Solve Electromagnetism Problems: Electric Field, Potential & Capacitance

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AI Thread Summary
The discussion focuses on solving electromagnetism problems related to a conducting sphere with charge Q. The electric field around the sphere is given by E=kQ/r^2, and the electric potential at the surface can be calculated using the integral of the electric field from infinity to the sphere's surface. The relationship between electric potential and capacitance is explored, leading to the derivation of a capacitance formula for the sphere. Additionally, the capacitance of the Earth, modeled as a large conducting sphere, is discussed. The thread emphasizes the application of Gauss's law and the definition of electric potential in solving these problems.
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Homework Statement

1, What is the electric field around the conducting sphere of radius R carrying a charge Q?
2, What is the electric potential at the surface of the sphere if the potential infinately far away is zero?
3, Hence obtain a formula for the capacitance of the sphere.
4, Assuming the Earth to be a huge conducting sphere of radius 6.4*10^4 m surrounded by air find the capacitance of the earth.



The attempt at a solution


I have a solution for 1 which is E=kQ/r^2. I cannot do the rest of it, although i believe that I have to use gausses law although i quite simply don't know how to do this. Any helps or suggestions would be more that welcome.

Many Thanks.
 
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V(R) - V(infinity) = -\int_{\infty}^{R}\vec{E}(r)\cdot\vec{dr}

This is just the definition of electric potential.

V(infinity) = 0, so:

V(R) = -\int_{\infty}^{R}\vec{E}(r)\cdot\vec{dr}

Use your formula for E(r) from part a). Solve the integral.
 
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