Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Electric Potential and Potential Energy
Document related concepts
Electric charge wikipedia , lookup
Work (physics) wikipedia , lookup
Conservation of energy wikipedia , lookup
Introduction to gauge theory wikipedia , lookup
Internal energy wikipedia , lookup
Electrical resistivity and conductivity wikipedia , lookup
Quantum potential wikipedia , lookup
Gibbs free energy wikipedia , lookup
Nuclear structure wikipedia , lookup
Aharonov–Bohm effect wikipedia , lookup
Chemical potential wikipedia , lookup
Transcript
Electric Potential and Potential Energy Electric Potential Energy • Electrical potential energy is the energy contained in a configuration of charges. Like all potential energies, when it goes up the configuration is less stable; when it goes down, the configuration is more stable. • Electrical potential energy increases when charges are brought into less favorable configurations (ex:, like-sign charges getting closer together, or unlike-sign charges farther apart). • Electrical potential energy decreases when charges are brought into more favorable configurations. • The unit is the Joule. Different Electric Potentials • Differences in Electric potential are easy to measure. • If 2 places have different potential energies, we say there is a “potential difference” (see pic) d E • We commonly call it “voltage”, and its unit is the Volt. DV (V) Electrical Potential and Potential Energy • The change in potential energy is directly related to the change in voltage. • DU = qDV – DU: change in electrical potential energy (J) – q: charge moved (C) – DV: potential difference (V) • All charges will spontaneously go to lower potential energies if they are allowed to move, like all masses fall to lower gravitational potential energies! Electrical Potential and Potential Energy • Since all charges try to decrease potential energy, and DU = qDV, this means that spontaneous movement of charges result in negative DU. • Positive charges like to DECREASE their potential (DV < 0) • Negative charges like to INCREASE their potential. (DV > 0) Sample Problem A 3.0 μC charge is moved through a potential difference of 640 V. What is its potential energy change? Electrical Potential in Uniform Electric Fields • The electric potential is related in a simple way to a uniform electric field. • DV = -Ed – DV: change in electrical potential (V) – E: Constant electric field strength (N/m or V/m) – d: distance moved (m) E d DV Sample Problem An electric field is parallel to the x-axis. What is its magnitude and direction if the potential difference between x =1.0 m and x = 2.5 m is found to be +900 V? Sample Problem What is the voltmeter reading between A and B? Between A and C? Assume that the electric field has a magnitude of 400 N/m. y(m) 1.0 C A B 1.0 2.0 x(m) Sample Problem How much work would be done BY THE ELECTRIC FIELD in moving a 2 mC charge from A to C? From A to B? from B to C?. How much work would be done my an external force in each case? y(m) 1.0 C A B 1.0 2.0 x(m)
