Deck 4: Applications of Differentiation

If $f ^ { \prime \prime } ( x ) = 12 x ^ { 2 } - 2 , f ^ { \prime } ( - 1 ) = - 4$ , and $f ( 0 ) = 2$ , find $f ( 1 )$ .

A direction field for a function f is given below. Use this to sketch the antiderivative F that satisfies .

Draw a direction field for the function . Use this direction field to sketch several members of the family of antiderivatives.

(a) Draw a direction field for the function . Use this direction field to sketch several members of the family of antiderivatives.(b) Compute the general antiderivative for explicitly and sketch several specific antiderivatives. Compare these results with your sketches from part (a).

Find the most general antiderivative of the function $f ( x ) = \frac { 2 + x ^ { 3 } } { x ^ { 3 } }$ .

Given $f ^ { \prime } ( x ) = \frac { 1 } { 2 \sqrt { x } }$ , and $f ( 1 ) = 2$ , find $f \left( \frac { 1 } { 4 } \right)$ .

Given $f ^ { \prime \prime } ( x ) = 2 , f ^ { \prime } ( 0 ) = 1$ , and $f ( 0 ) = \frac { 3 } { 2 }$ , find $f ( 1 )$ .

Find the most general antiderivative of the function $f ( x ) = \frac { 1 + 3 x } { \sqrt { x } }$ .

Find the most general antiderivative of $\sec ^ { 2 } x + \sin x$ .

Find the most general antiderivative of the function $f ( x ) = \frac { 2 } { x ^ { 3 } }$ .

Find the most general antiderivative of the function $f ( x ) = \frac { 1 + 3 x } { x \sqrt { x } }$ .

Find the most general antiderivative of the function $f ( x ) = \frac { 2 e ^ { x } e ^ { 2 x } } { e ^ { x } }$ .

Find the most general antiderivative of the function.(a) (b) (c) (d)

(a) Draw a direction field for the function . Use this direction field to sketch several members of the family of antiderivatives.(b) Compute the general antiderivative for explicitly and sketch several specific antiderivatives. Compare these results with your sketches from part (a).

Find the most general antiderivative of the function.(a) (b) (c) (d)

Find the most general antiderivative of the function $f ( x ) = 9 x ^ { 2 }$ .

Find the most general antiderivative of the function.(a) (b) (c) (d)

Find the most general antiderivative of the function $f ( x ) = 2 x ^ { 3 } - x ^ { 2 } + 5$ .

A direction field for a function f is given below. Use this to sketch the antiderivative F that satisfies .

A car is traveling at 50 miles per hour when the brakes are fully applied, producing a constant deceleration of 22 feet per second . What is the distance covered before the car comes to a stop?

A ball is thrown directly upward at a speed of 64 feet per second from a cliff 80 feet above the ground.(a) Find expressions for the velocity and height of the ball t seconds after it was released.(b) At what time does the ball reach its highest point? How high above the ground at the base of the cliff does it reach?
(c) When does the ball strike the ground at the base of the cliff? What is its velocity at that instant?

Is it true that ? Explain why or why not.

Is it true that ? Explain why or why not.

An astronaut stands on a platform 3 meters above the moon's surface and throws a rock directly upward with an initial velocity of 32 m/s. Given that the acceleration due to gravity on the moon's surface is 1.6 m/s , how high above the surface of the moon will the rock travel?

A custard pie is thrown vertically up from the ground with velocity 48 ft/s. Find the greatest height that it attains.

Find f(x) if .

If , find the value of .

A stone falls from a cliff and reaches the ground at a speed 180 miles per hour. What is the height of the cliff above the ground? (Assume there is no air resistance.)

Is it true that ? Explain why or why not.

If Newton's method is used to solve $2 x ^ { 3 } + 2 x + 1 = 0$ with first approximation $x _ { 1 } = - 1$ , what is the second approximation, $x _ { 2 }$ ?

A cyclist traveling at 40 ft/s decelerates at a constant 4 ft/s . How many feet does she travel before coming to a complete stop?

Find f(x) if .

Is it possible for the velocity of an object to be zero at the same time that its acceleration is not zero? Explain.

Use Newton's method to find the root of $6 x ^ { 3 } - x ^ { 2 } - 19 x + 6 = 0$ that lies between 0 and 1.

Use Newton's method with the initial approximation $x _ { 1 } = 2$ to find $x _ { 2 }$ , the second approximation to a root of the equation $x ^ { 5 } - 34 = 0$ .

Find the position function s (t) given acceleration if and .

Is it true that ? Explain why or why not.

On the surface of the moon, a ball is thrown directly upward at a speed of 64 feet per second from a cliff 80 feet above the ground. The acceleration due to lunar gravity is 5:2 ft/s .(a) Find expressions for the velocity and height of the ball t seconds after it was released.(b) At what time does the ball reach its highest point? How high above the ground at the base of the cliff does it reach?
(c) When does the ball strike the ground at the base of the cliff? What is its velocity at that instant?

A ball is dropped from a tower. When it strikes the ground it is traveling downward at a rate of 60 feet per second. How tall is the tower?

Use Newton's method to approximate the root of that lies between and .

Use Newton's method to approximate the root of $f ( x ) = x ^ { 3 } - 4 x - 2$ that lies between $x = 1$ and $x = 2$ .

Sketch the graph of on the interval . Suppose that Newton's method is used to approximate the positive root of f with initial approximation .(a) On your sketch, draw the tangent lines that you would use to find and , and estimate the numerical values of and .(b) To approximate the negative root of f, use as the starting approximation. As before, draw the tangent lines that you would use to find and , and estimate the numerical values of and .(c) Suppose that you had used as the starting point for approximating the negative root. Discuss what would happen.

(a) Explain why Newton's Method is unable to find a root for if or .(b) Using ,use Newton's Method to approximate a root of this equation to four decimal places.

Find, correct to six decimal places, the root of .

Sketch the graph of . Clearly the only x-intercept is zero. However, Newton's method fails to converge here. Explain this failure.

Given , use Newton's method to find the iterative formula for .

Given , use Newton's method to find the iterative formula for .

Use Newton's Method to approximate all real roots of .

If Newton's method is used to find the cube root of a number a with first approximation , find an expression for .

Given , use Newton's method to find the iterative formula for .

Sketch the graph of on . For each initial approximation given below, determine graphically what happens if Newton's Method is used to approximate the roots of .(a) (b) (c) (d) (e)

Use Newton's method to approximate the root of $f ( x ) = x ^ { 3 } + 4 x + 2$ that lies between $x = - 1$ and $x = 0$ .

Given $f ( x ) = x ^ { 3 } + 2 x - 4$ , use Newton's method to find the iterative formula for $x _ { n + 1 }$ .

Given $f ( x ) = x ^ { 2 } - 3$ , use Newton's method to find the iterative formula for $x _ { n + 1 }$ .

Use Newton's method to find correct to four decimal places.

Find the x-coordinate of the point on the parabola $y = \sqrt { x }$ nearest to the point (4, 0).

Use Newton's method to approximate the root of that lies between and .

A rancher wishes to fence in a rectangular corral enclosing 1300 square yards and must divide it in half with a fence down the middle. If the perimeter fence costs $5 per yard and the fence down the middle costs $3 per yard, determine the dimensions of the corral so that the fencing cost will be as small as possible.

A revenue function is given by $R ( x ) = 6000 x - 0.2 x ^ { 3 }$ . where x is the number of units sold. Find the number of units x that produces maximum revenue.

A farmer intends to fence o a rectangular pen for his pig Wilbur, using the barn as one of the sides. If the enclosed area is to be 50 square feet, what is smallest amount of fence needed, in feet?

A plastic right cylinder with closed ends is to hold V cubic feet. If there is no waste in construction, find the ratio between the height and diameter that results in the minimum use of materials.

Two positive numbers have product 200. Find the minimum value of the sum of one number plus twice the other.

Farmer Brown wants to fence in a rectangular plot in a large field, using a rock wall which is already there as the north boundary. The fencing for the east and west sides of the plot will cost $3/yard, but she needs to use special fencing which will cost $5 / yard on the south side of the plot. If the area of the plot is to be 600 square yards, find the dimensions for the plot which will minimize the cost of the fencing. Dimensions below are listed east by south.

A revenue function is given by $R ( x ) = 6000 x - 0.4 x ^ { 3 }$ . where x is the number of units sold. Find the marginal revenue when $x = 50$ .

Suppose that a baseball is tossed straight up and that its height as a function of time (in seconds) is given by the formula . What is the maximum height of the ball?

Suppose that C(x) is the number of dollars in the total cost of producing x tables (x > 6) and $C ( x ) = 25 + 4 x + 18 x ^ { - 1 }$ . Find the marginal cost when $x = 15$ .

An open box is made from a 8 inch $\times$ 8 inch piece of cardboard by cutting equal squares from each corner and folding up the sides. What size squares should be cut out to create a box with maximum volume?

A company has cost function $C ( x ) = 1000 - 10 x + x ^ { 2 }$ . Find the average cost of producing 100 units.

The cost to produce x units of a certain product is given by $C ( x ) = 10,000 + 8 x + \frac { 1 } { 16 } x ^ { 2 }$ . Find the value of x that gives the minimum average cost.

A company has a cost function $C ( x ) = 1000 - 10 x + x ^ { 2 }$ . Find the marginal cost of producing 100 units.

A company has a cost function $C ( x ) = 200 - 50 x + x ^ { 2 }$ and demand function $p ( x ) = 50 - x$ . How many units should it make to maximize its profit?

Find the shortest distance from the point $( 4,0 )$ to a point on the parabola $y ^ { 2 } = 2 x$ .

Find the x-coordinate of the point on the graph of $y = \frac { 1 } { x ^ { 2 } + 3 }$ that has the maximum slope.

Find the point on the line $y = 2 x - 3$ that is nearest to the origin.