Explain the physical interpretation of the four Maxwell relation. (Explain individually)
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Explain the physical interpretation of the four Maxwell relation.
(Explain individually)
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- When we model light (EM radiation) as a particle, we call it a photon a packet of energy. How does this work with the model of light as a wave? To think through this, answer the following: If the intensity of a beam of light is related to the number of photons passing per second, how would you explain the intensity of light using the model of light as a wave? What feature (wavelength, frequency, amplitude, oscillation, etc.) can be a measure of intensity and why do you think so? Enter your answer here6. The Aharonov-Bohm effect is strong evidence that the vector potential A and scalar potential V are fundamental rather than B and E. In other words, the properties of a particle can be effected by changes in A or V, even if B and E remain constant and zero. Give an exact example where A changes but Band jare unaffected. You can be as cute or as boring as you like with this one. ☺Quantum mechanics (Black Body Radiation) Use both languages: English (50 words max) and Math, when appropriate. a) What is an ideal black body? b) Give two examples for situations when the emitted radiation can be treated as a black body ration
- Which of the following is true regarding the Rayleigh Jeans law? (select all that apply) O It is based on classical thermodynamics O It is based on quantum physics O The predictions for the spectral emission of light (intensity as a function of temperature and wavelength) matched with experimental data for small wavelengths (high frequency) O The predictions for the spectral emission of light (intensity as a fucntion of temperature and wavelength) matched with experimental data for large wavelengths (low frequency)A radiating quadrupole consists of a square of side a with charges ±q at alternate corners. The square rotates with angular velocity ω about an axis normal to the plane of the square and through its center. Calculate the quadrupole moments, the radiation fields, the angular distribution of radiation, and the total radiated power, all in the long-wavelength approximation. What is the frequency of the radiation?6. In Dirac notation, after the equation Bø) = b|p)is solved, we often write the solutions as {|Øn)} and {bn}. The name given to {b,} is it is the spectrum of the operator B . Essentially problem 5 and problem 6 are describing identical situations. What is the relationship between pn (x) and |Øn)? To answer this, give a mathematical answer and a physical interpretation of what it means. Hint: If you do not know how to answer this off the top of your head as being obvious, review my notes on Dirac notation and how vectors are used in quantum mechanics.
- Orthogonal Polarizations. Show that if two elliptically polarized states are orthogonal, the major axes of their ellipses are perpendicular and the senses of rotation are opposite.Use de Broglie's hypothesis to determine the speed of the electron in a hydrogen atom when in the n = 3 orbit, whose radius is 4.8x10-10 m. Three de Broglie wavelengths should fit around the n = 3 orbit. Express your answer with the appropriate units.No Spacing Heading 1 Normal Aa v A A 困、 Paragraph Styles The action along a path is defined to be: S = [(K.E.-P. E.) dt Determine the physical units of action. Detail Feynman's approach to calculating the probability amplitude for an electron to go from one event A to another B using the "sum over all paths". A'Focus 12 1> 12
- The electric field has been measured to be horizontal and to the right everywhere on the closed box as shown in the figure below. All over the left side of the box Ej = 107 V/m, and all over the right (slanting) side of the box E2 = 358 V/m. On the top the average field is E3 = 160 V/m,on the front and back the average field is E4 = 180 V/m, and on the bottom the average field is E5 = 200 V/m. E3 E1 12 cm E2 E4 5 cm Es 18 cm How much charge is inside the box?Is this a maxwell-boltzman distribution curve or is this a curve having to with blackbody radiation?I think it is a boltzmann distribution.How do you use the Schrodinger equation to determine a particle’s position in free space?