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2 cm 0.6cm An electron is shot from a gun at 4000 km/s, and travels Into a uniform electric field that is 2 cm long While in the field, the electron feels a force and is deflected from a horizontal path such that it ends up 0.6 cm higher than it would have traveled horizontally a) How much time does the electron spend in the capacitor? b) What is the magnitude of the acceleration on the electron? (What acceleration would result in the deflection seen?) c) What is the magnitude of the force on the electron? d) How big is the electric field that caused the electron to follow this trajectorya e) If you fired a proton instead of an electron, what would be different? Another plece of physles Info: the electron sun In this problem can be made from a setup like in the first problem, In which the plates are vertical so that the particle gets accelerated horizontaly. The electron ill pass through a small hole that Is cut into the second plate. Using many plates that can switch polarity as soon as the electron passes through, you can accelerate the electron to very high speeds. See
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Solutione Time spends in te Cepacitor 2 +-- 2.0x10 - 5 ns 4000 x fo3 In the above tnet covers a vericle. dis placement of o.c cm So O.CX(0--1ct t ㄧ o.CX fo 25 X10 어 Ξ マ 15 Magnitude or FoYce on the etectvon F- mex 15 sufro sette electric held s 1/Al= 2730 N In the downwerd divectibn It there wes c frotom then the difleti arly be downward., Sanne aue. Jequired But Poyce wtu be greater hence tt jequire greater Electme fteld

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