True;
it can have decimal solutions also depends on the nature of variable and relationship equations
Is it possible for a linear programming model to yield an optional solution that has decimal...
Consider the following linear programming model: Max X1 + X2 Subject to: X1 + X2 ≤ 2 X1 ≥ 1 X2 ≥ 3 X1, X2 ≥ 0 This linear programming model has a(n). A. Unbound solution B. Infeasible solution C. Redundant constraint D. Alternate optimal solution
Consider the following linear programming model Max 2X1 + 3X2 Subject to: X1 + X2 X1 ≥ 2 X1, X2 ≥ 0 This linear programming model has: A. Infeasible solution B. Unique solution C. Unbounded Solution D. Alternate optimal solution E. Redundant constraints
If the solution to a linear program is ________, no optional solution to the problem can be found. Select one: a. bounded b. confounded c. unbounded d. optimal
Your problem is to find the optimal solution to the following linear programming model where X, Y and Z represent the amounts of products X, Y and Z to produce in order to minimize some cost. Min 4X + 2Y + 6Z s.t. 6X + 7Y + 10Z ≤ 80 (1) 2X + 4Y + 3Z ≤ 35 (2) 4X + 3Y + 4Z ≥ 30 (3) 3X + 2Y + 6Z ≥ 40 (4) X,Y,Z ≥...
Solve the following model using linear programming (allow for continuous values and determine the values of the decision variables and objective function. Then, round the decision variables values down to the nearest integer and determine the value of the decision variables and objective function, this is an approximate answer to solving the model using integer programming. Observe if the rounding provides a "feasible solution, all constraints are satisfied. Finally, solve the model using integer programming and determine the values of...
Suppose that for a linear programming model the slope of the profit line is exactly the same value as the slope of a constraint that is partly determining the feasible solution area. Then A. There is one unique optimal solution B. There are exactly two optimal solutions C. There are multiple optimal solutions D. There is no optimal solution E. None of the above – this could never happen
A regression model that is linear in the unknown parameters is a linear regression model. A) True B) False The test for significance of regression in multiple regression involves testing the hypotheses Ho: B1=B2=B3=0 versus H1: B1≠B2≠B3≠0. A) True B) False The ANOVA is used to test for significance of regression in multiple regression. A) True B) False
Which of the following is NOT true about linear programming problems: When dealing with extremely complex real problems, there is no such thing as the perfectly correct linear programming model for the problem Approximations and simplifying assumptions generally are required to have a workable linear programming model Linear programming problems can be formulated both algebraically as a mathematical model and on spreadsheets None of the answers are accurate
Solve the linear programming problem. (If there is no solution, enter NO SOLUTION.) Maximize Subject to X Y 156 Sy 5 220 The maximum value of 2 is Additional Materials Book Submit Answer Practice Another Version -/14.28 points TEAFM2 3.3.018. Solve the linear programming problem. (If there is no solution, enter NO SOLUTION.) Minimize X+Y Subject to 2x + y 2 27 *+ 2y 2 27 Minimum value is - Additional Materials eBook
java programming 1 Solving the Game [30 Marks] The solution developed in assignment 2 was solving the game starting from a board that is completely OFF. We first need to generalize this work and be able to compute the solutions starting from any board positions. 1.1 GameModel The class GameModel is used to capture the current state of the board. Its specification is as follows: • GameModel(int width, int height): the constructor. Creates an all OFF game of width width...