ritwik06
Dec3-08, 12:10 AM
1. The problem statement, all variables and given/known data
One wave function of H like atom is \psi=\frac{\sqrt{2}}{81\sqrt{\pi}a_{0}^{3/2}}(6-\frac{r}{a_{0}})\frac{r}{a_{0}}(e^{\frac{-r}{3a_{0}}})cos \theta
How many nodal surfaces are there?
1)1
2)2
3)3
4)none of these
3. The attempt at a solution
Its an objective question which I need to answer in less than a minute. Is it possible to do so?
The next thing that I assume i that the wave function is given in polar coordinate form, isn't it?? \psi=f(r,\theta, \phi)???
phi is absent what does it mean? I guess it means that its the p - orbital. then the anwer must be 2. Am I right????
Last but not the least. I am keen upon seeing the 3D picture this wave function generates. I have MATLAB but I dont know how to code in polar coordinate and all. Will somebody code this wave function for me which is compatible with MATLAB 2008?? Please. I shall be very grateful.
Thanks a lot.
One wave function of H like atom is \psi=\frac{\sqrt{2}}{81\sqrt{\pi}a_{0}^{3/2}}(6-\frac{r}{a_{0}})\frac{r}{a_{0}}(e^{\frac{-r}{3a_{0}}})cos \theta
How many nodal surfaces are there?
1)1
2)2
3)3
4)none of these
3. The attempt at a solution
Its an objective question which I need to answer in less than a minute. Is it possible to do so?
The next thing that I assume i that the wave function is given in polar coordinate form, isn't it?? \psi=f(r,\theta, \phi)???
phi is absent what does it mean? I guess it means that its the p - orbital. then the anwer must be 2. Am I right????
Last but not the least. I am keen upon seeing the 3D picture this wave function generates. I have MATLAB but I dont know how to code in polar coordinate and all. Will somebody code this wave function for me which is compatible with MATLAB 2008?? Please. I shall be very grateful.
Thanks a lot.