LOYOLA COLLEGE (AUTONOMOUS), CHENNAI – 600 034
... Answer all questions 10 x 2 = 20 1. State two properties of lines of force. 2. Distinguish between polar and non-polar dielectrics. 3. Define magnetic vector potential? 4. Using Ampere’s circuital law find the magnetic field near infinitely long current carrying conductor 5. What is motional e.m.f.? ...
... Answer all questions 10 x 2 = 20 1. State two properties of lines of force. 2. Distinguish between polar and non-polar dielectrics. 3. Define magnetic vector potential? 4. Using Ampere’s circuital law find the magnetic field near infinitely long current carrying conductor 5. What is motional e.m.f.? ...
PHYS6520 Quantum Mechanics II Spring 2013 HW #3
... is the same as the correction from relativistic kinetic energy between the 2s and 2p levels? How easy or difficult is it to achieve an electric field of this magnitude in the laboratory? (c) The Zeeman effect can be calculated with a “weak” or “strong” magnetic field, depending on the size of the energ ...
... is the same as the correction from relativistic kinetic energy between the 2s and 2p levels? How easy or difficult is it to achieve an electric field of this magnitude in the laboratory? (c) The Zeeman effect can be calculated with a “weak” or “strong” magnetic field, depending on the size of the energ ...
Chern-Simons theory and the fractional quantum Hall effect
... The FQHE was first observed for a filling fraction of ν = 13 , and then RH = eh2 ν = 3h e2 . From the point of view of kinetic energy the state with ν = 1/3 is highly degenerate and there is no clear gap in the system: Pauli principle does not forbid the electron to jump to another LL (which costs h ...
... The FQHE was first observed for a filling fraction of ν = 13 , and then RH = eh2 ν = 3h e2 . From the point of view of kinetic energy the state with ν = 1/3 is highly degenerate and there is no clear gap in the system: Pauli principle does not forbid the electron to jump to another LL (which costs h ...
Quantum Atom
... Louis deBroglie Suggested if energy has particle nature then particles should have a wave nature Particle wavelength given by λ = h/ mv ...
... Louis deBroglie Suggested if energy has particle nature then particles should have a wave nature Particle wavelength given by λ = h/ mv ...
Maxwell`s equations in differential forms
... The above formula relating A0 with A is called a “gauge transformation.” In this case, the electromagnetic potential is also called the “gauge potential,” and “choosing a gauge” means choosing A among all possible As for a given F . Here, performing gauge transformation implies choosing another gaug ...
... The above formula relating A0 with A is called a “gauge transformation.” In this case, the electromagnetic potential is also called the “gauge potential,” and “choosing a gauge” means choosing A among all possible As for a given F . Here, performing gauge transformation implies choosing another gaug ...
File - SPHS Devil Physics
... a. Discussing the photoelectric effect experiment and explaining which features of the experiment cannot be explained by the classical wave theory of light b. Solving photoelectric problems both graphically and algebraically c. Discussing experimental evidence for matter waves, including an experime ...
... a. Discussing the photoelectric effect experiment and explaining which features of the experiment cannot be explained by the classical wave theory of light b. Solving photoelectric problems both graphically and algebraically c. Discussing experimental evidence for matter waves, including an experime ...
An Introduction to Gauge theory - Department of Physics
... just with a different spin orientation. It is not a far stretch of the imagination to recognize this assumption. After all, the proton and neutron are very similar, their masses are nearly identical, nuclear forces between them are the same, in fact the only large difference between the two particle ...
... just with a different spin orientation. It is not a far stretch of the imagination to recognize this assumption. After all, the proton and neutron are very similar, their masses are nearly identical, nuclear forces between them are the same, in fact the only large difference between the two particle ...
Does the world embody beautiful ideas? Pythagoras and Plato
... undertaking at CERN, near Geneva, will have the power to create and detect some of them, if they exist. ...
... undertaking at CERN, near Geneva, will have the power to create and detect some of them, if they exist. ...
New Frontiers in Particle Physics.
... free parameters whose values are not explained. What is the origin of gauge symmetry? Why are there 3 generations? Are the particles fundamental? ...
... free parameters whose values are not explained. What is the origin of gauge symmetry? Why are there 3 generations? Are the particles fundamental? ...