What Is The Maximum Value Of P = 24X + 30Y, Given The Constraints On X And Y Listed Below?

What Is The Maximum Value Of P = 24X + 30Y, Given The Constraints On X And Y Listed Below?. Subtract 24x 24 x from both sides of the equation. What are the vertices of the feasible region?

What is the maximum value of P = 24x + 30y, given the constraints on x
What is the maximum value of P = 24x + 30y, given the constraints on x from brainly.com

(0, 0), (0, 15), (20, 25), (40, 0). This is the best answer 👇 rectangle that is your answer step by step explanation: Find the maximum/minimum value p=24x+30y.

This Site Is Using Cookies Under Cookie Policy.

What is the maximum value of p=24x+30y. Given the constraints on x and y listed below? Given the constraints on x and y listed below?

The Maximum Value Of P Is

What is the maximum value of p = 4x + 2y, given the constraints on x and y listed below? Find the maximum/minimum value p=24x+30y. The constraints of a problem are graphed below.

What Is The Maximum Value Of P = 24X + 30Y, Given The Constraints On X And Y Listed Below?

The value of p is equal to. 18x + 30y < or equal to 500 x > or equal to 0 y > or equal to 0. Casmende7 casmende7 07/01/2016 mathematics high school answered what is the minimum value of p=24x + 30y given the constraints 1 see answer advertisement advertisement casmende7 is waiting for your help.

The Solution Of The Constraints Is The Shaded Area In The Attached Figure.

What are the vertices of the feasible region? Store y can provide a maximum of 40 bags per week, and the farm has committed to buy at least as many bags from store x as from store y. The value of p is equal to.

See Also :   What Is The Approximate Area Of The Circle Shown Below

Divide Each Term By 30 30 And Simplify.

The first boat follows a path that can be modeled by a quadratic function with a vertex at (0, 5), and the second boat follows a path that can be modeled by a linear function and passes through the point (10, 4). X + 2y < or equal to 10 y < or. 24x+30y = p 24 x + 30 y = p.

Recommended For You