Question.5060 - Let’s take a break from all of the “book learning” and explore the world around you. For these assignments, your writing will be focused on Everyday Physics which will help you connect your Readings to things that have happened in the world around you. Your posts should be interesting and well written.In this module, you will look for an article or news story/video that relates to one or more of the following topics:Special relativityPhotonsPhotoelectric effectQuantum mechanicsThese are pretty broad topics, but a few ideas should spring readily to mind.
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Hello xxxxxxxxx and xxxxxxxx I xxxxx like xx discuss xxxxx photoelectric xxxxxx which xxxxxxxxxx is xxxxxxxxx by xxx experiment xx Robert x Millikan's xxxxx the xxxxxxxxxxxxxxxxxxxxx for xxxxxxx advanced xxxxxxxxxxxx whereby xxxxxxx interaction xxxxxxx electromagnetic xxxxxxxxx and xxxxxx is xxxxxxxxx his xxxxxx precision xxxxxxxxxxxx of xxxxxxxxxxxxxxxxxxxxxxx equation xx hv x wherein x is xxxxxxxx constant x is xxx incident xxxxx frequency xxx is xxx work xxxxxxxx of xxx material xxxxxxxx conclusive xxxxxxxx for xxxxxxxxx energy xxxxxxxx betweenincident xxxxxxx and xxxxx electrons xxxxxx Firstly xxxxxxxxxxx photodetector xxx charge xxxxxxx devices xxxxx the xxxxxxxxxxxxx effect xx the xxxxxxxxx when xxxxxxxx photons xxxxxx the xxxxxxxxxx work xxxxxxxx photoelectrons xxx liberated xxx accelerated xx generate x measurable xxxxxxx the xxxxxx relationship xxxxxxx the xxxxxx frequency xxx kinetic xxxxxx as xxxxxxxx measured xxxxxxx spectral xxxxxxxxxxx and xxxxxxx efficiency xxx be xxxxxxxxx calibrated xxxxxx Secondly xxxxxxxxxxx the xxxxx cells xxxx works xx the xxxxxxxxxx of xxxxxxxxxxxxx photons xxxxxxxx a xxxxxxxxxxxxx junction xxxxx is xxxxxxxx silicon xxxxx transfers xxxxxx toelectrons xxxxxxxxx them xxxxxx the xxxxxxx analogous xx overcoming x work xxxxxxxx Holton xxxxx the xxxxxxxxxx physics xxxxxxx the xxxxxxxxxxxxx effect x wherediscrete xxxxxx absorption xx governed xx hv xxxxx to xxxxxx carrier xxxxxxxxxx and xxxxxxx generation xxxxxxxxxx accurate xxxxxxxxxxxxx of x enabled xxxx precise xxxxxxxx ofband xxxxxxxxx interactions xxxxxx Thirdly xxxxxxxxxxx the xxxxxx concept xxxx originally xxxxxxxx by xxxxxxxx despite xxx experimental xxxxxxxxxxxx underpins xxxxxxx electrodynamics xxx quantum xxxxxxxxxxxxxxxxxx where xxxxxxx like xxxxxx photon xxxxxxxxx quantum xxxxxxxxxxxx systems xxx entangled xxxxxx sources xxxx on xxx ability xx treat xxxxx as xxxxxxxxx packetstransferring xxxxxxxx energy xx to xxxxxxxxx a xxxxxxxxx born xxxxxxxx from xxxxxxxxxxxxx interaction xxxxxx Holton xxxxxxx on xxxxxxxxx with xxxxxxxxxx experimental xxxxxxxxxxx in xxxxxxxxxx confirming xxxxxxxxxx photoelectric xxxxxxxx did xxxx than xxxxxx a xxxxxxxxx value xx Planck'sconstant xx concretized xxx photon xxxxxxx as x real xxxxxxxxx energy xxxxxxx also xxxxxxxxxx methodology xxxxxxxxx stopping xxxxxxxxxx against xxxxxxxxxxxxx frequencies xxxxxx experimental xxxxxxxxx that xxxxx undergirds xxxxxxxxxxxxxx technology xxx quantum xxxxxxxxxxx theory xx modern xxxxxxx ReferencesHolton x January xxxxxxx Milestones xxxxxxxxxx measurement xx Planck's xxxxxxxx Physics xxxxx physics xxx org xxxxxxxx vMore Articles From PHYS 250 Physics III for Engineers
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