Basic Derivative Rules
Advanced Derivative Rules
Applications of Derivatives
Critical/Inflection Points
Business Applications
100

Calculate the derivative:

f(x) = x3 + 4x2 - 6x + 7

f'(x) = 3x2 + 8x - 6

100

Calculate the derivative:

          6       x3 - 4x
f(x) = --  +  --------
        x4         x1/2

f'(x) = -24x-5 + (5/2)x3/2 - 2x-1/2

100

At which x-value(s) does the graph of f(x) = x3 + 6x2 + 21x + 5 have a tangent line with slope equal to 12?

x = -1, -3

100

Find the critical numbers and classify them as local maximums or minimums:

f(x) = 2/3x3 - x2 - 24x - 4

x = 4, -3 are critical #s

local maximum when x = -3
local minimum when x = 4

100

Suppose if a certain item is sold at a price p = 3q - (2/q) (in dollars) then q is the number of items sold. Find the marginal revenue when q = 1.

R'(1) = 6 $/item

200

Calculate the derivative:

f(x) = (x3/2)(5x3-7)

f'(x) = 3/2x1/2 (5x3-7) + x3/2 (15x2)

200

Calculate the derivative:

f(x) = 4x ln(x2 + 2x)

                                 (8x2 + 8x)
f'(x) = 4ln(x2 + 2x) +  -----------
                                  (x2 + 2x)

200

Write the equation of the line tangent to the graph of y = x2 - 3x + 3 at the point (2, 1)

y - 1 = 1(x-2) OR y = x -1

200

Find the critical numbers and intervals where f is increasing and decreasing:
f(x) = (2x + 4)1/3

Critical number at x = -2

Increasing on interval (-oo, oo)

Never decreasing

200

Suppose that the total cost (in hundreds of dollars) to produce x thousand barrels of a product is given by C(x) = 4x2 + 100x + 500. Find the marginal cost when x = 5. Describe what the marginal cost when x = 5 represents.

C'(5) = 140 hundred $ / thousand barrels

Means that when 5000 barrels are produced, total cost is increasing at a rate of $14,00 0 per thousand barrels produced.

300

Calculate the derivative:

         (x3 + 0.5x)
f(x) = ------------
         (5 - x7)

          (5 - x7)(3x2 + 0.5) - (x3 + 0.5x)(-7x6)
f'(x) = ------------------------------------------
                    (5 - x7)2

300

Calculate the derivative:

          ln(x)
f(x) = -------------
          x4 + 3x -9

          (x4 + 3x - 9) (1/x) - ln(x)(4x3+3)
f'(x) = -------------------------------------
           (x4 + 3x - 9)2

300

Write the equation of the line tangent to the graph of y = 2ex + 2x at the point (0, 2)

y-2 = 4(x - 0) OR y=4x+2

300

Find the absolute extrema for f(x) = x4 - 18x2 + 1 on [-1, 4]. Explain why we already know, before doing any work, that f has an absolute minimum and maximum on [-1, 4].

Absolute maximum is 1 when x = 0

Absolute minimum is -80 when x = 3

300

Suppose that the total cost C(x) to manufacture a quantity of x thousand gallons of perfume per week is given by C(x) = x4 - 4/3x3 - 4x2 + 1. For what values of x is the cost C(x) increasing? How many gallons of perfume should they make to minimize cost?

Increasing on interval (2, oo)

To minimize cost, 2000 gallons should be produced to minimize cost

400

Calculate the derivative:

f(x) = (4 + 21/2x)5

f'(x) = 5(4 + 21/2x)4 (21/2)

400

Calculate the derivative:

f(x) = (5 - x2)3/2 - ln(2 - 5x3) - e

                         15x2
f'(x) = -3x (5 - x2)1/2 +  --------                                     2 - 5x3

400

Use the limit definition of the derivative to find f′(x) for f(x) = 3x + x2

f'(x) = 3 + 2x

(Ava must verify you used limit notation)

400

Find the x-value of all points where the function f(x) = x2 - 16/x has absolute extrema on the interval [1, 4].

Absolute maximum when x = 4

Absolute minimum when x = 1

400

If the price charged for an item is p(x) = 12 - x/8 dollars, then x thousand items will be sold. Find (a) the total revenue function R(x), (b) the value of x that corresponds to maximal revenue, (c) the price that should be charged per item to maximize revenue

a) R(x) = 12000x - 125x2

b) x = 48

c) $6.00

500

Calculate the derivative:

f(x) = e3x^4 + x - 2

f'(x) = e3x^4 + x - 2 (12x3 + 1)

500

Calculate the derivative:

f(x) = e3x+1 (7-x6)4

f'(x) = 3e3x+1 (7 - x6)4 - 24xe3x+1 (7 - x6)3

500

Put each term into one of the following groups: Interpretations of f'(x), interpretations of y2 - y1 / x2 - x1 and reasons a function might be discontinuous.

Jump, derivative, instantaneous rate of change, asymptote, slope of the secant line, slope of the tangent line, hole, average rate of change

f'(x): derivative, instantaneous rate of change, slope of tangent

y2-y1 / x2-x1: slope of secant, average rate of change

discontinuous: jump, asymptote, hole

500

For the function f(x) = x4 - 4x3, determine the intervals on which the graph of f is concave up and down and find the points of inflection for the curve.

Concave up on (-oo, 0) U (2, oo)
Concave down on (0, 2)

Inflection points: (0,0) and (2, -16)

500

(Worth 700 Points)

The cost and demand functions for q pizzas per day are C(q) = 20 + 4q, p = D(q) = 10 - 1/2q.

(a) Find the total revenue and total profit functions, as well as the marginal profit function. 

(b) Calculate the number of pizzas demanded that maximizes profit.

(c) What price should I set my pizzas in order to meet that demand?

(d) What is the maximum possible profit?

(a) R(q) = 10q - 1/2q2, P(q) = 1/2q2 + 6q - 20, P'(q) = -q + 6

(b) = 6 pizzas

(c) = $7

(d) = $-2

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