Application of derivatives Questions and Answers

Find dy/dx by implicit differentiation. Then find the slope of the graph at the given point. tan (5x + y) = 5x, (0, 0) dy dx = At (0, 0): y'=
Math
Application of derivatives
Find dy/dx by implicit differentiation. Then find the slope of the graph at the given point. tan (5x + y) = 5x, (0, 0) dy dx = At (0, 0): y'=
Evaluate f(8) and f(8.1) and use the results to approximate f '(8). (Round your answer to one decimal place.) f(x) = x(1-x) f'(8) = -15
Math
Application of derivatives
Evaluate f(8) and f(8.1) and use the results to approximate f '(8). (Round your answer to one decimal place.) f(x) = x(1-x) f'(8) = -15
The function r(t) = 1,000 πcos(πt/2) gives the rate of change in the deer population in a certain area after t months. The net change in the deer population between t = 0 and t = 3 is -2,000. -2,000. 2,000. 2,000.
Math
Application of derivatives
The function r(t) = 1,000 πcos(πt/2) gives the rate of change in the deer population in a certain area after t months. The net change in the deer population between t = 0 and t = 3 is -2,000. -2,000. 2,000. 2,000.
A projectile is shot upward from the surface of Earth with an initial velocity of 123 meters per second. Use the position function below for free-falling objects. What is its velocity after 3 seconds? After 15 seconds? (Round your answers to one decimal place.) s(t) =-4.9t² + vot + 50 3 s 15 s
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Application of derivatives
A projectile is shot upward from the surface of Earth with an initial velocity of 123 meters per second. Use the position function below for free-falling objects. What is its velocity after 3 seconds? After 15 seconds? (Round your answers to one decimal place.) s(t) =-4.9t² + vot + 50 3 s 15 s
An 8-foot ladder is leaning against a building. If the bottom of the ladder is sliding along the pavement directly away from the building at 1 ft/sec, how fast is the top of the ladder moving down when the foot of the ladder is 3 feet from the wall?
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Application of derivatives
An 8-foot ladder is leaning against a building. If the bottom of the ladder is sliding along the pavement directly away from the building at 1 ft/sec, how fast is the top of the ladder moving down when the foot of the ladder is 3 feet from the wall?
Water is leaking out the bottom of a hemispherical tank of radius 8 feet at a rate of 2 cubic feet per hour. The tank was full at a certain time. How fast is the water level changing when its height h is 3 feet? Note: the volume of a segment of height h in a hemisphere of radius r is xh [r-(h/3)] The water level is changing at a rate of t/hr when its heighth is 3 feet.
Math
Application of derivatives
Water is leaking out the bottom of a hemispherical tank of radius 8 feet at a rate of 2 cubic feet per hour. The tank was full at a certain time. How fast is the water level changing when its height h is 3 feet? Note: the volume of a segment of height h in a hemisphere of radius r is xh [r-(h/3)] The water level is changing at a rate of t/hr when its heighth is 3 feet.
A spherical balloon is inflating with helium at a rate of 400π ft3/min. How fast is the balloon's radius increasing at the instant the radius is 5 ft? at the instant the radius is 5 ft.
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Application of derivatives
A spherical balloon is inflating with helium at a rate of 400π ft3/min. How fast is the balloon's radius increasing at the instant the radius is 5 ft? at the instant the radius is 5 ft.
Rachel is a stunt driver, and she's escaping from a building that is about to explode! The variable d models Rachel's distance from her exit (in meters) t seconds after the cameras began recording the stunt. d=-38t+ 220 What is Rachel's speed?
Math
Application of derivatives
Rachel is a stunt driver, and she's escaping from a building that is about to explode! The variable d models Rachel's distance from her exit (in meters) t seconds after the cameras began recording the stunt. d=-38t+ 220 What is Rachel's speed?
Use a graphing utility to graph the function to approximate (to two decimal places) any relative minima or maxima of the function. (If an answer does not exist, enter DNE.) h(x)=x² - 6x² + 11
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Application of derivatives
Use a graphing utility to graph the function to approximate (to two decimal places) any relative minima or maxima of the function. (If an answer does not exist, enter DNE.) h(x)=x² - 6x² + 11
A manufacturer is making cylindrical cans that hold 200 cm³. The dimensions of the can are not specified, so to save manufacturing costs, the manufacturer wants to make the can that uses the least material. What are the dimensions, to the nearest three decimal places, of the can that has the smallest surface area? Radius= Height =
Math
Application of derivatives
A manufacturer is making cylindrical cans that hold 200 cm³. The dimensions of the can are not specified, so to save manufacturing costs, the manufacturer wants to make the can that uses the least material. What are the dimensions, to the nearest three decimal places, of the can that has the smallest surface area? Radius= Height =
The frequency of an ambulance siren f heard by an individual standing on , where is the velocity of a street corner can be modeled as f: 121400 330-v the approaching ambulance. What is the rate of change of f with respect to when the ambulance is moving at 25 m/s. Note: Round to the nearest hundreth.
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Application of derivatives
The frequency of an ambulance siren f heard by an individual standing on , where is the velocity of a street corner can be modeled as f: 121400 330-v the approaching ambulance. What is the rate of change of f with respect to when the ambulance is moving at 25 m/s. Note: Round to the nearest hundreth.
A cup of coffee is poured when its temperature is 150 Fahrenheit and is placed on a table in a room where the temperature is 75 Fahrenheit. Give answers accurate to at least 2 decimal places. If the temperature of the coffee is 96 Fahrenheit after 5 minutes, what is its temperature after 8 minutes? Fahrenheit
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Application of derivatives
A cup of coffee is poured when its temperature is 150 Fahrenheit and is placed on a table in a room where the temperature is 75 Fahrenheit. Give answers accurate to at least 2 decimal places. If the temperature of the coffee is 96 Fahrenheit after 5 minutes, what is its temperature after 8 minutes? Fahrenheit
A street light is at the top of a 11 ft tall pole. A woman 6 ft tall walks away from the pole with a speed of 7 ft/sec along a straight path. How fast is the tip of her shadow moving when she is 45 ft from the base of the pole? ft sec
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Application of derivatives
A street light is at the top of a 11 ft tall pole. A woman 6 ft tall walks away from the pole with a speed of 7 ft/sec along a straight path. How fast is the tip of her shadow moving when she is 45 ft from the base of the pole? ft sec
The average number of vehicles waiting in a line to enter a parking ramp can be modeled by the function f(x) =x²/5(4-x) where x is a quantity between 0 and 1 known as the traffic intensity. Find the rate of change of the number of vehicles in line with respect to the traffic intensity for x = 0.2. The rate of change for x = 0.2 is. (Simplify your answer. Type an integer or decimal rounded to four decimal places as needed.)
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Application of derivatives
The average number of vehicles waiting in a line to enter a parking ramp can be modeled by the function f(x) =x²/5(4-x) where x is a quantity between 0 and 1 known as the traffic intensity. Find the rate of change of the number of vehicles in line with respect to the traffic intensity for x = 0.2. The rate of change for x = 0.2 is. (Simplify your answer. Type an integer or decimal rounded to four decimal places as needed.)
Identify the coordinates of any local and absolute extreme points and inflection points. Graph the function. y=x^5-10x^4 + 4 = x^4(x-10)+4 Identify the coordinates of the local maximum points. Select the correct choice below and, if necessary, fill in the answer box to complete your choice. A. The local maximum point(s) is/are B. There are no local maximum points.
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Application of derivatives
Identify the coordinates of any local and absolute extreme points and inflection points. Graph the function. y=x^5-10x^4 + 4 = x^4(x-10)+4 Identify the coordinates of the local maximum points. Select the correct choice below and, if necessary, fill in the answer box to complete your choice. A. The local maximum point(s) is/are B. There are no local maximum points.
A company that makes bicycles has determined that a new employee can assemble M(d), where M(d) = 102d²/5d²+7 (a) Find the rate of change function for the number of bicycles assembled with respect to time. (b) Find and interpret M'(2) and M'(5).
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Application of derivatives
A company that makes bicycles has determined that a new employee can assemble M(d), where M(d) = 102d²/5d²+7 (a) Find the rate of change function for the number of bicycles assembled with respect to time. (b) Find and interpret M'(2) and M'(5).
Answer the following questions about the function whose derivative is f'(x) = x^2(x-4) / x+6, x ≠ -6 a. What are the critical points of f? b. On what open intervals is f increasing or decreasing? c. At what points, if any, does f assume local maximum and minimum values?
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Application of derivatives
Answer the following questions about the function whose derivative is f'(x) = x^2(x-4) / x+6, x ≠ -6 a. What are the critical points of f? b. On what open intervals is f increasing or decreasing? c. At what points, if any, does f assume local maximum and minimum values?
Find the absolute maximum. Select the correct choice below and, if necessary, fill in the answer boxes to complete your choice. OA. The absolute maximum value 1 occurs at 0 = 2π (Use a comma to separate answers as needed. Type exact answers, using it as needed.) B. There is no absolute maximum. Find the absolute minimum. Select the correct choice below and, if necessary, fill in the answer boxes to complete your choice. A. The absolute minimum value occurs at 0= (Use a comma to separate answers as needed. Type exact answers, using * as needed.) OB. There is no absolute minimum.
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Application of derivatives
Find the absolute maximum. Select the correct choice below and, if necessary, fill in the answer boxes to complete your choice. OA. The absolute maximum value 1 occurs at 0 = 2π (Use a comma to separate answers as needed. Type exact answers, using it as needed.) B. There is no absolute maximum. Find the absolute minimum. Select the correct choice below and, if necessary, fill in the answer boxes to complete your choice. A. The absolute minimum value occurs at 0= (Use a comma to separate answers as needed. Type exact answers, using * as needed.) OB. There is no absolute minimum.
Find the critical points, domain endpoints, and local extreme values for the function. y=6x√16-x² What is/are the critical point(s) or domain endpoint(s) where f' is undefined? Select the correct choice below and, if necessary, fill in the answer box to complete your choice. A. The critical point(s) or domain endpoint(s) where f' is undefined is/are at x = 4,- 4 (Simplify your answer, including any radicals. Use integers or fractions for any numbers in the expression. Use a comma to separate answers as needed.) B. There are no critical points or domain endpoints where f' is undefined. What is/are the critical point(s) where f' is 0? Select the correct choice below and, if necessary, fill in the answer box to complete your choice. A. The critical point(s) where f' is 0 is/are at x = (Type an exact answer, using radicals as needed. Use a comma to separate answers as needed.) B. There are no critical points where f' is 0.
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Application of derivatives
Find the critical points, domain endpoints, and local extreme values for the function. y=6x√16-x² What is/are the critical point(s) or domain endpoint(s) where f' is undefined? Select the correct choice below and, if necessary, fill in the answer box to complete your choice. A. The critical point(s) or domain endpoint(s) where f' is undefined is/are at x = 4,- 4 (Simplify your answer, including any radicals. Use integers or fractions for any numbers in the expression. Use a comma to separate answers as needed.) B. There are no critical points or domain endpoints where f' is undefined. What is/are the critical point(s) where f' is 0? Select the correct choice below and, if necessary, fill in the answer box to complete your choice. A. The critical point(s) where f' is 0 is/are at x = (Type an exact answer, using radicals as needed. Use a comma to separate answers as needed.) B. There are no critical points where f' is 0.
Find the absolute extrema of the function f(x)=x²-18x² +81 on the interval [-4,4]. The function has an absolute minimum at x = . (Simplify your answer. Use a comma to separate answers as needed.) The function has an absolute maximum at x = (Simplify your answer. Use a comma to separate answers as needed.)
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Application of derivatives
Find the absolute extrema of the function f(x)=x²-18x² +81 on the interval [-4,4]. The function has an absolute minimum at x = . (Simplify your answer. Use a comma to separate answers as needed.) The function has an absolute maximum at x = (Simplify your answer. Use a comma to separate answers as needed.)
Find the absolute extrema of the function f(x)=x4-72x² + 1296 on the interval [-7,7]. Find the second derivative of the function.
Math
Application of derivatives
Find the absolute extrema of the function f(x)=x4-72x² + 1296 on the interval [-7,7]. Find the second derivative of the function.
A farmer has 2100 m of fencing and wants to enclose a rectangular field bordering a river, with no fencing needed along the river. Let x represent the width of the field. Complete parts (a) through (d) below. ***** (a) Write an expression for the length of the field. Let the length of the field be the distance along the river. L(x) =
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Application of derivatives
A farmer has 2100 m of fencing and wants to enclose a rectangular field bordering a river, with no fencing needed along the river. Let x represent the width of the field. Complete parts (a) through (d) below. ***** (a) Write an expression for the length of the field. Let the length of the field be the distance along the river. L(x) =
A rectangular tank that is 8788 ft³ with a square base and open top is to be constructed of sheet steel of a given thickness. Find the dimensions of the tank with minimum weight.
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Application of derivatives
A rectangular tank that is 8788 ft³ with a square base and open top is to be constructed of sheet steel of a given thickness. Find the dimensions of the tank with minimum weight.
Consider the function 3-x²/2 if x ≤ 1 f(x) = 1/x if x > 1. Show that f satisfies the conditions of the mean value theorem on the interval [0, 2] and determine all the values of c that satisfy the condition of the mean value theorem.
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Application of derivatives
Consider the function 3-x²/2 if x ≤ 1 f(x) = 1/x if x > 1. Show that f satisfies the conditions of the mean value theorem on the interval [0, 2] and determine all the values of c that satisfy the condition of the mean value theorem.
(a) Construct a 95% confidence interval for the mean lifetime of this type of drill. Use tables or technology. Round your answers to at least two decimal places. The confidence interval is
Math
Application of derivatives
(a) Construct a 95% confidence interval for the mean lifetime of this type of drill. Use tables or technology. Round your answers to at least two decimal places. The confidence interval is
For a certain endangered species, the goal is to have 2700 breeding adults in the wild by 2023. If progress toward this goal continues, the population of breeding adults in the wild in year x can be approximated by P(x) = 84 e 0.19x, where x = 12 corresponds to the year 2012. Use this model to find the following. (a) P(18) (b) P'(x) and P'(18) (c) Interpret the answers in parts (a) and (b). (a) P(18)= (Round to the nearest integer as needed.) (b) P'(x) = P'(18)= (c) Interpret the results. In 2018, there were about breeding adults, and the population is (Round to the nearest integer as needed.) ***** at a rate of about breeding adults per year. increasing decreasing
Math
Application of derivatives
For a certain endangered species, the goal is to have 2700 breeding adults in the wild by 2023. If progress toward this goal continues, the population of breeding adults in the wild in year x can be approximated by P(x) = 84 e 0.19x, where x = 12 corresponds to the year 2012. Use this model to find the following. (a) P(18) (b) P'(x) and P'(18) (c) Interpret the answers in parts (a) and (b). (a) P(18)= (Round to the nearest integer as needed.) (b) P'(x) = P'(18)= (c) Interpret the results. In 2018, there were about breeding adults, and the population is (Round to the nearest integer as needed.) ***** at a rate of about breeding adults per year. increasing decreasing
A private shipping company will accept a box for domestic shipment only if the sum of its length and girth (distance around) does not exceed 120 in. Suppose you want to mail a box with square sides so that its dimensions are h by h by w and it's girth is 2h+2w. What dimensions will give the box its largest volume? 40 in. x 20 in. x 40 in. 80 in. x 20 in. 20 in. x 20 in. x 40 in. 20 in. x 20 in. x 100 in.
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Application of derivatives
A private shipping company will accept a box for domestic shipment only if the sum of its length and girth (distance around) does not exceed 120 in. Suppose you want to mail a box with square sides so that its dimensions are h by h by w and it's girth is 2h+2w. What dimensions will give the box its largest volume? 40 in. x 20 in. x 40 in. 80 in. x 20 in. 20 in. x 20 in. x 40 in. 20 in. x 20 in. x 100 in.
Determine the horizontal asymptote of the function. If none exists, state that fact. 3x³ - 2x 2 7x + 4x f(x) = Select the correct choice below and, if necessary, fill in the answer box(es) to complete your choice. A. The function has two horizontal asymptotes. The top asymptote is (Type equations.) B. The function has one horizontal asymptote, C. The function has no horizontal asymptotes. (Type an equation.) and the bottom asymptote is
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Application of derivatives
Determine the horizontal asymptote of the function. If none exists, state that fact. 3x³ - 2x 2 7x + 4x f(x) = Select the correct choice below and, if necessary, fill in the answer box(es) to complete your choice. A. The function has two horizontal asymptotes. The top asymptote is (Type equations.) B. The function has one horizontal asymptote, C. The function has no horizontal asymptotes. (Type an equation.) and the bottom asymptote is
The number of online buyers in Western Europe grew steadily over the past decade. The function P(t) = 27.1 + 14.79 In t (1 st≤7) gives the number of online buyers as a percent of the total population, where t is measured in years, with t = 1 corresponding to 2001. (a) What was the percentage of online buyers in 2004? (Round your answer to two decimal places.) ---Select--- (b) How fast was it changing in 2004? (Round your answer to two decimal places.) ---Select--
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Application of derivatives
The number of online buyers in Western Europe grew steadily over the past decade. The function P(t) = 27.1 + 14.79 In t (1 st≤7) gives the number of online buyers as a percent of the total population, where t is measured in years, with t = 1 corresponding to 2001. (a) What was the percentage of online buyers in 2004? (Round your answer to two decimal places.) ---Select--- (b) How fast was it changing in 2004? (Round your answer to two decimal places.) ---Select--
Find the point of diminishing returns (x,y) for the function R(x), where R(x) represents revenue (in thousands of dollars) and x represents the amount spent on advertising (in thousands o dollars). R(x) = 10,000-x³+45x² +600x, 0≤x≤ 20 The point of diminishing returns is. (Type an ordered pair.)
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Application of derivatives
Find the point of diminishing returns (x,y) for the function R(x), where R(x) represents revenue (in thousands of dollars) and x represents the amount spent on advertising (in thousands o dollars). R(x) = 10,000-x³+45x² +600x, 0≤x≤ 20 The point of diminishing returns is. (Type an ordered pair.)
Thus, the relative maximum of f(x) = arctan(x) - arctan(x - 8) is (x, y) =
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Application of derivatives
Thus, the relative maximum of f(x) = arctan(x) - arctan(x - 8) is (x, y) =
Find the relative extrema of the function. Use a graphing utility to confirm your results. (Order your answers from smallest to largest x, then from smallest to largest y.) f(x) = sin(x) sinh(x) cos(x) cosh(x), -4≤x≤4 maxima (x, y) = (x, y) = minimum (x, y) =
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Application of derivatives
Find the relative extrema of the function. Use a graphing utility to confirm your results. (Order your answers from smallest to largest x, then from smallest to largest y.) f(x) = sin(x) sinh(x) cos(x) cosh(x), -4≤x≤4 maxima (x, y) = (x, y) = minimum (x, y) =
Consider the function. f(x) = 2x³ + 12x² - 24x + 15 Step 2 of 2: Determine the open intervals on which the function is increasing and on which the function is decreasing. Enter Ø to indicate the interval is empty. Answer Separate multiple entries with commas. Increasing: Decreasing: 1 Keyboard S
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Application of derivatives
Consider the function. f(x) = 2x³ + 12x² - 24x + 15 Step 2 of 2: Determine the open intervals on which the function is increasing and on which the function is decreasing. Enter Ø to indicate the interval is empty. Answer Separate multiple entries with commas. Increasing: Decreasing: 1 Keyboard S
f(x) = 2x³ - 6x² + 48x Determine the open intervals on which the function is increasing and on which the function is decreasing. Enter Ø to indicate the interval is empty.
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Application of derivatives
f(x) = 2x³ - 6x² + 48x Determine the open intervals on which the function is increasing and on which the function is decreasing. Enter Ø to indicate the interval is empty.
Lena is driving to Chicago. Let y represent her distance from Chicago (in miles). Let x represent the time she has been driving (in hours). Suppose that x and y are related by the equation y-325-60x. Answer the questions below. Note that a change can be an increase or a decrease. For an increase, use a positive number. For a decrease, use a negative number. What was Lena's distance from Chicago when she began her drive? miles What is the change in Lena's distance from Chicago for each hour she drives? miles
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Application of derivatives
Lena is driving to Chicago. Let y represent her distance from Chicago (in miles). Let x represent the time she has been driving (in hours). Suppose that x and y are related by the equation y-325-60x. Answer the questions below. Note that a change can be an increase or a decrease. For an increase, use a positive number. For a decrease, use a negative number. What was Lena's distance from Chicago when she began her drive? miles What is the change in Lena's distance from Chicago for each hour she drives? miles
A rock is thrown vertically upward from the surface of an airless planet. It reaches a height of s= 120t- 12t² meters in t seconds. How high does the rock go? How long does it take the rock to reach its highest point? A. 595 m, 5 sec B. 600 m, 10 sec C. 1,080 m, 10 sec D. 300 m, 5 sec
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Application of derivatives
A rock is thrown vertically upward from the surface of an airless planet. It reaches a height of s= 120t- 12t² meters in t seconds. How high does the rock go? How long does it take the rock to reach its highest point? A. 595 m, 5 sec B. 600 m, 10 sec C. 1,080 m, 10 sec D. 300 m, 5 sec
A rectangular garden 98 square feet in area is to be fenced off against rodents. Find the dimensions that will require the least amount of fencing if one side of the ga already protected by a barn.
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Application of derivatives
A rectangular garden 98 square feet in area is to be fenced off against rodents. Find the dimensions that will require the least amount of fencing if one side of the ga already protected by a barn.
Consider the function: f(x) = -9x² - 72x+8 Step 1 of 2: Find the critical values of the function. Separate multiple answers with commas. Answer How to enter your answer (opens in new window) Selecting a radio button will replace the entered answer value(s) with the radio button value. If the radio button is not selected, the entered answer is used. x = Keypac Keyboard Shortcu None
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Application of derivatives
Consider the function: f(x) = -9x² - 72x+8 Step 1 of 2: Find the critical values of the function. Separate multiple answers with commas. Answer How to enter your answer (opens in new window) Selecting a radio button will replace the entered answer value(s) with the radio button value. If the radio button is not selected, the entered answer is used. x = Keypac Keyboard Shortcu None
Determine the location of each local extremum of the function. f(x) = -x³-6x²-9x+1
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Application of derivatives
Determine the location of each local extremum of the function. f(x) = -x³-6x²-9x+1
f(x) = -x² - 8x - 18 Find all values of x that correspond to horizontal tangent lines. Select "None" if the function does not have any values of x that correspond to horizontal tangent lines.
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Application of derivatives
f(x) = -x² - 8x - 18 Find all values of x that correspond to horizontal tangent lines. Select "None" if the function does not have any values of x that correspond to horizontal tangent lines.
Consider the function. f(x) = x+8/x2 Step 1 of 2: Find all values of x that correspond to horizontal tangent lines. Select "None" if the function does not have any values of x that correspond to horizontal tangent lines.
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Application of derivatives
Consider the function. f(x) = x+8/x2 Step 1 of 2: Find all values of x that correspond to horizontal tangent lines. Select "None" if the function does not have any values of x that correspond to horizontal tangent lines.
f(x) = x+3/x² Step 1 of 2: Find all values of x that correspond to horizontal tangent lines. Select "None" if the function does not have any values of x that correspond to horizontal
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Application of derivatives
f(x) = x+3/x² Step 1 of 2: Find all values of x that correspond to horizontal tangent lines. Select "None" if the function does not have any values of x that correspond to horizontal
f(x) = (4x - 5)² Step 2 of 2: Determine the open intervals on which the function is increasing and on which the function is decreasing. Enter Øto indicate the interval is empty.
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Application of derivatives
f(x) = (4x - 5)² Step 2 of 2: Determine the open intervals on which the function is increasing and on which the function is decreasing. Enter Øto indicate the interval is empty.
A piece of land is shaped like a right triangle. Two people start at the right angle at the same time, and walk at the same speed along different legs of the triangle while spraying the land. If the area covered is changing at 5 m²/sec, how fast are the people moving when they are 3 m from the right angle? (Round approximations to two decimal places.) 0.83 m/sec 3.33 m/sec 1.80 m/sec 1.67 m/sec
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Application of derivatives
A piece of land is shaped like a right triangle. Two people start at the right angle at the same time, and walk at the same speed along different legs of the triangle while spraying the land. If the area covered is changing at 5 m²/sec, how fast are the people moving when they are 3 m from the right angle? (Round approximations to two decimal places.) 0.83 m/sec 3.33 m/sec 1.80 m/sec 1.67 m/sec
Analyze the polynomial function f(x) = (x+2)(x - 5)(x+6) using parts (a) through (h) below. (a) Determine the end behavior of the graph of the function. The graph off behaves like y = for large values of |x|. (b) Find the x- and y-intercepts of the graph of the function. The x-intercept(s) is/are (Simplify your answer. Type an integer or a fraction. Use a comma to separate answers as needed. Type each answer only once.) The y-intercept(s) is/are (Simplify your answer. Type an integer or a fraction. Use a comma to separate answers as needed. Type each answer only once.)
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Application of derivatives
Analyze the polynomial function f(x) = (x+2)(x - 5)(x+6) using parts (a) through (h) below. (a) Determine the end behavior of the graph of the function. The graph off behaves like y = for large values of |x|. (b) Find the x- and y-intercepts of the graph of the function. The x-intercept(s) is/are (Simplify your answer. Type an integer or a fraction. Use a comma to separate answers as needed. Type each answer only once.) The y-intercept(s) is/are (Simplify your answer. Type an integer or a fraction. Use a comma to separate answers as needed. Type each answer only once.)
Find the derivative of g(t) = e(5+2t)²
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Application of derivatives
Find the derivative of g(t) = e(5+2t)²
A sales team estimates that the number of new phones they will sell is a function of the price that they set. They estimate that if they set the price at a dollars, they will sell f(x) = 2160 - 9x phones. Therefore, the company's revenue is x (2160-9x). Find the price x which will maximize the company's revenue. • Provide your answer below:
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Application of derivatives
A sales team estimates that the number of new phones they will sell is a function of the price that they set. They estimate that if they set the price at a dollars, they will sell f(x) = 2160 - 9x phones. Therefore, the company's revenue is x (2160-9x). Find the price x which will maximize the company's revenue. • Provide your answer below:
Graph the equation shown below. Find the coordinates of any local and absolute extreme points and inflection points. y=x4-6x²-4. Find the local extreme points. Select the correct choice below and, if necessary, fill in any answer box(es) to complete your ch A. Local minimum(s): (); Local maximum(s): () (Type ordered pairs. Type exact answers, using radicals as needed. Use a comma to separate answers as needed.) B. Local minimum(s) only: (Type ordered pairs. Type exact answers, using radicals as needed. Use a comma to separate answers as needed.) C. Local maximum(s) only: (Type ordered pairs. Type exact answers, using radicals as needed. Use a comma to separate answers as needed.) D. No local extreme points
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Application of derivatives
Graph the equation shown below. Find the coordinates of any local and absolute extreme points and inflection points. y=x4-6x²-4. Find the local extreme points. Select the correct choice below and, if necessary, fill in any answer box(es) to complete your ch A. Local minimum(s): (); Local maximum(s): () (Type ordered pairs. Type exact answers, using radicals as needed. Use a comma to separate answers as needed.) B. Local minimum(s) only: (Type ordered pairs. Type exact answers, using radicals as needed. Use a comma to separate answers as needed.) C. Local maximum(s) only: (Type ordered pairs. Type exact answers, using radicals as needed. Use a comma to separate answers as needed.) D. No local extreme points
Find dy/dx by implicit differentiation. 4x²y + 4y²x = -8 dy/dx =
Math
Application of derivatives
Find dy/dx by implicit differentiation. 4x²y + 4y²x = -8 dy/dx =
When a circular plate of metal is heated in an oven, its radius increases at a rate of 0.02 cm/min. At what rate is the plate's area increasing when the radius is 50 cm? Write the equation that relates the rate of change in area to the rate of change in radius.
Math
Application of derivatives
When a circular plate of metal is heated in an oven, its radius increases at a rate of 0.02 cm/min. At what rate is the plate's area increasing when the radius is 50 cm? Write the equation that relates the rate of change in area to the rate of change in radius.
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