The solution inside the sphere will be the same if the conditions in and on the sphere are the same. It's easy to show that the second system reduces to the first inside the sphere - what about on ...

You have \begin{align} c_{-1} &= \frac{1}{2\pi i} \int_{\lvert z\rvert = \rho} g(z)\,dz\\ &= \frac{1}{2\pi i}\int_{\lvert z\rvert = \rho} (h_x(z) - i h_y(z))\, (dx + idy)\\ &= \frac{1}{2\pi ...

Indeed, all of the comments indicating I was misquoting the Primary Decomposition Theorem were correct. Pg. 161 of Dummit & Foote states the Primary Decomposition Theorem for finite abelian groups: ...

Hint. The cosine of the angle between two unit vectors u and v is just their dot product, i.e. u^Tv . So, if P is the augmented matrix containing the \alpha_j s as columns and Q ...

It's hard to know without seeing the source; mathematical notation is not as standard as you seem to think. But my guess is that in this case A\Rightarrow B means that A expands in one step to B ...

Due to symmetry considerations, \vec E at a given point is always pointing along the line from that point that is perpendicular to the wire. We can use cylindrical coordinates. With d the ...