Quantum Physics Ppt 78923

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outline introduction problems of classical physics black body radiation experimental observations wien s displacement law stefan boltzmann law rayleigh jeans wien s radiation law planck s radiation law photoelectric effect ...

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                   Outline
     Introduction
     Problems of classical physics
      Black-body Radiation
        experimental observations
        Wien’s displacement law
        Stefan – Boltzmann law
        Rayleigh - Jeans
        Wien’s radiation law
        Planck’s  radiation law
    photoelectric effect
        observation 
        studies
        Einstein’s explanation
    Quantum mechanics
       Features 
       postulates
     Summary
    Quantum Physics
                                          2
       Question: What do these have in common?
          lasers
          solar cells
          transistors
          computer chips
          CCDs  in digital cameras
          Ipods
          superconductors
          .........
       Answer: 
          They are all based on the  quantum physics discovered in 
           the 20th century.
                                                        3
       “Classical” vs “modern” physics
                                          4
            Why Quantum Physics?
   “Classical Physics”:
                th  th
        developed in 15  to 20  century;
      provides very successful description “macroscopic phenomena, i.e. 
       behavior of “every day, ordinary objects”
        o motion of trains, cars, bullets,….
        o  orbit of moon, planets
        o  how an engine works,..
        o Electrical and magnetic phenomena
      subfields: mechanics, thermodynamics,  electrodynamics,
   “There is nothing new to be discovered in physics now. All that remains 
     is more and more precise measurement.” 
            --- William Thomson (Lord Kelvin), 1900
                                                5
        Why Quantum Physics? – (2)
  Quantum Physics:
     developed early 20th century, in response to shortcomings of classical physics in 
      describing certain phenomena (blackbody radiation,  photoelectric effect, emission 
      and absorption spectra…)
      describes  microscopic phenomena, e.g. behavior of atoms,  photon-atom scattering 
      and flow of the electrons in a semiconductor.
  Quantum Mechanics
     a collection of postulates based on a huge number of experimental observations.
     Extremely successful theory 
                                          6

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...Outline introduction problems of classical physics black body radiation experimental observations wien s displacement law stefan boltzmann rayleigh jeans planck photoelectric effect observation studies einstein explanation quantum mechanics features postulates summary question what do these have in common lasers solar cells transistors computer chips ccds digital cameras ipods superconductors answer they are all based on the discovered th century vs modern why developed to provides very successful description macroscopic phenomena i e behavior every day ordinary objects o motion trains cars bullets orbit moon planets how an engine works electrical and magnetic subfields thermodynamics electrodynamics there is nothing new be now that remains more precise measurement william thomson lord kelvin early response shortcomings describing certain blackbody emission absorption spectra describes microscopic g atoms photon atom scattering flow electrons a semiconductor collection huge number extr...

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