Exam 2 Physics 195B (3/14/02)
... 10. The electric potential of an isolated metallic spherical shell of radius R is 40 kV when the potential is taken to be zero at infinity. What is the electric potential produced by the charged shell at a point that is at a distance 2R from the center? (a) 10 kV (b) 20 kV (c) 80 kV (d) cannot be d ...
... 10. The electric potential of an isolated metallic spherical shell of radius R is 40 kV when the potential is taken to be zero at infinity. What is the electric potential produced by the charged shell at a point that is at a distance 2R from the center? (a) 10 kV (b) 20 kV (c) 80 kV (d) cannot be d ...
Interplay of AharonovBohm and Berry Phases for a Quantum Cloud
... following.) The rule allows that we can replace the electron cloud with a point charge at the center of the atom and the semifluxons with “shadow” fluxons. A shadow fluxon is a point at which two electronic energy levels cross, if the center of the atom sits there. The winding number of the path of ...
... following.) The rule allows that we can replace the electron cloud with a point charge at the center of the atom and the semifluxons with “shadow” fluxons. A shadow fluxon is a point at which two electronic energy levels cross, if the center of the atom sits there. The winding number of the path of ...
click - Uplift Education
... If a conductor is moved through a magnetic field, the charges are pushed by the magnetic force. This leads to an accumulation of charge -- or potential difference -- on one side of the conductor. This process is called electromagnetic induction. If connected to a circuit, this induced potential diff ...
... If a conductor is moved through a magnetic field, the charges are pushed by the magnetic force. This leads to an accumulation of charge -- or potential difference -- on one side of the conductor. This process is called electromagnetic induction. If connected to a circuit, this induced potential diff ...
Sample Exam 3 - courses.psu.edu
... Each question may have one answer which is more correct than the others. Be sure to read all five answers so than you will not miss the best one. The last page has a list of equations you may find useful and may be detached for use during the exam. ...
... Each question may have one answer which is more correct than the others. Be sure to read all five answers so than you will not miss the best one. The last page has a list of equations you may find useful and may be detached for use during the exam. ...
Physics 2049 Exam 3 Solutions Wednesday, October
... the force of gravity)? Recall that g = 9.8 m/s . Answer: 4.9 × 10−2 T Solution: The magnetic field needs to be horizontal, directed so that the magnetic force points up. The magnitude of the magnetic force in this case is ilB, with i the current, l the length of the wire, and B the magnitude of the ...
... the force of gravity)? Recall that g = 9.8 m/s . Answer: 4.9 × 10−2 T Solution: The magnetic field needs to be horizontal, directed so that the magnetic force points up. The magnitude of the magnetic force in this case is ilB, with i the current, l the length of the wire, and B the magnitude of the ...
PPT - University of Iowa Physics
... • The “kink” in the electric field line OL, due to the accel. of q, moves outward along OL with velocity c. At the end of the interval + t, it will have reached N. • After passing P1, q moves with uniform velocity v and a point on the electric field line which leaves q at P1 has moved uniformly ou ...
... • The “kink” in the electric field line OL, due to the accel. of q, moves outward along OL with velocity c. At the end of the interval + t, it will have reached N. • After passing P1, q moves with uniform velocity v and a point on the electric field line which leaves q at P1 has moved uniformly ou ...
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... o In dense plasmas, Coulomb forces couple particles, so bulk motion of plasma is significant. o In rarefied plasmas charge particles do not interact with one another significantly, so so motion of each particle can be treated independently. o In general, equation of motion of particle of mass m u ...
... o In dense plasmas, Coulomb forces couple particles, so bulk motion of plasma is significant. o In rarefied plasmas charge particles do not interact with one another significantly, so so motion of each particle can be treated independently. o In general, equation of motion of particle of mass m u ...
Magnetohydrodynamics (MHD).
... respect to the external magnetic field) at the velocity V, applying the Lorentz transformation we obtain E0 = E + V × B. ...
... respect to the external magnetic field) at the velocity V, applying the Lorentz transformation we obtain E0 = E + V × B. ...
... (note that A 0 because by the continuity equation for a stationary situation 'J 0 .) From the definition of the vector potential, and using Stokes theorem we find that the magnetic flux through an area S is given by the contour integral around the loop closing that area ...
... (note that A 0 because by the continuity equation for a stationary situation 'J 0 .) From the definition of the vector potential, and using Stokes theorem we find that the magnetic flux through an area S is given by the contour integral around the loop closing that area ...
