Right Now: Solving
For the whole day, I have been solving the square of the orbital angular momentum which is so long and consisting of a lot of iterations. It is taking me a lot longer than usual since I started with orbital angular momentum in Cartesian coordinates instead of in spherical polar coordinates and solving for the radial, angular, and azimuthal components after. Right now, I was thinking of learning to put equation editors in the blog. I searched some equation editor methods in stack overflow but it will be on html with some additional edits on the post. So I am hope this will work later on. I will just need to finish the solutions and after, I will try the equations editor but if it does not work, I will just post scans of the solution. hahaha
For the whole day, I have been solving the square of the orbital angular momentum which is so long and consisting of a lot of iterations. It is taking me a lot longer than usual since I started with orbital angular momentum in Cartesian coordinates instead of in spherical polar coordinates and solving for the radial, angular, and azimuthal components after. Right now, I was thinking of learning to put equation editors in the blog. I searched some equation editor methods in stack overflow but it will be on html with some additional edits on the post. So I am hope this will work later on. I will just need to finish the solutions and after, I will try the equations editor but if it does not work, I will just post scans of the solution. hahaha
Maths between dollars is inline: $\sum_{k=1}^n k = \frac{n(n+1)}{2}$.
Maths between slash-square-brackets is display:
\[\sum_{k=1}^n k = \frac{n(n+1)}{2}\]
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