Inside an insulator spherical shell with a radius of R= 8 cm, there are two small spherical charges of mass m 0.05 kg and charges q= 1 μC. One of charges is stationary and at the very bottom of the sphere. The other charge is free to move and its angular equilibrium position is a. Find the angular frequency w of the small oscillation of the moving charge around Po in units of rad/s. (Take g = 10 m/s² and 1/(470) = k = 9 x 10° N-m²/C²) Answer: R Po m, q m, 90
Inside an insulator spherical shell with a radius of R= 8 cm, there are two small spherical charges of mass m 0.05 kg and charges q= 1 μC. One of charges is stationary and at the very bottom of the sphere. The other charge is free to move and its angular equilibrium position is a. Find the angular frequency w of the small oscillation of the moving charge around Po in units of rad/s. (Take g = 10 m/s² and 1/(470) = k = 9 x 10° N-m²/C²) Answer: R Po m, q m, 90
Related questions
Question
Don't use chat gpt and already done is wrong.
Transcribed Image Text:Inside an insulator spherical shell with a radius of R= 8 cm, there are two small spherical charges of mass m = 0.05 kg and charges q = 1 μC. One of charges is stationary and at the very
bottom of the sphere. The other charge is free to move and its angular equilibrium position is a. Find the angular frequency w of the small oscillation of the moving charge around Po in units of
rad/s.
(Take g = 10 m/s² and 1/(470) = k = 9 x 10° N-m²/C².)
Answer:
R 40 m, 90
m, q
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by step
Solved in 3 steps
