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Part F Constants By Thomsons time, it was known that excited atoms emit light waves of only certain frequencies. In his model, the frequency of emitted light is the same as the oscillation frequency of the electron or electrons in the atom. What would the radius of a Thomson-model atom have to be for it to produce red light of frequency 4.56x1014 Hz ? (see Appendix F from the textbook for data about the electron) In the early years of the 20th century, a leading model of the structure of the atom was that of the English physicist J. J. Thomson (the discoverer of the electron). In Thomsons model, an atom consisted of a sphere of positively charged material in which were embedded negatively charged electrons, like chocolate chips in a ball of cookie dough. Consider such an atom consisting of one electron with mass m and charge -e, which may be regarded as a point charge, and a uniformly charged sphere of charge +e and radius R. Previous Answers Request AnswerPlease explain how to get the answer!! Thank you

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Posrt Part F Thomšons time, it wos known that erciled otoms emit light unwes ot only ts te sone og the oscillation 유eguend in thts model, he frequenc d 예 enshed light the elechon or elechons, in the atom Uhat would the radios d a Thomson-model atom haue to be Por it red tght t frequency 4.56×104 Hz ? to be Solution- An will move n circle at rodius R Lel the Speed d electron V m/s While moving in circle Centripital force Elechie orce me × exe 9 x lo = 9,9 45x10, 1.6x10 V = 15-912 15.912 re 4.56 x104 ー 2-582 312 3/2-3-532 4.56x Io -15 2/3 nm 5.552613 x 1o

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