The question is too general. There are books dedicated to exactly this subject. Example:
Boundary-layer theory By Hermann Schlichting, K. Gersten.
if the potential difference between the 2 plates be V & separation of the plates=d
electric field=V/d directed from the lower potential plate to higher potential plate
Sorry, but there is only an electric field between capacitor plates. Forget the magnetic field there.
Scroll down to related links and look at "Capacitor - Wikipedia".
220 volts/5.2 millimeter = 220/0.0052 = 42,307.7 volts per meter (rounded)
no electric field is not a potential field .ELECTRIC FIELD IS A SCALAR QUANTITY WHERE AS POTENTIAL IS THE VECTOR QUANTITY. NO SCALAR QUANTITY HAS A FIELD SO THERE IS NO RELATION BETWEEN ELECTRIC FIELD AND POTENTIAL OR IN OTHER WORD POTENTIAL HAS NO FIELD <<>> An electric field is a vector field, because it has magnitude and direction. A pair of charged parallel plates has an electric field between them directed from the negative to the positive plate. The electric field is the gradient of the potential, which is another field but a scalar one. A field is just a quantity with a value that depends on positon. The potential is measured in volts and if one plate is grounded and the other at positive potential V, the potential rises from zero to V as the position changes from the lower plate to the top one.
20,000/0.019 = 1,052,632 volts/meter (rounded)
THE MAGNITUDE OF ELECTRIC FIELD IS kq/radius-square . IF THE Q[THAT IS CHARGE ] IS BIGGER IN MAGNITUDE OR IF THE DISTANCE BETWEEN THE CHARGE PARTICLE AND POINT CHARGE IS MINIMUM THAN WE CAN SAY THAT IT IS A STRONG ELECTRIC FIELD
The direction of the electric field produced by a charged object is never parallel to the object's surface. It's in the direction of a radius that begins at the object's center of charge.
A uniform electric field exists between parallel plates of equal but opposite charges.
If you mean an electric field it is the field that surrounds an electric charge. If you have two parallel plates with positive and negative charges, the amount of electric field in the space between the plates is the voltage difference divided by the distance. Electric field E is measured in volts per metre.
No, the Poynting vector does not point radially outward in the volume between the plates of a parallel plate capacitor. The Poynting vector represents the direction and flow of electromagnetic energy, and in the case of a static electric field between the plates, the Poynting vector is zero within the volume between the plates.
220 volts/5.2 millimeter = 220/0.0052 = 42,307.7 volts per meter (rounded)
no electric field is not a potential field .ELECTRIC FIELD IS A SCALAR QUANTITY WHERE AS POTENTIAL IS THE VECTOR QUANTITY. NO SCALAR QUANTITY HAS A FIELD SO THERE IS NO RELATION BETWEEN ELECTRIC FIELD AND POTENTIAL OR IN OTHER WORD POTENTIAL HAS NO FIELD <<>> An electric field is a vector field, because it has magnitude and direction. A pair of charged parallel plates has an electric field between them directed from the negative to the positive plate. The electric field is the gradient of the potential, which is another field but a scalar one. A field is just a quantity with a value that depends on positon. The potential is measured in volts and if one plate is grounded and the other at positive potential V, the potential rises from zero to V as the position changes from the lower plate to the top one.
capacitance is inversely proportional to the separation between the platesproof :-electric field is ;- k/E0where k- surface charge density of the plateand potential difference is given by kl/E0and, capacitance by C=Q/Vso, capacitance is inversely proportional to separation between the plates
Apparent boost in lows because of full track being played on multitrack machines. If you have two parallel plates forming a capacitor, the electric field does not end abruptly at the edge of the plates. There is some field outside that plates that curves from one to the other. This causes the real capacitance to be larger than what you'd calculate using the ideal formula. You have more electric field because of the fringe fields.
They store charge between their plates in an electric field
9/3 = 3 volts per millimeter = 3,000 volts per meter.
Capacitance is directly proportional to the area of the plates divided by the distance between the two plates. The farther away the plates are the lower capacitance will be. A capacitor stores energy in the electric field between the two plates. If those plates are very far apart, the field gets crappy real fast.
ELECTRIC FIELD The electric of a charge is the region of space surrounding in which a point charge can experience its influence in the form of a force The regon around any charged body in which coloumb's force is experienced by some other charged body is called "electric field" of the first body.
Electric fields exist everywhere there is an electrical potential difference between one place and another. A simple radio antenna has an alternating electric field from one end of an element to the other.