Dark Energy" and accounts for the Momentum energy. cmV=cP. This Momentum energy exists when there is motion of the electron, mV, then there is vector energy cP.
The force is F= XW = [d/dr, DEL] [-vh/w, cP] = [vp/r -cDEl.P, cdP/dr - DEL vh/w + cDElxP]
F = [vp/r -cp/r cos(P), -cp/r 1P + vp/r 1R + cp/r sin(P) 1RxP]
F = cp/r[v/c -cos(P) , -1P + v/c 1R + sin(P) 1RxP], cp/r = cp/ct=p/t = mv/t = ma.
The energy is W = -vh/w + cP where cP is the momentum energy between the charges of electron.
That's the force of repulsion between two positive charges; or between two negative charges.
The product of the two charges and the distance between the charges.
The force between two like charges is a push (they repel each other). The force between two different charges is a pull (they attract each other).
The electromagnetic force between two charges decreases at a rate inversely proportional to the square of the distance between them.
There will be an electrostatic force that causes them to repel one another. This force is inversely related to the distance between to the two charges.
That's the force of repulsion between two positive charges; or between two negative charges.
Yes if the quantities of the charges are unchanged.
The electric lines of force. A repelling force is between two like charges. An attractive force is between two opposite charges.
The product of the two charges and the distance between the charges.
The force between two like charges is a push (they repel each other). The force between two different charges is a pull (they attract each other).
The electromagnetic force between two charges decreases at a rate inversely proportional to the square of the distance between them.
If the charge on the object is double than the force between them is double
There will be an electrostatic force that causes them to repel one another. This force is inversely related to the distance between to the two charges.
The forces in each direction are quadrupled.
When opposite forces of a magnet (Negative and Positive) are close, they attract to each other and vice versa.
When the magnitude of the charges increase definitely electrostatic force also increases. Because the force is directly proportional to the product of their charges. When the distance between them increases then force decreases because the force is inversely proportional to the square of the distance between the charges.
electrostatic force is the force between the two opposite charges where as the electromagnetic force is movement of electrons