![Page 1: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/1.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
MATH 122
Ann Clifton 1
1University of South Carolina, Columbia, SC USA
Calculus for Business Administration and SocialSciences
![Page 2: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/2.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
OUTLINE
1 4.3: GLOBAL MAXIMA AND MINIMA
2 2.5: MARGINAL COST AND REVENUE
3 4.4: PROFIT, COST, AND REVENUEMaximizing ProfitMaximizing Revenue
![Page 3: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/3.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
OUTLINE
1 4.3: GLOBAL MAXIMA AND MINIMA
2 2.5: MARGINAL COST AND REVENUE
3 4.4: PROFIT, COST, AND REVENUEMaximizing ProfitMaximizing Revenue
![Page 4: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/4.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
OUTLINE
1 4.3: GLOBAL MAXIMA AND MINIMA
2 2.5: MARGINAL COST AND REVENUE
3 4.4: PROFIT, COST, AND REVENUEMaximizing ProfitMaximizing Revenue
![Page 5: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/5.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
GLOBAL EXTREMA
DEFINITION 1For any function, f , we say
f has a global minimum at p if f (p) ≤ f (x) for all x in thedomain of f .f has a global maximum at p if f (x) ≤ f (p) for all x inthe domain of f .
THEOREM 1If f is a continuous function defined on a closed interval,[a,b], then f has a global minimum and a global maximumon [a,b].
![Page 6: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/6.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
GLOBAL EXTREMA
DEFINITION 1For any function, f , we say
f has a global minimum at p if f (p) ≤ f (x) for all x in thedomain of f .
f has a global maximum at p if f (x) ≤ f (p) for all x inthe domain of f .
THEOREM 1If f is a continuous function defined on a closed interval,[a,b], then f has a global minimum and a global maximumon [a,b].
![Page 7: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/7.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
GLOBAL EXTREMA
DEFINITION 1For any function, f , we say
f has a global minimum at p if f (p) ≤ f (x) for all x in thedomain of f .f has a global maximum at p if f (x) ≤ f (p) for all x inthe domain of f .
THEOREM 1If f is a continuous function defined on a closed interval,[a,b], then f has a global minimum and a global maximumon [a,b].
![Page 8: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/8.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
GLOBAL EXTREMA
DEFINITION 1For any function, f , we say
f has a global minimum at p if f (p) ≤ f (x) for all x in thedomain of f .f has a global maximum at p if f (x) ≤ f (p) for all x inthe domain of f .
THEOREM 1If f is a continuous function defined on a closed interval,[a,b], then f has a global minimum and a global maximumon [a,b].
![Page 9: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/9.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the global extrema of f (x) = x3 − 9x2 − 48x + 52 on[−5,14].
f ′(x) = 3x2 − 18x − 48 = 3(x2 − 6x − 16)= 3(x + 2)(x − 8)
f ′′(x) = 6x − 18 = 6(x − 3)⇒ f ′′(−2) = 6(−2− 3) < 0⇒ f ′′(8) = 6(8− 3) > 0.
f (−5) = −58f (14) = 360f (−2) = 104
f (8) = −396.
Maximum: (14,360).Minimum: (8,-396).
![Page 10: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/10.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the global extrema of f (x) = x3 − 9x2 − 48x + 52 on[−5,14].
f ′(x) = 3x2 − 18x − 48
= 3(x2 − 6x − 16)= 3(x + 2)(x − 8)
f ′′(x) = 6x − 18 = 6(x − 3)⇒ f ′′(−2) = 6(−2− 3) < 0⇒ f ′′(8) = 6(8− 3) > 0.
f (−5) = −58f (14) = 360f (−2) = 104
f (8) = −396.
Maximum: (14,360).Minimum: (8,-396).
![Page 11: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/11.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the global extrema of f (x) = x3 − 9x2 − 48x + 52 on[−5,14].
f ′(x) = 3x2 − 18x − 48 = 3(x2 − 6x − 16)
= 3(x + 2)(x − 8)f ′′(x) = 6x − 18 = 6(x − 3)
⇒ f ′′(−2) = 6(−2− 3) < 0⇒ f ′′(8) = 6(8− 3) > 0.
f (−5) = −58f (14) = 360f (−2) = 104
f (8) = −396.
Maximum: (14,360).Minimum: (8,-396).
![Page 12: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/12.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the global extrema of f (x) = x3 − 9x2 − 48x + 52 on[−5,14].
f ′(x) = 3x2 − 18x − 48 = 3(x2 − 6x − 16)= 3(x + 2)(x − 8)
f ′′(x) = 6x − 18 = 6(x − 3)⇒ f ′′(−2) = 6(−2− 3) < 0⇒ f ′′(8) = 6(8− 3) > 0.
f (−5) = −58f (14) = 360f (−2) = 104
f (8) = −396.
Maximum: (14,360).Minimum: (8,-396).
![Page 13: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/13.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the global extrema of f (x) = x3 − 9x2 − 48x + 52 on[−5,14].
f ′(x) = 3x2 − 18x − 48 = 3(x2 − 6x − 16)= 3(x + 2)(x − 8)
f ′′(x) = 6x − 18 = 6(x − 3)
⇒ f ′′(−2) = 6(−2− 3) < 0⇒ f ′′(8) = 6(8− 3) > 0.
f (−5) = −58f (14) = 360f (−2) = 104
f (8) = −396.
Maximum: (14,360).Minimum: (8,-396).
![Page 14: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/14.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the global extrema of f (x) = x3 − 9x2 − 48x + 52 on[−5,14].
f ′(x) = 3x2 − 18x − 48 = 3(x2 − 6x − 16)= 3(x + 2)(x − 8)
f ′′(x) = 6x − 18 = 6(x − 3)⇒ f ′′(−2) = 6(−2− 3) < 0
⇒ f ′′(8) = 6(8− 3) > 0.f (−5) = −58f (14) = 360f (−2) = 104
f (8) = −396.
Maximum: (14,360).Minimum: (8,-396).
![Page 15: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/15.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the global extrema of f (x) = x3 − 9x2 − 48x + 52 on[−5,14].
f ′(x) = 3x2 − 18x − 48 = 3(x2 − 6x − 16)= 3(x + 2)(x − 8)
f ′′(x) = 6x − 18 = 6(x − 3)⇒ f ′′(−2) = 6(−2− 3) < 0⇒ f ′′(8) = 6(8− 3) > 0.
f (−5) = −58f (14) = 360f (−2) = 104
f (8) = −396.
Maximum: (14,360).Minimum: (8,-396).
![Page 16: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/16.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the global extrema of f (x) = x3 − 9x2 − 48x + 52 on[−5,14].
f ′(x) = 3x2 − 18x − 48 = 3(x2 − 6x − 16)= 3(x + 2)(x − 8)
f ′′(x) = 6x − 18 = 6(x − 3)⇒ f ′′(−2) = 6(−2− 3) < 0⇒ f ′′(8) = 6(8− 3) > 0.
f (−5) = −58
f (14) = 360f (−2) = 104
f (8) = −396.
Maximum: (14,360).Minimum: (8,-396).
![Page 17: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/17.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the global extrema of f (x) = x3 − 9x2 − 48x + 52 on[−5,14].
f ′(x) = 3x2 − 18x − 48 = 3(x2 − 6x − 16)= 3(x + 2)(x − 8)
f ′′(x) = 6x − 18 = 6(x − 3)⇒ f ′′(−2) = 6(−2− 3) < 0⇒ f ′′(8) = 6(8− 3) > 0.
f (−5) = −58f (14) = 360
f (−2) = 104f (8) = −396.
Maximum: (14,360).Minimum: (8,-396).
![Page 18: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/18.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the global extrema of f (x) = x3 − 9x2 − 48x + 52 on[−5,14].
f ′(x) = 3x2 − 18x − 48 = 3(x2 − 6x − 16)= 3(x + 2)(x − 8)
f ′′(x) = 6x − 18 = 6(x − 3)⇒ f ′′(−2) = 6(−2− 3) < 0⇒ f ′′(8) = 6(8− 3) > 0.
f (−5) = −58f (14) = 360f (−2) = 104
f (8) = −396.
Maximum: (14,360).Minimum: (8,-396).
![Page 19: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/19.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the global extrema of f (x) = x3 − 9x2 − 48x + 52 on[−5,14].
f ′(x) = 3x2 − 18x − 48 = 3(x2 − 6x − 16)= 3(x + 2)(x − 8)
f ′′(x) = 6x − 18 = 6(x − 3)⇒ f ′′(−2) = 6(−2− 3) < 0⇒ f ′′(8) = 6(8− 3) > 0.
f (−5) = −58f (14) = 360f (−2) = 104
f (8) = −396.
Maximum: (14,360).Minimum: (8,-396).
![Page 20: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/20.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the global extrema of f (x) = x3 − 9x2 − 48x + 52 on[−5,14].
f ′(x) = 3x2 − 18x − 48 = 3(x2 − 6x − 16)= 3(x + 2)(x − 8)
f ′′(x) = 6x − 18 = 6(x − 3)⇒ f ′′(−2) = 6(−2− 3) < 0⇒ f ′′(8) = 6(8− 3) > 0.
f (−5) = −58f (14) = 360f (−2) = 104
f (8) = −396.
Maximum: (14,360).
Minimum: (8,-396).
![Page 21: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/21.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the global extrema of f (x) = x3 − 9x2 − 48x + 52 on[−5,14].
f ′(x) = 3x2 − 18x − 48 = 3(x2 − 6x − 16)= 3(x + 2)(x − 8)
f ′′(x) = 6x − 18 = 6(x − 3)⇒ f ′′(−2) = 6(−2− 3) < 0⇒ f ′′(8) = 6(8− 3) > 0.
f (−5) = −58f (14) = 360f (−2) = 104
f (8) = −396.
Maximum: (14,360).Minimum: (8,-396).
![Page 22: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/22.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
DEFINITION
For a cost function, C(q), and a revenue function, R(q),define
the marginal cost is
d
dqC(q) = C′(q), .
the marginal revenue is
d
dqR(q) = R′(q).
![Page 23: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/23.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
DEFINITION
For a cost function, C(q), and a revenue function, R(q),define
the marginal cost is
d
dqC(q) = C′(q), .
the marginal revenue is
d
dqR(q) = R′(q).
![Page 24: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/24.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
DEFINITION
For a cost function, C(q), and a revenue function, R(q),define
the marginal cost is
d
dqC(q) = C′(q), .
the marginal revenue is
d
dqR(q) = R′(q).
![Page 25: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/25.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
MARGINAL PROFIT
DEFINITION 2The marginal profit is
π′(q) = R′(q)− C′(q).
REMARK 1Critical points occur whenever marginal cost equal marginalrevenue, or one of marginal cost/revenue is undefined.
![Page 26: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/26.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
MARGINAL PROFIT
DEFINITION 2The marginal profit is
π′(q) = R′(q)− C′(q).
REMARK 1Critical points occur whenever marginal cost equal marginalrevenue, or one of marginal cost/revenue is undefined.
![Page 27: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/27.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the quantity which maximizes profit for the givenrevenue and cost functions on [0,1000]
R(q) = 5q − 0.003q2
C(q) = 300 + 1.1q
Sinceπ(q) = −0.003q2 + (5− 1.1)q − 300
is a quadratic with negative leading coefficient, the globalmaximum occurs at
q =−(5− 1.11)2(−0.003)
= 650
![Page 28: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/28.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the quantity which maximizes profit for the givenrevenue and cost functions on [0,1000]
R(q) = 5q − 0.003q2
C(q) = 300 + 1.1q
Sinceπ(q) = −0.003q2 + (5− 1.1)q − 300
is a quadratic with negative leading coefficient, the globalmaximum occurs at
q =−(5− 1.11)2(−0.003)
= 650
![Page 29: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/29.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the quantity which maximizes profit for the givenrevenue and cost functions on [0,1000]
R(q) = 5q − 0.003q2
C(q) = 300 + 1.1q
Sinceπ(q) = −0.003q2 + (5− 1.1)q − 300
is a quadratic with negative leading coefficient, the globalmaximum occurs at
q =−(5− 1.11)2(−0.003)
= 650
![Page 30: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/30.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
Find the quantity which maximizes profit for the givenrevenue and cost functions on [0,1000]
R(q) = 5q − 0.003q2
C(q) = 300 + 1.1q
Sinceπ(q) = −0.003q2 + (5− 1.1)q − 300
is a quadratic with negative leading coefficient, the globalmaximum occurs at
q =−(5− 1.11)2(−0.003)
= 650
![Page 31: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/31.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers.
Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
![Page 32: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/32.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers.
What price shouldthe company charge per trip to maximize revenue?
![Page 33: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/33.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
Since each $5 decrease in the price, p, increases the numberof customers, q, by 30, we have
q(p)
= 300 +(80− p)
5· 30
= 300 + 6(80− p)= 300 + 480− 6p= −6p + 780.
![Page 34: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/34.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
Since each $5 decrease in the price, p, increases the numberof customers, q, by 30, we have
q(p) = 300 +(80− p)
5· 30
= 300 + 6(80− p)= 300 + 480− 6p= −6p + 780.
![Page 35: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/35.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
Since each $5 decrease in the price, p, increases the numberof customers, q, by 30, we have
q(p) = 300 +(80− p)
5· 30
= 300 + 6(80− p)
= 300 + 480− 6p= −6p + 780.
![Page 36: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/36.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
Since each $5 decrease in the price, p, increases the numberof customers, q, by 30, we have
q(p) = 300 +(80− p)
5· 30
= 300 + 6(80− p)= 300 + 480− 6p
= −6p + 780.
![Page 37: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/37.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
Since each $5 decrease in the price, p, increases the numberof customers, q, by 30, we have
q(p) = 300 +(80− p)
5· 30
= 300 + 6(80− p)= 300 + 480− 6p= −6p + 780.
![Page 38: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/38.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
The revenue is therefore
R(p) =
p(−6p + 780) = −6p2 + 780p.
This is a downward facing parabola, so the maximum occursat the vertex
−7802(−6)
=78012
= 65
![Page 39: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/39.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
The revenue is therefore
R(p) = p(−6p + 780)
= −6p2 + 780p.
This is a downward facing parabola, so the maximum occursat the vertex
−7802(−6)
=78012
= 65
![Page 40: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/40.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
The revenue is therefore
R(p) = p(−6p + 780) = −6p2 + 780p.
This is a downward facing parabola, so the maximum occursat the vertex
−7802(−6)
=78012
= 65
![Page 41: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/41.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
The revenue is therefore
R(p) = p(−6p + 780) = −6p2 + 780p.
This is a downward facing parabola, so the maximum occursat the vertex
−7802(−6)
=78012
= 65
![Page 42: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/42.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
The revenue is therefore
R(p) = p(−6p + 780) = −6p2 + 780p.
This is a downward facing parabola, so the maximum occursat the vertex
−7802(−6)
=78012
= 65
![Page 43: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/43.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
The revenue is therefore
R(p) = p(−6p + 780) = −6p2 + 780p.
This is a downward facing parabola, so the maximum occursat the vertex
−7802(−6)
=78012
= 65
![Page 44: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/44.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
The revenue is therefore
R(p) = p(−6p + 780) = −6p2 + 780p.
This is a downward facing parabola, so the maximum occursat the vertex
−7802(−6)
=78012
= 65
![Page 45: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/45.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
The maximum revenue is
R(65) = $25,350.
![Page 46: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/46.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
The maximum revenue is
R(65)
= $25,350.
![Page 47: M 122 C MATH 122 2.5: M C R C Rpeople.math.sc.edu/aclifton/courses/122/Fall17/... · MATH 122 CLIFTON 4.3: GLOBAL MAXIMA AND MINIMA 2.5: MARGINAL COST AND REVENUE 4.4: PROFIT, COST,](https://reader031.vdocuments.mx/reader031/viewer/2022041714/5e4a492d9b1b453df0199d51/html5/thumbnails/47.jpg)
MATH 122
CLIFTON
4.3: GLOBALMAXIMA ANDMINIMA
2.5:MARGINALCOST ANDREVENUE
4.4: PROFIT,COST, ANDREVENUE
MAXIMIZINGPROFIT
MAXIMIZINGREVENUE
EXAMPLE
At a price of $80 for a half day trip, a white water raftingcompany attracts 300 customers. Every $5 decrease inprice attracts an additional 30 customers. What price shouldthe company charge per trip to maximize revenue?
The maximum revenue is
R(65) = $25,350.