Solve Electromagnetism Problems: Electric Field, Potential & Capacitance

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SUMMARY

The discussion focuses on solving electromagnetism problems related to electric fields, potentials, and capacitance. The electric field around a conducting sphere of radius R carrying a charge Q is defined by the formula E = kQ/r². The electric potential at the surface of the sphere, assuming the potential at infinity is zero, can be calculated using the integral of the electric field. Additionally, the capacitance of the Earth, modeled as a conducting sphere with a radius of 6.4 x 104 m, can be derived from these principles.

PREREQUISITES
  • Understanding of Gauss's Law in electromagnetism
  • Familiarity with electric field and potential concepts
  • Knowledge of calculus for solving integrals
  • Basic principles of capacitance and its calculation
NEXT STEPS
  • Learn how to apply Gauss's Law to different charge distributions
  • Study the derivation of electric potential from electric fields
  • Explore the concept of capacitance in various geometries
  • Investigate the applications of capacitance in real-world scenarios
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Students studying electromagnetism, physics educators, and anyone looking to deepen their understanding of electric fields, potentials, and capacitance calculations.

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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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