Consider the following linear programming problem, which maximizes profit for two products: regular (R) and super (S): MAX 5R + 75S s.t. 1.2 R + 1.6 S 600 assembly (hours) 0.8 R + 0.5 S 300 paint (hours) 0.16 R + 0.4 S 100 inspection (hours) R, S >= 0 See the sensitivity report provided below: q2_

The upper limit of the regular product (R) objective function coefficient (profit of R) is _________ . Please choose the option that best fit the empty space above. Group of answer choices 120 20 40 70 None of the above

0.8 R+ 0.5 S = 300 paint (hours) 0.16 R +0.4 S = 0 See the sensitivity report provided below: Variable Cells Name Cell $C$28 Regular - R $C$29 Super - S Final Reduced Objective Allowable Allowable Value Cost Coefficient Increase Decrease 0 -25 5 25 250 0 75 1E+30 62.5 1E+30 Constraints Cell Name $F$6 assembly (hours) $F$7 paint (hours) $F$8 inspection (hours) Final Shadow Constraint Allowable Allowable Value Price R.H. Side Increase Decrease 400 0 600 1E+30 200 125 0 300 1E+30 175 100 187.5 100 50 100 The upper limit of the regular product (R) objective function coefficient (profit of R) is Please choose the option that best fit the empty space above. 0 120 0 20 40