A velocity selector consists of two parallel plates with an electric field strength of 1600 N/C. Alpha particles with a velocity of vi = 2100 m/s and v2 = 3300 m/s are to be fired horizontally into the middle of the velocity selector (as shown below). The alpha particlestravelling at 3300 m/s are to pass through the velocity selector undeflected, while the slower travelling alpha particles will collide with one of the plates. The effects of gravity can be ignored throughout this question.+,Part ADetermine the required strength of the magnetic fieldnνα ΑΣφ?B =TSubmitRequest AnswerPart BThe required direction of the magnetic field will beO downO upO into the pageO out of the pageSubmitRequest AnswerPart CAn alpha particle is a Helium nucleus, which contains two protons and two neutrons, so it has a mass of 6.68x10-27 kg and a charge of 3.20x10-19 CThe slower moving alpha particles will accelerate vertically and collide with the top (negative plate). What will be the acceleration of the alpha particles travelling at v =2100 m/s ?ΗV ΑΣφ?a =m/s²SubmitRequest Answer

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A velocity selector consists of two parallel plates with an electric field strength of 1600 N/C. Alpha particles with a velocity of vi = 2100 m/s and v2 = 3300 m/s are to be fired horizontally into the middle of the velocity selector (as shown below). The alpha particles travelling at 3300 m/s are to pass through the velocity selector undeflected, while the slower travelling alpha particles will collide with one of the plates. The effects of gravity can be ignored throughout this question. Part A Determine the required strength of the magnetic field B = T Submit Request Answer Part B The required direction of the magnetic field will be O down O up O into the page O out of the page Submit Request Answer Part C An alpha particle is a Helium nucleus, which contains two protons and two neutrons, so it has a mass of 6.68x10-27 kg and a charge of 3.20x10-10 C The slower moving alpha particles will accelerate vertically and collide with the top (negative plate). What will be the acceleration of the alpha particles travelling at vi =2100 m/s ? a = m/s?

A velocity selector consists of two parallel plates with an electric field strength of 1600 N/C. Alpha particles with a velocity of vi = 2100 m/s and v2 = 3300 m/s are to be fired horizontally into the middle of the velocity selector (as shown below). The alpha particles travelling at 3300 m/s are to pass through the velocity selector undeflected, while the slower travelling alpha particles will collide with one of the plates. The effects of gravity can be ignored throughout this question. Part A Determine the required strength of the magnetic field B = T Submit Request Answer Part B The required direction of the magnetic field will be O down O up O into the page O out of the page Submit Request Answer Part C An alpha particle is a Helium nucleus, which contains two protons and two neutrons, so it has a mass of 6.68x10-27 kg and a charge of 3.20x10-10 C The slower moving alpha particles will accelerate vertically and collide with the top (negative plate). What will be the acceleration of the alpha particles travelling at vi =2100 m/s ? a = m/s?