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In Exercises 5 to 22, solve the linear programming

College Algebra | 7th Edition | ISBN: 9781439048610 | Authors: Richard N. Aufmann, Vernon C. Barker, Richard D. Nation ISBN: 9781439048610 198

Solution for problem 6.6.5 Chapter 6

College Algebra | 7th Edition

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College Algebra | 7th Edition | ISBN: 9781439048610 | Authors: Richard N. Aufmann, Vernon C. Barker, Richard D. Nation

College Algebra | 7th Edition

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Problem 6.6.5

In Exercises 5 to 22, solve the linear programming problem. Assume x 0 and y 0. Minimize C = 4x + 2y with the constraints cx + y 74x + 3y 24x 10, y 10

Step-by-Step Solution:
Step 1 of 3

Derivative Rules d (c)=0 dx d (x)=1 dx d n n−1 dx (x )=nx d c• f(x )=c• f '(x) dx ( ) d (f (x)±g (x )= f'(x)±g '(x) dx d ' ' Product Rule: (f(x)•g (x))= f (x)g(x + f (x)g (x) dx d f x ) g x )f'(x)− f x )g'x ) Quotient Rule: ( ) = 2 dx g x ) |g x | d Chain Rule: (f(g (x))= f ( x ))g 'x ) dx d x x dx (e )=e d (ax)=a ln a ) dx d 1 (ln(x)) dx x x 1 loga¿= xln( ) d ¿ dx g( ) If you have a f

Step 2 of 3

Chapter 6, Problem 6.6.5 is Solved
Step 3 of 3

Textbook: College Algebra
Edition: 7
Author: Richard N. Aufmann, Vernon C. Barker, Richard D. Nation
ISBN: 9781439048610

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In Exercises 5 to 22, solve the linear programming