** write out your work for part A to submit via Gradescope, submit your answer in Canvas as well!** a) (4 pts) Assuming that the light energy to drive the previous reaction approximates Hrxn, what would be the maximum wavelength of light with sufficient energy to drive the reaction? Put your answer in nm, included in the answer box. b) (3 pts) Using the knowledge you have gained in this course, and the answer to question (a), do you expect that this dissociation reaction would commonly occur in the atmosphere? Briefly explain why or why not. Please write your explanation in the answer box in Canvas (you do not need to re-write to upload to Gradescope). Your Answer: ** write out your work for part A to submit via Gradescope, submit your answer in Canvas as well!** a) (4 pts) Assuming that the light energy to drive the previous reaction approximates Hrxn, what would be the maximum wavelength of light with sufficient energy to drive the reaction? Put your answer in nm, included in the answer box. b) (3 pts) Using the knowledge you have gained in this course, and the answer to question (a), do you expect that this dissociation reaction would commonly occur in the atmosphere? Briefly explain why or why not. Please write your explanation in the answer box in Canvas (you do not need to re-write to upload to Gradescope). Your