![SOLVED: ProblemS:(18 points) The following table shows the first four zeros of the spherical Bessel functions which is the solution of the radial part of Schrodinger equation. 2,(0) 3.1416,6.2832,9.4248, 12.5664, 4934,7.7253,10.9041,14.0662, 5.7635,9.0950, SOLVED: ProblemS:(18 points) The following table shows the first four zeros of the spherical Bessel functions which is the solution of the radial part of Schrodinger equation. 2,(0) 3.1416,6.2832,9.4248, 12.5664, 4934,7.7253,10.9041,14.0662, 5.7635,9.0950,](https://cdn.numerade.com/ask_images/000cdbc39e174e4eb90da1dd38dcd56f.jpg)
SOLVED: ProblemS:(18 points) The following table shows the first four zeros of the spherical Bessel functions which is the solution of the radial part of Schrodinger equation. 2,(0) 3.1416,6.2832,9.4248, 12.5664, 4934,7.7253,10.9041,14.0662, 5.7635,9.0950,
![Table II from Computationally improved algorithm to find higher roots of integer order bessel function in gyrotron application | Semantic Scholar Table II from Computationally improved algorithm to find higher roots of integer order bessel function in gyrotron application | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/fee5a8b645c63348e74226e296a0208d70429daa/3-TableII-1.png)
Table II from Computationally improved algorithm to find higher roots of integer order bessel function in gyrotron application | Semantic Scholar
![communication - Using Bessel function graph to finde out side bands - Electrical Engineering Stack Exchange communication - Using Bessel function graph to finde out side bands - Electrical Engineering Stack Exchange](https://i.stack.imgur.com/BYjh8.jpg)