Consider a Thomson's mass spectrograph where a B field of 4.15x10²³ Wb/m² is antiparallel to a coexisting E field. Assume doubly ionized atoms are accelerated through the distance x₁=24 cm and then travel x2=88 cm farther at a uniform speed before striking a fluorescent screen. If the y- leflection data associated with the E field yields vx=2x105 m/s and the total z-displacement is 24 m, what is the mass of the ions?
Consider a Thomson's mass spectrograph where a B field of 4.15x10²³ Wb/m² is antiparallel to a coexisting E field. Assume doubly ionized atoms are accelerated through the distance x₁=24 cm and then travel x2=88 cm farther at a uniform speed before striking a fluorescent screen. If the y- leflection data associated with the E field yields vx=2x105 m/s and the total z-displacement is 24 m, what is the mass of the ions?
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Transcribed Image Text:Consider a Thomson's mass spectrograph where a B field of 4.15x1023 Wb/m² is antiparallel to a
coexisting E field. Assume doubly ionized atoms are accelerated through the distance x₁=24 cm
and then travel x2=88 cm farther at a uniform speed before striking a fluorescent screen. If the y-
deflection data associated with the E field yields vx=2x105 m/s and the total z-displacement is 24
cm, what is the mass of the ions?
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