The electron would need to attain a speed of at least [tex]2.813*10^7 m/s[/tex]
Data;
The distance of the electron from the center of the sphere = (1 + 1)mm = 2mm.
[tex]2mm = 2.0*10^-3m[/tex]
Using centrifugal force of attraction and coulomb's law, we can determine the speed which the electron needs.
[tex]\frac{mV^2}{R}=\frac{Kq_1q_2}{r^2}\\ K = \frac{1}{4\pi \epsilon } \\ V^2 = \frac{q_1R\\}{4\pi \epsilon \ m r} \\v = \sqrt{\frac{1.0*10^-^9*1.602*10^-^1^9}{4\pi \epsilon *9.1*10^-^3^1*2.0*10^_3} } \\[/tex]
Solving the above, we would have
[tex]v = 2.813*10^7m/s[/tex]
The electron would need to attain a speed of at least 2.813*10^7 m/s
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