Really need help with this one. 83616x48125second, What is the minimum wind resistance on the interval? At what velocity will the wind resistance reach its minimum on this same interval? Round your final answerx3x2Wind resistance, measured in Newtons, is modeled by f(x) =+ 1060, where 650 < x < 3700 is the wind velocity in meters per3465000750to the nearest hundredth.AnswerE KeypadKeyboard ShortcutsMinimum wind resistance f(x) =Newtonsobtained atx =meters per second

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Description: Really need help with this one. 83616x48125second, What is the minimum wind resistance on the interval? At what velocity will the wind resistance reach its minimum on this same interval? Round your final answerx3x2Wind resistance, measured in Newtons

Solution:- differentiate w.r.t to x

Math

Calculus

x² 83616x Vind resistance, measured in Newtons, is modeled by f(x) == + 1060, where 650 < x < 3700 is the wind velocity in meters per 3465000 750 48125 econd, What is the minimum wind resistance on the interval? At what velocity will the wind resistance reach its minimum on this same interval? Round your final answer o the nearest hundredth. nswer E Keypad

x² 83616x Vind resistance, measured in Newtons, is modeled by f(x) == + 1060, where 650 < x < 3700 is the wind velocity in meters per 3465000 750 48125 econd, What is the minimum wind resistance on the interval? At what velocity will the wind resistance reach its minimum on this same interval? Round your final answer o the nearest hundredth. nswer E Keypad

Algebra & Trigonometry with Analytic Geometry

13th Edition

ISBN:9781133382119

Author:Swokowski

Publisher:Swokowski

Chapter4: Polynomial And Rational Functions

Section4.6: Variation

Problem 15E

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Question

Really need help with this one.

83616x
48125
second, What is the minimum wind resistance on the interval? At what velocity will the wind resistance reach its minimum on this same interval? Round your final answer
x3
x2
Wind resistance, measured in Newtons, is modeled by f(x) =
+ 1060, where 650 < x < 3700 is the wind velocity in meters per
3465000
750
to the nearest hundredth.
Answer
E Keypad
Keyboard Shortcuts
Minimum wind resistance f(x) =
Newtons
obtained atx =
meters per second

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