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To be worked at the blackboard in lecture.

Calculate the electric field at the center of a semicircular line of uniformly-distributed positive charge. Follow the steps provided in the problem.

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To be worked at the blackboard in lecture.

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  1. Example: calculate the electric field at “center” of semicircular line of uniformly-distributed positive charge, oriented as shown. +Q To be worked at the blackboard in lecture. R y You don’t have to follow the steps in the exact order I present here. Just let the problem tell you what to. You may do things in a different order; that’s probably OK. x d ds R  dE

  2. Example: calculate the electric field at “center” of semicircular line of uniformly-distributed positive charge, oriented as shown. +Q Start with our usual OSE. dq ds d R y Pick an infinitesimal dq of charge. x and an angle d. dq subtends an arc length ds, What is the charge dq?

  3. Example: calculate the electric field at “center” of semicircular line of uniformly-distributed positive charge, oriented as shown. +Q Draw the dE due to the dq, and show its components. dq ds dq′ d R y Do you see any helpful symmetry? dE′ dE x Pick a dq′ horizontally across the arc from dq. The x-components of dq and dq′ will cancel. Because of this symmetry, Ex = 0 Each dEy points downward so Ey will be negative.

  4. Example: calculate the electric field at “center” of semicircular line of uniformly-distributed positive charge, oriented as shown. +Q Recall that dq and ds are infinitesimal. dq is located at an anglealong the semicircle from the negative y-axis. dq ds dq R y  dE x is also one of the angles in the vector triangle. 

  5. Example: calculate the electric field at “center” of semicircular line of uniformly-distributed positive charge, oriented as shown. +Q An arc of a circle has a length equal to the circle radius times the angle subtended (in radians): dq ds dq R y  dE x  Also,

  6. +Q Let’s summarize what we have done so far. dq ds dq R y  dE x  Every dq is a distance R away from the arc center:

  7. +Q dq ds dq R y  dE x  Awesome Youtube derivation: http://www.youtube.com/watch?v=L1n2EUvayfw

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