![SOLVED: I have done parts a and b and I know how to do parts d and e, but could someone do part c for me. Thank you. The fourth energy wavefunction SOLVED: I have done parts a and b and I know how to do parts d and e, but could someone do part c for me. Thank you. The fourth energy wavefunction](https://cdn.numerade.com/ask_images/7b679667da974b95be6ad637ba893b5c.jpg)
SOLVED: I have done parts a and b and I know how to do parts d and e, but could someone do part c for me. Thank you. The fourth energy wavefunction
![Physics | Free Full-Text | A Full-Fledged Analytical Solution to the Quantum Harmonic Oscillator for Undergraduate Students of Science and Engineering Physics | Free Full-Text | A Full-Fledged Analytical Solution to the Quantum Harmonic Oscillator for Undergraduate Students of Science and Engineering](https://www.mdpi.com/physics/physics-02-00031/article_deploy/html/images/physics-02-00031-g001.png)
Physics | Free Full-Text | A Full-Fledged Analytical Solution to the Quantum Harmonic Oscillator for Undergraduate Students of Science and Engineering
![differential equations - Driven simple harmonic oscillator — amplitude of steady state motion - Mathematica Stack Exchange differential equations - Driven simple harmonic oscillator — amplitude of steady state motion - Mathematica Stack Exchange](https://i.stack.imgur.com/tRS4H.png)
differential equations - Driven simple harmonic oscillator — amplitude of steady state motion - Mathematica Stack Exchange
![Mathematica graphical output illustrating the diagonalization process... | Download Scientific Diagram Mathematica graphical output illustrating the diagonalization process... | Download Scientific Diagram](https://www.researchgate.net/publication/333564100/figure/fig1/AS:765545766993921@1559531742839/Mathematica-graphical-output-illustrating-the-diagonalization-process-for-a-harmonic.png)
Mathematica graphical output illustrating the diagonalization process... | Download Scientific Diagram
![Understanding Differential Equations Using Mathematica and Interactive Demonstrations | Semantic Scholar Understanding Differential Equations Using Mathematica and Interactive Demonstrations | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/f0e1d2347de095e06cd9b8d8d3cae30c6ba0ac07/18-Figure17-1.png)