The heat lost by a thermal system is given as hl.³T, where h is the heat transfer coefficient, 7 is the temperature difference from the ambient, and L is a characteristic dimension h=3 (3) It is also given that the temperature T must not exceed 7.51/4. Assuming that the mentioned maximum temperature is available (hence T = 7.5L/4), calculate the dimension L. that minimizes the heat loss. PART II: FUNCTION OF TWO VARIABLES The cost Cefa storage chamber is given in terms of three dimensions as C= 8x² +4² +52² xy With the volume given as xyz = 40. Recast this problem as an unconstrained problem with two 40 from the decision variables, and determine the dimensions that minimize the cost. (Hint: 2 given volume equation. So you can substitute this into C and make it an objective function with only two decision variables; x and y).. coded that they used. Part 1 (40p): Each part is 10 points Students should solve the question stated in Part 1 by using Matlab (or obtaining some parts of the answers from Matlab). Solving by using Matlab includes the following steps (computations should be done by Matlab, therefore, the related codes should be write to perform the computations automatically) a) Plot the objective function in terms of the decision variable, to observe how the function changes according to this variable. The plot should have all the necessary labels. b) Find the critical points of the function c) Determine if the critical points are local minima, maxima or saddle point d) Use a line search technique (univariate search method, or single variable optimization algorithm) lecture notes and mentioned in explained in Nonlinear Programming Algorithms