For problems #1-#4, I would suggest you use the template provided for you on Blackboard. y'=4cosx-3y, y(0)=1, a.) Use Euler's Method to approximate the value of y(0.5) using h=0.5 b.) Use Euler's Method to approximate the value of y(0.5) using h=0.1 c.) Use Euler's Method to approximate the value of y(0.5) using h=0.05 #1.) Given the differential equation, Please provide the following columns: n, Xn, Yn Yn+1

Subject: Differential equation

Please show all the steps and help me fill out the given spreadsheet for 4(c). I really need help with this question. Thank you!

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For problems #1-#4, I would suggest you use the template provided for you on Blackboard. #1.) Given the differential equation, y'=4cosx-3y, y(0)=1, a.) Use Euler's Method to approximate the value of y(0.5) using h=0.5 b.) Use Euler's Method to approximate the value of y(0.5) using h=0.1 c.) Use Euler's Method to approximate the value of y(0.5) using h=0.05 Please provide the following columns: n, Xp, Yn» Yn+1 # 2.) Given the differential equation, y'=4cosx-3y, y(0)=1, a.) Use Euler's Improved Method to approximate the value of y(0.5) using h=0.5 b.) Use Euler's Improved Method to approximate the value of y(0.5) using h=0.1 c.) Use Euler's Improved Method to approximate the value of y(0.5) using h=0.05 Please provide the following columns: n, xXn, Yn, Y1, M1, M2, M, yn41 6. #3.) Given the differential equation, y'=4cos x-3y, y(0)=1, a.) Use R-K, 4th-Order Method to approximate the value of y(0.5) using h=0.5 b.) Use R-K, 4th-Order Method to approximate the value of y(0.5) using h=0.1 c.) Use R-K, 4th-Order Method to approximate the value of y(0.5) using h=0.05 Please provide the following columns: n, Xn, Yn, M1, M2, M3, M М» М, Уп+1 4' # 4.) Given the differential equation, y'=4cosx-3y, y(0)=1, a.) Solve using methods discussed earlier in the course ( Linear, First Order). b.) Use your solution from #4a to find y(0.5). This value will be used as the exact value for your Error Analysis in Problem #4c. c.) Create a table as shown on the template provided so I can see the results of your problems, #1 – #3. Problem #4 Exact Value found in Problem #4??.) to be y (?) = ?? Euler's Method Approximate Value Relative Error Percent Error h = ? h = ?? h = ??? Euler's Improved Method h = ? Approximate Value Relative Error Percent Error ii = 4 h = ??? Runge-Kutta Approximate Value Relative Error Percent Error ii = 4