use matlab please

MATLAB PROGRAMMING EXERCISE:COMPARTMENT MODEL Remember: You must write MATLAB code and then execute your code to produce output that solves this problem. You must show both your program and your program output in a screenshot(s) to receive fuil credit for this exercise. You must also include a handwritten MATLAB program! EXERCISE 7 (5 pts.):"Petrochemical Processing DistbanolaSDEA) is extensively used in the gas processing industry for removing acid gases such as carbon dioxide and hydrogen sulfide from light hydrocarbons. DEAs popularity is based on several factors: energy savings compared with certain other solvents; high affinity for acid gases; fair resistance to degradation. Degradation is defined as the irreversible transformation of DEA into undesirable compounds. The principal degradation compounds were found to be 3 (hydroxyethyl) 2 oxazolidone HEOD) SNN N.N bia hydroxyethyl)- pincraze(BHEP). THEED), and In this prohlem we will investigate a simplified chemical kinetic mechanism for degradation of DEA dissolved in water, using the compartment model framework introduced in our class presentation entitled, "Introduction to Modeling IN: Systems of Population Equations and Compartment Models. Consider the following compartment model for the degradation of DEA HEOD d1 DEA d2 THEED BHEP d3 DEA dissociates (degrades) into HEOD at a rate of 0.0167% per minute, as indicated by the dl pathway in the compartment diagram. DEA also dissociates into THEED at a rate of 0.025% per minute, as indicated by the d2 pathway. Finally, THEED degrades into BHEP at a rate of 0.0633% per minute, as indicated by the d3 pathway MATLAB PROGRAMMING EXERCISE:COMPARTMENT MODEL Remember: You must write MATLAB code and then execute your code to produce output that solves this problem. You must show both your program and your program output in a screenshot(s) to receive fuil credit for this exercise. You must also include a handwritten MATLAB program! EXERCISE 7 (5 pts.):"Petrochemical Processing DistbanolaSDEA) is extensively used in the gas processing industry for removing acid gases such as carbon dioxide and hydrogen sulfide from light hydrocarbons. DEAs popularity is based on several factors: energy savings compared with certain other solvents; high affinity for acid gases; fair resistance to degradation. Degradation is defined as the irreversible transformation of DEA into undesirable compounds. The principal degradation compounds were found to be 3 (hydroxyethyl) 2 oxazolidone HEOD) SNN N.N bia hydroxyethyl)- pincraze(BHEP). THEED), and In this prohlem we will investigate a simplified chemical kinetic mechanism for degradation of DEA dissolved in water, using the compartment model framework introduced in our class presentation entitled, "Introduction to Modeling IN: Systems of Population Equations and Compartment Models. Consider the following compartment model for the degradation of DEA HEOD d1 DEA d2 THEED BHEP d3 DEA dissociates (degrades) into HEOD at a rate of 0.0167% per minute, as indicated by the dl pathway in the compartment diagram. DEA also dissociates into THEED at a rate of 0.025% per minute, as indicated by the d2 pathway. Finally, THEED degrades into BHEP at a rate of 0.0633% per minute, as indicated by the d3 pathway