Please complete step by step on matlab

3. Idcally, your submission stwould be done through Ganvas and include: a. The completed and renamed in seript. b. A PDF or Word file with plots and a small wnite up answering and explaining any guestions asked. Questions: Answer each question to the best of your abilities. 1. Stress Strain Plotting How does a particular material behave? is it hritsle? Is it ductile? How much of a load can it handle before it breaks? Engineers must asi themselves these questions when designing new devices. They can be answered by looking at what is called a stress/strain curve. The curve describes the relationship between stress (the amposnt of force you're applying to a material, for example by pulling it) and strain (the aunount the material is deforming from its original dimensions). The figure below shows a simplified stress/strain curve with some important regions labelled: behave elastically, meaning they can return to their original shape like a rubber bemd, until stressed to the yield point. After this they are in the non-elastic region and cannot return to their original form, sinvilar to you pulling a rubber band too much and it docsi't spring back like it used it. If enough stress is applied the material will fail at what is called the failure potnt, thits. would be when your nubber band snaps. a. Stress_Strain Data.mat has been given to you, load this into MATL.AB using the following comirand: load Stress Strain Data.mat. It contains 2 variables. stress and strain. Do the following: 1. Plot-stress v5 strain 1. Plot the elastic region as blue 2. Plot the nonelastic region as red 11. Label the x axis as Strain iii. Label the y axis as Stress (MPa) iv. Add an appropriate title v. Identify on the graph the Yield and Failure p: and plot them as a blue star and red triangle. respectively. vi. Add an appropriate legend. vii. Add any other additions to the graph as you see fit