At time t=0 a positively charged particle of mass m=2.38 g and charge q=9.6 µC is injected into the region of the uniform magnetic B=B k and electric E=-E k fields with the initial velocity v=vo The magnitudes of the fields: B=0.405 T, E=662 V/m, and the initial speed vo=2.94 m/s are given. Find at what time t, the particle's speed would become equal to v(t)=4.62-vo: t=

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At time t=0 a positively charged particle of mass m=2.38 g and charge q=9.6 µC is injected into the region of the uniform magnetic B=B k and electric E=-E k fields with the initial velocity v=vo
The magnitudes of the fields: B=0.405 T, E=662 V/m, and the initial speed vo=2.94 m/s are given.
Find at what time t, the particle's speed would become equal to v(t)=4.62-vo:
t=
Transcribed Image Text:At time t=0 a positively charged particle of mass m=2.38 g and charge q=9.6 µC is injected into the region of the uniform magnetic B=B k and electric E=-E k fields with the initial velocity v=vo The magnitudes of the fields: B=0.405 T, E=662 V/m, and the initial speed vo=2.94 m/s are given. Find at what time t, the particle's speed would become equal to v(t)=4.62-vo: t=
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