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Who wants to be a Millionaire?

Who wants to be a Millionaire?. Hosted by Kenny, Katie, Josh and Mike. $100. What is the derivative of (3x 2 ) 1/2 ?. A - (1/2)(3x 2 ) -1/2. B - (1/2)(6x) -1/2. C - (6x) / 2x(3) 1/2. c - (6x) / 2x(3) 1/2. D - (2/3)(3x 2 ) 3/2. Explanation. Y = (3x 2 ) 1/2 d/dx[u n ] = nu n-1 u’

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Who wants to be a Millionaire?

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  1. Who wants to be a Millionaire? Hosted by Kenny, Katie, Josh and Mike

  2. $100 What is the derivative of (3x2)1/2 ? • A - (1/2)(3x2)-1/2 B - (1/2)(6x)-1/2 • C - (6x) / 2x(3)1/2 • c - (6x) / 2x(3)1/2 • D - (2/3)(3x2)3/2

  3. Explanation Y = (3x2)1/2 d/dx[un] = nun-1u’ u = 3x2 n = 1/2 So, d/dx (3x2)1/2 = 1/2(3x2)-1/2(6x) = (6x) / 2x(3)1/2

  4. $200 How many critical numbers are on the graph of 2x2(4x) • A - 1 • A - 1 B - 2 • C - 3 • D - 4

  5. Explanation Critical numbers exist where the f’(x) = 0 f(x) = 2x2(4x) or 8x3 So f’(x) = 24x2 24x2 = 0 Divide each side by 24 to get x2 = 0 Square root each side to find that x = 0 and that there is only one critical number.

  6. $500 If mean value theorem applies, find all values of c in the open interval (a,b) such that f(x) = x2/3 [0,1] • A - c = 7.431 B - c = 3.154 • C - c = .296 • C - c = .296 • D - Mean value does not apply

  7. Explanation Mean value applies because f(x) is differentiable and continuous on the interval. If then f’(c) = 1. this means that the derivative must equal 1 and that the values of x are the c values of the function. f’(c) = 1 at c = 2.96 on the interval.

  8. $1,000 On what intervals is the graph of f(x) = -8 / x3 increasing? • A - (-∞ , 0) B - (0 , ∞) • C - f(x) is strictly decreasing • D - (-∞ , ∞) • D - (-∞ , ∞)

  9. Explanation A function is increasing on all the intervals that f’(x) > 0 [ f(x) has a slope that is greater than 0] From the graph of f’(x) you can see that for -inf. < x < inf., x is > 0 and therefore on the interval (-inf. , inf.) f(x) is increasing.

  10. $2,000 What is the differential dy? Y = (49 - x3)1/2 • A - dy = (1/2)(-3x2)-1/2dx B - dy = (1/2)(-3x2)(49 - x3)1/2dx • C - dy = (1/2)(49 - x3)-1/2dx • D - dy = (1/2)(-3x2)(49 - x3)-1/2dx • D - dy = (1/2)(-3x2)(49 - x3)-1/2dx

  11. Explanation To find the differentiable, derive, and then multiply both sides by dx. Y = (49 - x3)1/2 Deriving you get: dy/dx = (49 - x3)1/2 Multiply each side by dx to get: dy = (49 - x3)1/2 dx

  12. $4,000 Determine the points of inflection of the function f(x) = (x3+2)(x4) • A - (-0.830, 0.677) • A - (-0.830, 0.677) B - (-1.046, 1.024) • C - (1.3 x 10-13 , 6 x 10-52) • D - (-0.760, 0.987)

  13. Explanation The x values of points of inflection on f(x) exist where f’’(x) = 0. When f(x) = (x3+2)(x4) or x7 +2x4, f’(x) = 7x6 + 8x3. So, f’’(x) = 42x5 + 24x2 Using a graphing calculator find where f’’(x) = 0. For 0 = 42x5 + 24x2, x = -0.830. Now, substituting .83 into the original equation, we find that he coordinate of the p of I is (-0.830 , 0.677)

  14. $8,000 Find the limit as x app. Inf. f(x) = 20/(x2 + 1) • A - Limit does not exist B - Positive Infinity • C - 0 • C - 0 • D - Negative Infinity

  15. Explanation If you divide everything in an equation by x to the highest power in the denominator, then plug in infinity for x, you can find the limit as x approaches infinity. Lim as x app. Infinity 20 / 1+x2=

  16. $16,000 On what intervals is the concavity positive on f(x) = -2x2(1-x2) • A - (-∞ , -0.707) (0.707, ∞) B - (-∞ , -0.408) (0.408, ∞) • B - (-∞ , -0.408) (0.408, ∞) • C - (-0.408 , 0.408) • D - (-0.707 , 0.707)

  17. Explanation The concavity of f(x) at any value of x is determined by the sign ( + or - ) of f’’(x). If the sign is + then the concavity is positive and negative if the sign is -. Points of infection divide intervals of different concavity. P of I occur where f’’(x) = 0 and f’’(x) = 0 at x = ±0.408 so the intervals of different concavity are (-inf. , -.408) , (-.408 , .408) , and (.408 , inf.) Explanation cont. >>

  18. Explanation cont. By checking an x value in each interval in the second derivative you find that on (-inf. , -.408) and (.408 , inf.) the concavity is > 0 And that on (-.408 , .408) the concavity < 0

  19. $32,000 The radius of a ball measures 5.25 inches. If the measurement is correct to within 0.01 inch, estimate the propagated error in the volume of the ball. V = (4/3)πr3 • A - ±2.639 in3 B - ±3.464 in3 • B - ±3.464 in3 • C - ±3.464 in2 • D - 2.639 in3

  20. Explanation First find the differential dv. dv = 4πr2dr Given is r = 5.25in and dr = ±0.01in so: dv =4π(5.25)2(±0.01) = ±3.464in3

  21. $64,000 Non-graphing calculator Find the slope and concavity at x = -7 on y = (-2x3)(sin x) • A - m = -710.33 concavity > 0 B - m = 710.33 concavity < 0 • C - m = 710.33 concavity > 0 • C - m = 710.33 concavity > 0 • D - m = -710.33 concavity < 0

  22. Explanation The slope at x = -7 can be found by plugging -7 in for x in the derivative of the function. Use the product rule to get f’(x) = (-6x2)(sin x) + (-2x3)(cos x) f’(-7) = 710.33 Explanation continued >>

  23. Explanation Cont. Use the sign of f’’(-7) to find concavity f’(x) = (-6x2)(sin x) + (-2x3)(cos x) f”(x) = (-12x)(sin x) + (-6x2)(cos x) + (-6x2)(cos x) + (-2x3)(-sin x) = -47.789 Because the second derivative at x = -7 is negative, the concavity at x = -7 is negative.

  24. $125,000 Non-graphing calculator Find the concavity and the equation of the tangent line at x = 3 on y = (2)/(x2+x3) • A - conc <0 y = -0.051x + 0.209 B - conc >0 y = -1.051x + 0.209 • B - conc >0 y = -0.051x + 0.209 • C - conc >0 y = -2.675x - 3.081 • D - conc >0 y = -2.675x + 3.081

  25. Explanation f(x) = (2)/(x2+x3) or (2)(x2+x3)-1 f(3) = .0556 = y f’(x) = 2(-1(x2+x3)-2(2x +3x2)) f’(3) = -0.051 = m f”(x) = -2((-2(x2+x3)-3)(2x +3x2) + ((x2+x3)-2)(2+6x) f”(3) = 0.0625 f”(3) > 0 so the concavity is positive. Use (y-y1)=m(x-x1) >>> (y - .0556 ) = (- .051)( x - 3 ) Simplify to get y = -0.051x + 0.209

  26. $250,000 A farmer plans to fence a rectangular pasture adjacent to a river. The pasture must contain 180,000m2 in order to provide enough grass for the herd. When looking for the dimensions that requires the least amount of fencing, what equation should be set to zero to solve for the length of side across from the river? • A - y = 2x + 180,000/x B - y = x +360,000/x • C - y = 2 - 180,000/x2 • D - y = 1 - 360,000/x2 • D - y = 1 - 360,000/x2

  27. Explanation Primary: F = 2x + y Secondary: xy = 180,000 We know that y is the side across from the river because there is only one of that side. Therefore we want to be solving for y. x = 180,000 / y. Substitute x into the primary. F = 2(180,000)/y + y Now, \set 1 - 360,000/y2equal to zero to find the minimum value for y.

  28. $500,000 Non-graphing calculator Find the absolute maximum of the function f’’(x) on [-1 , 2] f(x) = x8 + 2x4 • A - ( 2 , 4712 ) B - ( 2 , 3680 ) • B - ( 2 , 3680 ) • C - ( 0 , 0 ) • D - ( -1, 3890

  29. Explanation The absolute maximum of f”(x) is determined by testing all of the critical numbers and endpoints of f”(x). The critical numbers are determined by setting f’’’(x) equal to zero. f(x) = x8 + 2x4 f’(x) = 8x7 + 8x3 f”(x) = 56x6 + 24x2 f’’’(x) = 336x5 + 48x f’’’(x) = 0 at x = 0 When we plug -1, 0, and 2 into the f(x) we find that 2, 3680 is the absolute maximum on the interval

  30. $1,000,000 The functions f and g are differentiable for all real numbers. The function of h is given by h(x) = f(g(x)) - 6 What slope, h’(r), must exist on 1 < r < 3 • A - m = 14 B - m = -5 • B - m = -5 • C - m = 5 • D - m = -6

  31. Explanation First find h(1) and h(3) and find the slope that is created by the two points. Then, by the definition of the mean value theorem, there must be a point on the interval with that slope. h(x) = f(g(x)) - 6 h’(1) = f(g(1)) - 6 = f(2) - 6 = 9 - 6 = 3 h’(3) = f(g(3)) - 6 = f(4) -6 = -1 - 6 = -7 m = (y2 - y1) / (x2 - x1) = (-7- 3) / (3- 1) = -5

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