Required: 1. If we assume that the total time available on the plastic injection molding machine is the constraint in the production process, how much contribution margin per minute of the constrained resource is earned by each product? 2. Which product offers the most profitable use of the plastic injection molding machine? 3. If we assume that a severe shortage of plastic pellets has required the company to cut back its production so much that its new constraint has become the total available pounds of plastic pellets, how much contribution margin per pound of the constrained resource is earned by each product? 4. Which product offers the most profitable use of the plastic pellets? 5. Which product has the lorgest contribution margin per unit? Complete this question by entering your answers in the tabs below. If we assume that the total time available on the plastic injection molding machine is the constraint in the production process, how much contrit margin ger minute of the constrained resource is earned by each product? (Round your final answers to 2 decimal places) Which product offers the most profitable use of the plastic injection molding machine? \begin{tabular}{|l|} \hline Fishing Guard \\ \hline Ski Guard \\ \hline Golf Guard \\ \hline \end{tabular} If we assume that a severe shortage of plastic pellets has required the company to cut back its production so much that its new constraint has become the total avallable pounds of plastic pellets, how much contribution margin per pound of the constrained resource is earned by each product? (Round your final answers to 2 decimal places.) Which product offers the most profitable use of the plastic pellets? \begin{tabular}{|l|} \hline Fishing Guard \\ \hline Golf Guard \\ \hline Ski Guard \\ \hline \end{tabular} Which product has the largest contribution margin per unit \begin{tabular}{|l|} \hline Fishing Guard \\ \hline Golf Guard \\ \hline Ski Guard \\ \hline \end{tabular}