Holy shittah !! Seems my theta-comp is stronger here than I knew !!!
At the point (1, k^2) the Kerr radius = k . Radial field is
SMALL, but tangential field is like 1 !!!!! Problem is cosine is
always y/r, so right here it equals k. Thus,
E_theta = (k^-1) cos^ basically, kewl?? Shiiiiiit, this =1.
SPORTS FANS, THE NUMERICIST PULLS AHEAD OF THE ANALYST.

Holy shittah !! Seems my theta-comp is stronger here than I knew !!!

At the point (1, k^2) the Kerr radius = k . Radial field is

SMALL, but tangential field is like 1 !!!!! Problem is cosine is

always y/r, so right here it equals k. Thus,

E_theta = (k^-1) cos^ basically, kewl?? Shiiiiiit, this =1.

SPORTS FANS, THE NUMERICIST PULLS AHEAD OF THE ANALYST.

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The theta component is “falling away quickly to zero” as you go TO THE X-AXIS, just outside the ring.

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