Electron Moving Through a Tunnel A sphere of uniform charge density p = 10-6C/m³ and a radius of 2 meters has a small hole drilled along its diameter, forming a tunnel from one end of the sphere to the other. An electron is released at the opening of the tunnel and begins to move, speeding up towards the center of sphere. After it passes the center of the sphere, it begins to slow down until it reaches the other end of the tunnel and stops. The electron then moves back up to the first opening and start the cycle again. It repeats this cycle many times. Find the frequency of this cyclic motion.

Electron Moving Through a Tunnel A sphere of uniform charge density p = 10-6C/m³ and a radius of 2 meters has a small hole drilled along its diameter, forming a tunnel from one end of the sphere to the other. An electron is released at the opening of the tunnel and begins to move, speeding up towards the center of sphere. After it passes the center of the sphere, it begins to slow down until it reaches the other end of the tunnel and stops. The electron then moves back up to the first opening and start the cycle again. It repeats this cycle many times. Find the frequency of this cyclic motion.

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Question

Hello, can you also show work on how you got the answer. Thank you.

Electron Moving Through a Tunnel
A sphere of uniform charge density p= 10-6C/m³ and a radius of 2 meters has a
small hole drilled along its diameter, forming a tunnel from one end of the sphere
to the other. An electron is released at the opening of the tunnel and begins to
move, speeding up towards the center of sphere. After it passes the center of the
sphere, it begins to slow down until it reaches the other end of the tunnel and stops.
The electron then moves back up to the first opening and start the cycle again. It
repeats this cycle many times. Find the frequency of this cyclic motion.

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