A pet food manufacturer produces two types of food: Regular and Premium. A 20 kg bag of regular food requires 5/2 hours to prepare and 7/2 hours to cook. A 20 kg bag of premium food requires 5/2 hours to prepare and 9/2 hours to cook. The materials used to prepare the food are available 9 hours per day, and the oven used to cook the food is available 16 hours per day. The profit on a 20 kg bag of regular food is $42 and on a 20 kg bag of premium food is $32.
(a) What can the manager ask for directly? Choose all that apply.
i) Number of bags of regular pet food made per day
ii) Preparation time in a day
iii) Profit in a day
iv) Number of bags of premium pet food made per day
v) Oven time in a day
The manager wants x bags of regular food and y bags of premium pet food to be made in a day.
(b) Write the constraint imposed by available preparation time.
(c) Write the constraint imposed by available time in the oven.
(d) Write the total profit as a function of x and y.

Answers

Answer 1

This equation calculates the total profit by multiplying the number of bags of regular pet food (x) by the profit per bag of regular food ($42) and adding it to the number of bags of premium pet food (y) multiplied by the profit per bag of premium food ($32).

(a) The manager can directly ask for the following:

i) Number of bags of regular pet food made per day (x)

iv) Number of bags of premium pet food made per day (y)

The manager can determine the quantities of regular and premium pet food bags to be made in a day.

(ii) Preparation time in a day and (v) Oven time in a day are not directly requested by the manager but can be calculated based on the quantities of regular and premium pet food bags made.

(iii) Profit in a day is also not directly requested but can be calculated based on the quantities of regular and premium pet food bags made and the respective profits per bag.

(b) The constraint imposed by available preparation time is:

(5/2)x + (5/2)y ≤ 9

This equation ensures that the total preparation time for both regular and premium pet food bags does not exceed the available 9 hours per day.

(c) The constraint imposed by available time in the oven is:

(7/2)x + (9/2)y ≤ 16

This equation ensures that the total cooking time for both regular and premium pet food bags does not exceed the available 16 hours per day.

(d) The total profit as a function of x and y can be calculated as:

Profit = ($42 * x) + ($32 * y)

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Related Questions


What is the solution of this ?
Find y which satisfies (4exy_1) dx + exdy =o

Answers

The given equation is (4exy - 1)dx + exdy = 0. To solve for y, we rearrange the terms and separate the variables. By integrating both sides, we can find a solution.

To solve the given equation: (4exy - 1)dx + exdy = 0. We can start by rearranging the terms: (4exy - 1)dx = -exdy. Now, we can divide both sides by (4exy - 1): dx/dy = -ex / (4exy - 1)

To further simplify, we can separate the variables by multiplying both sides by dy: 1 / (4exy - 1) dy = -ex dx. Now, we can integrate both sides: ∫ (1 / (4exy - 1)) dy = -∫ ex dx. Integrating the left side with respect to y and the right side with respect to x will give us the solution.

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Find the Fourier transform of the function f(t) = = = {" e-t/4 t > 1 t< 1 0

Answers

The Fourier transform of the function f(t) is given by; F(ω) = ∫∞−∞ f(t) e−jωtdt`   .

Where ω is frequency. Applying the definition of Fourier transform, we get,`F(ω) = ∫∞−∞ f(t) e−jωtdt`              `= ∫∞1 e−t/4 e−jωtdt + ∫1−∞ 0 e−jωtdt`               `= ∫∞1 e−t/4 e−jωtdt`Let's solve the above integral by parts.       `I = ∫∞1 e−t/4 e−jωtdt`         `= e−t/4 (-jω + 1/4) / (jω) | ∞1 − ∫∞1 (−1/4) e−t/4 / (jω) dt`Now,     `e−t/4 (-jω + 1/4) / (jω)` will become zero as t tends to infinity.Therefore,              `I = −(1/4) ∫∞1 e−t/4 / (jω) dt`                 `= (1/4jω) [ e−t/4 ]∞1`                 `= (1/4jω) [0 − e−1/4 ]`Thus, the Fourier transform of the given function is given by     `F(ω) = ∫∞−∞ f(t) e−jωtdt`        `= ∫∞1 e−t/4 e−jωtdt`        `= −(1/4) ∫∞1 e−t/4 / (jω) dt`        `= (1/4jω) [0 − e−1/4 ]`       `= e−1/4 / (4jω)`

Therefore, the Fourier transform of the function is `e−1/4 / (4jω)`.Summary: The Fourier transform of the given function f(t) is `e−1/4 / (4jω)`.

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Consider the function y = 3x + 4 between the limits of x== a) Find the arclength L of this curve: L = Round your answer to 3 significant figures. b) Find the area of the surface of revolution, A, that

Answers

The arc length of the curve y = 3x + 4 between x = 0 and x = 6 is approximately 37.0 units.

To find the arc length L of the curve y = 3x + 4 between the limits of x = 0 to 6, we can use the arc length formula

L =[tex]\int\limits^0_6[/tex]√(1 + (dy/dx)^2) dx

First, let's find dy/dx

dy/dx = 3

Substituting this back into the arc length formula, we have

L = [tex]\int\limits^0_6[/tex] √(1 + 3²) dx

=[tex]\int\limits^0_6[/tex] √(1 + 9) dx

=[tex]\int\limits^0_6[/tex] √10 dx

Integrating, we get

L = [2√10x] |[0,6]

= 2√10(6) - 2√10(0)

= 12√10

Rounding the answer to 3 significant figures, the arc length L is approximately 37.0 units.

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--The given question is incomplete, the complete question is given below " Consider the function y = 3x + 4 between the limits of x=0 to 6 a) Find the arclength L of this curve: L = Round your answer to 3 significant figures."--

What is the highest value assumed by the loop counter in a correct for statement with the following header? for (i = 7; i <= 72; i += 7) 07 O 77 O 70 o 72

Answers

The highest value assumed by the loop counter in this case is 70.

In a correct for loop statement with the header

for (i = 7; i <= 72; i += 7)`, the highest value assumed by the loop counter is 70.

The loop in the question has the header `for (i = 7; i <= 72; i += 7)`.

This means that the loop counter `i` starts at 7 and will increase by 7 each time the loop runs.

The loop will continue to run as long as the loop counter `i` is less than or equal to 72.

So, the loop will execute for `72-7 / 7 + 1 = 10` times.

The loop counter will take the values: 7, 14, 21, 28, 35, 42, 49, 56, 63, and 70.

Therefore, the highest value assumed by the loop counter in this case is 70.

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Question 1 Linear Equations. . Solve the following DE using separable variable method. (i) (x – 4) y4dx – 23 (y2 – 3) dy = 0. dy (ii) e-y (1+ = 1, y(0) = 1. da

Answers

The solution to the differential equation is: ln(y) - x = e-x dx - 1/2.

(i) (x – 4) y4dx – 23 (y2 – 3) dy = 0The differential equation (i) can be solved using the method of separable variables.

To do this, first we rearrange the terms to obtain it in the following form: dy/(y^2 - 3) = (x - 4)dx/23y4.

The integral form of the equation is thus: ∫dy/(y^2 - 3) = ∫(x - 4)/23y4dx.

Note that we need to integrate both sides with respect to their variables.

Hence we proceed to obtain the solutions by integration as follows:

∫dy/(y^2 - 3) = ∫(x - 4)/23y4dx= (1/2√3) ln(|(y-√3)/(y+√3)|) = (1/345)y-3 + C.

where C is the constant of integration that we have to find.

To get the constant of integration C, we use the initial condition where y(0) = 2.

Substituting y(0) = 2 into the equation (1/2√3) ln(|(y-√3)/(y+√3)|) = (1/345)y-3 + C, we obtain: C = (1/2√3) ln(|(2-√3)/(2+√3)|) - (1/345)(2)-3= - 0.0837.

Hence the solution to the differential equation is:(1/2√3) ln(|(y-√3)/(y+√3)|) = (1/345)y-3 - 0.0837(ii) e-y (1+ = 1, y(0) = 1.

The differential equation (ii) can be solved using the method of separable variables.

To do this, we first arrange the terms to obtain it in the following form: (1/y) dy - 1 = -x dx.e-x dx = ∫1/(y) dy - ∫1 dx = ln(y) - x + C. where C is the constant of integration that we have to find.

To obtain C, we use the initial condition where y(0) = 1.e-x dx = ln(1) - 0 + C= C.

Hence the solution to the differential equation is: ln(y) - x = e-x dx + C. Substituting y = 1 when x = 0, we have: ln(1) - 0 = e-0(1/2) + C.C = - 1/2 Therefore the solution to the differential equation is: ln(y) - x = e-x dx - 1/2.

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Calculus: 9-12-3². (a) Find and sketch the largest possible domain of (b) Sketch 3 typical level curves for f(x, y) = y - 2². 2. Calculus: Find the following limits if they exist, if they do not exist explain why. x² - y² (a) lim (z.y)-(0.2) I (b) lim (2.9) (0,0)

Answers

The domain of f(x,y) = y-2² is all real numbers except for x=2. The level curves of f(x,y) = y-2² are all lines of the form y = c, where c is a real number.

The limit of (x²-y²)/(x²+y²) as (x,y) approaches (0,2) does not exist because the numerator approaches 0 while the denominator approaches 4. The limit of (x²-y²)/(x²+y²) as (x,y) approaches (0,0) does not exist because the function is not defined at (0,0).

The domain of f(x,y) = y-2² is all real numbers except for x=2 because the function is not defined at x=2. The level curves of f(x,y) = y-2² are all lines of the form y = c, where c is a real number, because the function is constant along these lines.

The limit of (x²-y²)/(x²+y²) as (x,y) approaches (0,2) does not exist because the numerator approaches 0 while the denominator approaches 4, which means that the function is not continuous at (0,2). The limit of (x²-y²)/(x²+y²) as (x,y) approaches (0,0) does not exist because the function is not defined at (0,0).

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Enter the principal argument for each of the following complex numbers. Remember that is entered as Pi. (a) z = cis(3) 1 (b) z=cis -111 6 (c)2= -cis is (35)

Answers

The principal arguments for the given complex numbers are:(a) arg(z) = 3°(b) arg(z) = -19.5°/6π(c) arg(z) = 35°

The given complex numbers are:(a) z = cis(3) 1(b) z = cis(-111°/6)(c) 2 = -cis(35°)

Enter the principal argument for each of the given complex numbers:

(a) z = cis(3°) 1. The principal argument, arg(z) = 3°

(b) z = cis(-111°/6)

Now, we know that the general formula for

cis(x) = cos(x) + i sin(x)Let cos(x) = a and sin(x) = b,

then cis(x) can be represented as:

cis(x) = a + i b

We are given that

z = cis(-111°/6)∴ z = cos(-111°/6) + i sin(-111°/6)

Now, for the argument for z, we will use the formula:

arg(z) = tan⁻¹(b/a)

Here, a = cos(-111°/6) and b = sin(-111°/6)

Therefore,

arg(z) = tan⁻¹(sin(-111°/6)/cos(-111°/6))

= tan⁻¹(-sin(111°/6)/cos(111°/6))

= tan⁻¹(-tan(111°/6))

= -19.5°/6π (principal argument)

Therefore, arg(z) = -19.5°/6π(c)

2 = -cis(35°)

Multiplying by -1 on both sides, we get, -2 = cis(35°)

The principal argument, arg(z) = 35°

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Suppose that x represents one of two positive numbers whose sum is 28. Determine a function f(x) that represents the product of these two numbers.

Answers

The function that would give the product of the numbers is f(x) = x (28 - x)

What is a function in mathematics?

A function in mathematics is a relationship between a set of inputs (referred to as the domain) and a set of outputs (referred to as the codomain or range), where each input is connected to each output exactly once. Each input value is given a distinct output value.

We are told that the sum of the two numbers is 28 thus;

Let the first number be x

'Let the second number be 28 - x

We would have that;

f(x) = x (28 - x)

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Explain how the diffusion equation in one dimension can be obtained from the conservation law and Fick's law. Briefly state the intuitive meaning of the conservation law and Fick's law. (b) We are now looking for solutions u(, y) of the equation Uxx + uyy + 2ux = Xu, (6) where the eigenvalue is a real number. We impose the boundary condition requiring u(,y) = 0 if = 0, x = 7, y = 0 or y = T. We are interested in solutions that can be written as a product uxy=XxYy i. (5 marks) Show that for such solutions Eq. (6) leads to Xx+2Xx=XX where Ai is a real number. Also derive a differential equation for Y(y), and the boundary conditions for X() and Y(y). ii. (8 marks) Solve the differential equations for X() and Y(y) subject to the appropriate boundary conditions and hence determine the solutions for u(r, y). To answer this question, you can use without proof that the only relevant values of X are smaller than -1, and set A = -1 -k2 where ki is a positive real number.

Answers

(a) The diffusion equation in one dimension can be obtained from the conservation law and Fick's law. Intuitive meaning of conservation law: Conservation law states that mass cannot be created or destroyed. The amount of mass present in the initial state will always remain the same in the final state, even after any number of processes taking place in between.

Intuitive meaning of Fick's law:

Fick's law states that the diffusion flux is directly proportional to the concentration gradient, where the proportionality constant is the diffusion coefficient.

(b)

i. Let u(r,y) = X(x)Y(y). Now substituting these values in the given equation we get,

XX'' + 2X'Y'Y + YY'' = XUYX'' + 2XYX' + XYY' = XUX2Y.

As the function u(r, y) is a product of two functions of variables r and y only, the function u(r, y) can be represented as X(x)Y(y).

Thus X''Y + 2XY'' + 2X'Y' = XUXYY.

Divide the above equation by XY, which leads to:  

`X'' / X + 2X' / X + U = Y'' / Y`. As `X'' / X + 2X' / X = (X' * X')' / X`,

we get  `(X' * X')' / X + U = Y'' / Y`.

As the left side of the above equation is independent of y and the right side is independent of x, they should be constant.

Let the constant be -k2.

Then we get `X'' + 2X' + k2X = 0`.

ii. Differential equation for Y(y):

As we get `X'' + 2X' + k2X = 0` by solving the differential equation, X(x) is given by

`X(x) = exp(-x/2) (C1 cos(kx) + C2 sin(kx))`.

To determine Y(y), let us divide the second equation by UY and get `X / (X'' / X + 2X' / X) = -1 / UY`. As X(x) = exp(-x/2) (C1 cos(kx) + C2 sin(kx)),  `X / (X'' / X + 2X' / X) = X / (k2 - (x/2)^2)`.Thus, `Y'' / Y = k2 / U - (x/2)^2 / U`. Let k2 / U - (x/2)^2 / U be equal to -λ2.

Then Y'' = -λ2Y and the boundary conditions are Y(0) = Y(T) = 0.

Differential equation for X(x):

From X'' + 2X' + k2X = 0, let `k2 = λ2 - 1`.

Then, `X'' + 2X' + (λ2 - 1)X = 0`. Let X(0) = X(7) = 0.

Then X(x) = (1/2)exp(-x) [cosh(λ(7-x)/2) - cosh(λ7/2)]

Boundary conditions for X(x) and Y(y): X(0) = X(7) = 0, Y(0) = Y(T) = 0.

Thus, the solution for u(r, y) can be written as `u(r, y) = Σ(1,∞)  Bn exp[-((nπ)2 + 1)y] [cosh((nπr)/2) - cosh((nπ7)/2)]`.

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Find the radius of convergence, R, of the series. Σ(-1)" (x-4)" 3n + 1 n=0 R = 1 Find the interval, I, of convergence of the series. (Enter your answer using interval notation.) 1= (-1,1)

Answers

The radius of convergence, R, of the series Σ(-1)^n (x-4)^(3n+1) is 1, and the interval of convergence, I, is (-1, 1).

The radius of convergence, R, can be determined using the ratio test. The ratio test states that if the limit of the absolute value of the ratio of consecutive terms of a series is L, then the series converges absolutely if L < 1, diverges if L > 1, and the test is inconclusive if L = 1. In the case of the given series, we apply the ratio test:

|(-1)^n+1 (x-4)^(3(n+1)+1)| / |(-1)^n (x-4)^(3n+1)|

Simplifying, we get:

|(x-4)^3| / |-1|

Since |-1| = 1 and we want the limit as n approaches infinity, we focus on the term (x-4)^3. The limit of this term as n approaches infinity will be 0 if |x-4| < 1 and infinity if |x-4| > 1. Therefore, the radius of convergence, R, is 1.

To determine the interval of convergence, we consider the endpoints of the interval. Plugging in x = -1 into the series, we get:

Σ(-1)^n (-1-4)^(3n+1) = Σ(-1)^n (-5)^(3n+1)

This is an alternating series that converges by the alternating series test. Similarly, plugging in x = 1, we get:

Σ(-1)^n (1-4)^(3n+1) = Σ(-1)^n (-3)^(3n+1)

Again, this is an alternating series that converges. Therefore, the interval of convergence, I, is (-1, 1), including the endpoints.

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Estimate the flow rate at t-98. Time (s) 0 1 5 8 11 15
Volume 0 2 13.08 24.23 36.04 153.28 Important Notes: 1) You are required to solve the problems on paper. Please be sure that the submitted materials are readable.
2) You must use a calculator for the solutions and show all the details. Solutions obtained using Matlab/Octave scripts and/or any other computer program will be disregarded. 3) Late submissions will not be accepted. Answer sheets sent using e-mail will be disregarded.

Answers

The answer is , the flow rate at t-98 is approximately 1.7235 mL/s.

What is it?

Time(s) , Volume(mL)00.02013.0815.2324.2336.04153.28.

We have to estimate the flow rate at t-98.

Solution:

Flow rate is the rate at which the fluid flows through a section.

We can find the flow rate by using the formula as given below,

Flow rate = change in volume / change in time.

We have to estimate the flow rate at t-98. It means we have to find the flow rate at t = 98 - 15

= 83 seconds.

The change in volume in the time interval from 15 s to 83 s is

153.28 - 36.04 = 117.24 mL.

The change in time in the time interval from 15 s to 83 s is

83 - 15 = 68 seconds.

Therefore, the flow rate at t-98 is,

Flow rate = change in volume / change in time

= 117.24 / 68

= 1.7235 mL/s.

Thus, the flow rate at t-98 is approximately 1.7235 mL/s.

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Summation Properties and Rules CW Find the sum for each series below: 20 100 1. Σ (6) 2. Σ., (51) 15 50 3 . Σ" (3) 4. Σ., (213)

Answers

The summation properties and rules are used to find the sum of a given series. The sum of each series is as follows:1. Σ(6)The series 6 + 6 + 6 + 6 + ….. + 6 contains 20 terms, so the sum can be found by multiplying the number of terms by the value of each term

S = 20(6)

S = 120

Therefore, the sum of the series is 120.2. Σ.(51)

The series 51 + 51 + 51 + 51 + ….. + 51 contains 100 terms,

so the sum can be found by multiplying the number of terms by the value of each term:S = 100(51)S = 5100

Therefore, the sum of the series is 5100.3. Σ"(3)

The series 3 + 3 + 3 + 3 + ….. + 3 contains 15 terms, so the sum can be found by multiplying the number of terms by the value of each term

:S = 15(3)

S = 45

Therefore, the sum of the series is 45.4. Σ.,(213)

The series 213 + 213 + 213 + 213 + ….. + 213 contains 50 terms,

so the sum can be found by multiplying the number of terms by the value of each term

:S = 50(213)

S = 10650

Therefore, the sum of the series is 10650.

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Let f: M R ³ be a map defined by f (viv) = (ucosve, usince, u²)
where M= { (v₁v)ER ² | O a. Find the Weingarten map of the surface defined by f.
b.) Find the Gauss and mean Surface. curvature of the bu

Answers

The Gaussian curvature is K = (cos v) / (v₁² + v₂²), and the mean curvature is H = -1 / (2sqrt(v₁² + v₂²)).

Given the map f: M ⟶ R³ where f(v,θ) = (u cos v, u sin v, u²), and M = {(v₁, v₂) ∈ R² | 0 < v₁ < π}.a) The Weingarten map of a surface S can be obtained by differentiating the unit normal vector along any curve lying on the surface. Let r(u, v) be a curve on S. Then the unit normal vector at the point r(u, v) is given byN = (f_u × f_v) / ||f_u × f_v||Where f_u and f_v are the partial derivatives of f with respect to u and v respectively, and ||f_u × f_v|| denotes the norm of the cross product of f_u and f_v. Differentiating N along r(u, v) yields the Weingarten map of S.

b) To find the Gaussian and mean curvatures of S, we can use the first and second fundamental forms. The first fundamental form is given byI = (f_u · f_u)du² + 2(f_u · f_v)dudv + (f_v · f_v)dv²= u²(dv² + du²)

The second fundamental form is given byII = (f_uu · N)du² + 2(f_uv · N)dudv + (f_vv · N)dv²

where f_uu, f_uv and f_vv are the second partial derivatives of f with respect to u and v, and N is the unit normal vector. Using the formulas for the first and second fundamental forms, we can compute the Gaussian and mean curvatures of S as follows:

K = (det II) / (det I)H = (1/2) tr(II) / (det I)where det and tr denote the determinant and trace respectively. In this case, we have f_u = (-u sin v, u cos v, 2u) f_v

= (u cos v, u sin v, 0)f_uu

= (-u cos v, -u sin v, 0) f_uv = (cos v, sin v, 0)f_vv

= (-u sin v, u cos v, 0)N

= (u cos v, u sin v, -u) / u

= (cos v, sin v, -1)K = (cos v) / (u²) = (cos v) / (v₁² + v₂²)H

= -1 / (2u) = -1 / (2sqrt(v₁² + v₂²))

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According to the U.S. Department of Education, the following are the numbers, in millions, of college degrees awarded in various years since 1970.
Year
1970 1980
1985 1990 1995 1998 2000 2001 2002 2003
College graduates 1.271 1.731 1.828 1.940 2.218 2.298 2.385 2.416 2.494 2.621
(a) Determine the best linear function and an exponential function to model the number of college graduates G as a function of t, the number of years since 1970. (Round all numerical values to three decimal places.)
linear
G= 0.0371-73.06 x
exponential
G= 1.10
-17 0.019
xe
x
(b) Use each function to predict the number of college graduates in millions in 2016. (Round your answer to three decimal places.)
linear 1.532 exponential 0.432
x million graduates
xmillion graduates
(c) Which prediction seems more reasonable? Which prediction seems less reasonable?
The exponential function's prediction seems more reasonable, and the linear less reasonable.
The linear function's prediction seems more reasonable, and the exponential less reasonable.
(d) Use each model to predict when there will be 4 million college graduates. (Round your answer to the nearest integer.) linear
exponential
2016 2016
(e) What is the doubling time in years for the exponential model? (Round your answer to two decimal places.)
yr

Answers

(a) Linear function: G = -73.06t + 73.067, Exponential function: [tex]G = 1.10 * e^{0.019t}[/tex]

(b) Linear prediction: 1.532 million graduates, Exponential prediction: 2.432 million graduates

(c) The exponential prediction seems more reasonable, and the linear prediction seems less reasonable.

(d) Linear prediction: 2039, Exponential prediction: 2068

(e) The doubling time in years for the exponential model is approximately 36.50 years.

(a) The best linear function to model the number of college graduates G as a function of t, the number of years since 1970, is:

G = -73.06t + 73.067

The best exponential function to model the number of college graduates is:

[tex]G = 1.10 * e^{0.019t}[/tex]

(b) Predicted number of college graduates in 2016:

- Linear function: G = -73.06 * (2016 - 1970) + 73.067 = 1.532 million graduates

- Exponential function: [tex]G = 1.10 * e^{0.019 * (2016 - 1970)}[/tex] = 2.432 million graduates

(c) The exponential function's prediction of 2.432 million graduates seems more reasonable for 2016, while the linear function's prediction of 1.532 million graduates seems less reasonable, considering the increasing trend in college graduates over the years.

(d) Predicted year when there will be 4 million college graduates:

- Linear function: -73.06t + 73.067 = 4 million graduates

Solving for t, we get t ≈ 68.66, which rounds to 69. Therefore, it predicts there will be 4 million college graduates in the year 2039.

- Exponential function: [tex]1.10 * e^{0.019t}[/tex] = 4 million graduates

Solving for t, we get t ≈ 97.62, which rounds to 98. Therefore, it predicts there will be 4 million college graduates in the year 2068.

(e) The doubling time in years for the exponential model can be calculated by finding the time it takes for the number of college graduates to double. We can use the formula:

Doubling Time = ln(2) / 0.019 ≈ 36.50 years

Therefore, the doubling time in years for the exponential model is approximately 36.50 years.

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A firm has the marginal-demand function D' (x) = -1400x/squareroot 25 - x^2. Find the demand function given that D = 18,000 when x = $3 per unit. The demand function is D(x) =

Answers

To find the demand function D(x) given the marginal-demand function D'(x), we need to integrate D'(x) with respect to x.

Given: D'(x) = -1400x/√(25 - x^2)

To integrate D'(x), we'll use the substitution u = 25 - x^2, which gives us du = -2x dx.

Replacing x and dx in terms of u, we have:

D'(x) = -1400x/√(25 - x^2) = -1400x/√u

dx = -du/(2x)

Substituting these values in the integral, we get:

∫D'(x) dx = ∫(-1400x/√u) * (-du/(2x))

= 700 ∫du/√u

= 700 * 2√u + C

= 1400√u + C

Now, we substitute u = 25 - x^2:

D(x) = 1400√(25 - x^2) + C

To find the value of C, we'll use the given information that D = 18,000 when x = $3 per unit.

D(3) = 1400√(25 - 3^2) + C

18,000 = 1400√(16) + C

18,000 = 1400 * 4 + C

18,000 = 5,600 + C

C = 18,000 - 5,600

C = 12,400

Therefore, the demand function D(x) is:

D(x) = 1400√(25 - x^2) + 12,400.

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5) In a photographic process, developing time of prints may be looked upon as a random variable having the normal distribution with a mean of 16.28 seconds and a standard deviation of 0.12 second. Find the probability that it will take (a) anywhere from 16.00 to 16.50 seconds to develop one of the prints. Draw the curves too; {5 points} (b) at least 16.20 seconds to develop a one of the prints. Draw the curves too; {5 points} (c) at most 16.35 seconds to develop one of the prints. Draw the curves too. {5 points} (d) In this photographic process, for which value is the probability 0.95 that it will be exceeded by the time it takes to develop one of the prints? Draw the curves too. (5 points}

Answers

(a) To find the probability that it will take anywhere from 16.00 to 16.50 seconds to develop one print, we need to calculate the area under the normal curve between these two values. We can use the z-score formula:

z = (x - μ) / σ

where x is the value of interest, μ is the mean, and σ is the standard deviation.

For 16.00 seconds:

z1 = (16.00 - 16.28) / 0.12

For 16.50 seconds:

z2 = (16.50 - 16.28) / 0.12

Using a standard normal distribution table or software, we can find the corresponding probabilities for z1 and z2. Then, we subtract the probability associated with z1 from the probability associated with z2 to get the desired probability.

(b) To find the probability of at least 16.20 seconds, we need to calculate the area under the normal curve to the right of this value. We can calculate the z-score for 16.20 seconds and find the corresponding probability of z being greater than that value.

(c) To find the probability of at most 16.35 seconds, we need to calculate the area under the normal curve to the left of this value.

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On a state driver’s test, about 40% pass the test on the first try. We want to test if more than 40% pass on the first try. Fill in the correct symbol (=, ≠, ≥, <, ≤, >) for the null and alternative hypotheses.

Answers

The correct symbol for the null and alternative hypotheses are = and ≠, respectively

How to fill in the correct symbol for the null and alternative hypotheses.

From the question, we have the following parameters that can be used in our computation:

About 40% pass the test on the first try

This means that

About 40% pass the test on the first tryAbout 60% did not pass the test on the first try

So, the sign for the null hypothesis is =

And the sign for the alternative hypothesis is ≠

So, we have

H o: u = 0.40

Ha: μ ≠ 0.40

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For some radioactive material, the average number of atoms that decay every hour is N = 2? Which distribution is the most suitable to described the number of atoms decayed every hour? (type one of the following: geometric, binomial, poisson, normal). Determine two most probable values of the number of atoms that will decay every second N1 = ____, N2 = ____

Answers

The two most probable values of the number of atoms that will decay every second are N1 = 0 and N2 = 1.

The most suitable distribution to describe the number of atoms that decay every hour, given the average number of atoms decayed every hour N = 2, is the Poisson distribution.

=The Poisson distribution is commonly used to model the number of events occurring in a fixed interval of time, given a known average rate. In this case, the average rate is N = 2 atoms decaying per hour. The Poisson distribution is appropriate when the events occur randomly and independently, with a constant average rate.

To determine the most probable values of the number of atoms that will decay every second (N1 and N2), we need to consider that there are 3,600 seconds in an hour. Since the average rate is given for an hour, we can divide it by 3,600 to obtain the average rate per second.

Average rate per second = N / 3,600 = 2 / 3,600 ≈ 0.0005556 atoms per second

Since the Poisson distribution describes the probability of a specific number of events occurring within a given interval, the two most probable values of the number of atoms that will decay every second (N1 and N2) would be the values closest to the average rate per second. In this case, the two most probable values would be:

N1 = 0 atoms decaying per second (rounded down from 0.0005556)

N2 = 1 atom decaying per second (rounded up from 0.0005556)

Therefore, the two most probable values of the number of atoms that will decay every second are N1 = 0 and N2 = 1.

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Functions HW Find the domain of the function. f(x) = -9x+2 The domain is. (Type your answer in interval notation.)

Answers

The domain of the function f(x) = -9x + 2 is all real numbers since there are no restrictions or limitations on the values that x can take.

The domain of a function refers to the set of all possible input values (x-values) for which the function is defined. In the case of the function f(x) = -9x + 2, there are no specific restrictions or limitations on the values of x. It is a linear function with a slope of -9, meaning it is defined for all real numbers. Therefore, any real number can be plugged into the function, and it will produce a valid output. Consequently, the domain of the function is all real numbers, (-∞, +∞).

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Determine the longest interval I in which the given IVP is
certain to have a unique, twice-differentiable solution.
ty''+3y=1, y(1)=1, y'(1)=2

Answers

The interval of validity of the solution is[1, 3/√3) or [1, √3)

Given:

ty''+3y=1, y(1)=1, y'(1)=2

We have to find the longest interval in which the given IVP is certain to have a unique, twice-differentiable solution.

Solution:

Let's solve the differential equation ty''+3y=1It is a second-order linear homogeneous differential equation.

Therefore, we will write its auxiliary equation.t²m²+3m=0=> m(t²+3)=0=> m₁=0, m₂=±√3i

The complementary function (CF) of the differential equation will be:

yCF = c₁ + c₂ cos (√3 ln t) + c₃ sin (√3 ln t)

Since the right-hand side of the differential equation is a constant, we will assume the particular integral of the form:

yPI = At + BOn

solving the differential equation, we get:

y = c₁ + c₂ cos (√3 ln t) + c₃ sin (√3 ln t) + (1/3t)

This is the general solution of the given differential equation.

Now we will apply the given initial conditions:

y(1) = 1=> c₁ + c₂ cos(0) + c₃ sin(0) + (1/3) = 1=> c₁ + (1/3) = 1=> c₁ = 2/3y'(1) = 2=> -c₂ (√3 sin(0)) + c₃ (√3 cos(0)) = 2=> -c₂ + c₃ = 2=> c₃ = 2+c₂

Now substituting the value of c₁ and c₃ in the general solution of the differential equation we get,

y = (2/3) + c₂ cos (√3 ln t) + (2+c₂) sin (√3 ln t) + (1/3t)

The given IVP is certain to have a unique, twice-differentiable solution only if the solution is finite on the entire interval.

We know that sin (√3 ln t) and cos (√3 ln t) are periodic functions with a period of 2π/√3.

As a result, we need to select an interval for which the solution is finite (i.e., it does not become infinite).Hence, we need to find the maximum value of t that makes the solution finite.

We know that cos θ and sin θ are bounded functions, i.e., they lie between -1 and 1. That is,-1 ≤ cos (√3 ln t) ≤ 1and -1 ≤ sin (√3 ln t) ≤ 1

Now we will substitute these values in the general solution of the differential equation, and we will get:(2/3) - |c₂| + (2 + |c₂|) + (1/3t)≤ y ≤ (2/3) + |c₂| + (2 + |c₂|) + (1/3t)

Now we want this interval to be finite, so we need to find the values of t that make it finite.

So, the interval would be(2/3) - |c₂| + (2 + |c₂|) ≤ y ≤ (2/3) + |c₂| + (2 + |c₂|)

For the solution to be finite on this interval, the left-hand side of the interval must be greater than zero and the right-hand side must be less than infinity.

We will solve this inequality.2/3 + |c₂| ≤ 2=> |c₂| ≤ 4/3∴ -4/3 ≤ c₂ ≤ 4/3

So, the interval of validity of the solution is[1, 3/√3) or [1, √3)

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Use the following theorem: If T:R → Rm is a linear transformation, and e₁,e₂, ..., en are the standard basis vectors for R", then the standard matrix for Tis [T] = [T(e₁) T(e₂) ... T(en)] Fi

Answers

The given theorem states that, if T:R → Rm is a linear transformation and e₁, e₂, ..., en are the standard basis vectors for Rⁿ, then the standard matrix for T is [T] = [T(e₁) T(e₂) ... T(en)].

Given a linear transformation T: R → Rm with standard basis vectors e₁, e₂, ..., en for Rⁿ, the standard matrix for

T is [T] = [T(e₁) T(e₂) ... T(en)].

The standard matrix for T will have m columns and n rows, where each column corresponds to the output vector of T for a particular basis vector in Rⁿ.Now, let’s use the given theorem to find the standard matrix of a linear transformation.Let T: R³ → R² be the linear transformation defined by T(x,y,z) = (2x - 3y + z, x - 5y).

To find the standard matrix for T, we first need to find

T(e₁), T(e₂), and T(e₃), where

e₁ = (1, 0, 0), e₂ = (0, 1, 0), and

e₃ = (0, 0, 1).

Thus,T(e₁) = T(1,0,0)

= (2,1)T(e₂)

= T(0,1,0)

= (-3,-5)T(e₃)

= T(0,0,1)

= (1,0)Therefore, the standard matrix for

T is [T] = [T(e₁) T(e₂) T(e₃)]

= [(2, -3, 1), (1, -5, 0)].Hence, the standard matrix for T is [T] = [T(e₁) T(e₂) ... T(en)] and the explanation is that it is used to find the standard matrix of a linear transformation.

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find the determinant of a and b using the product of the pivots. then, find a−1 and b−1 using the method of cofactors.

Answers

The inverse of matrix B is: [tex]B^(-1)[/tex]= [1 -2 1/2; -3/2 3/2 -1; -4/3 4/3 -5/12] . To find the determinant of matrices A and B using the product of the pivots, we need to perform the row reduction (Gaussian elimination) on each matrix and keep track of the pivots.

Let's start with matrix A: A = [2 3; 1 4]. Performing row reduction, we can subtract twice the first row from the second row: R2 = R2 - 2R1

The resulting matrix is: A = [2 3; 0 -2]. The product of the pivots is the determinant of matrix A: det(A) = (2)(-2) = -4 . Now, let's move on to matrix B: B = [1 2 3; 4 5 6; 7 8 9]

Performing row reduction, we can subtract 4 times the first row from the second row and subtract 7 times the first row from the third row:

R2 = R2 - 4R1

R3 = R3 - 7R1

The resulting matrix is: B = [1 2 3; 0 -3 -6; 0 -6 -12]

The product of the pivots is the determinant of matrix B: det(B) = (1)(-3)(-12) = 36. Next, let's find the inverse of matrices A and B using the method of cofactors. For matrix A:A = [2 3; 1 4]

The determinant of A is det(A) = -4. The cofactor matrix C is obtained by taking the determinants of the submatrices of A:C = [4 -3; -1 2]

To find the inverse of A, we divide the cofactor matrix C by the determinant of A: A^(-1) = (1/det(A)) * C.

[tex]A^(-1)[/tex] = (1/-4) * [4 -3; -1 2] = [-1 3/4; 1/4 -1/2]

So, the inverse of matrix A is: [tex]A^(-1)[/tex]= [-1 3/4; 1/4 -1/2]

For matrix B: B = [1 2 3; 4 5 6; 7 8 9]

The determinant of B is det(B) = 36. The cofactor matrix C is obtained by taking the determinants of the submatrices of B:

C = [(-3)(-12) 6(-12) (-6)(-3); 6(-9) (-6)(9) (-6)(6); (-6)(8) 6(8) (-3)(5)] = [36 -72 18; -54 54 -36; -48 48 -15]

To find the inverse of B, we divide the cofactor matrix C by the determinant of B:

[tex]B^(-1)[/tex]= (1/det(B)) * C

[tex]B^(-1)[/tex] = (1/36) * [36 -72 18; -54 54 -36; -48 48 -15] = [1 -2 1/2; -3/2 3/2 -1; -4/3 4/3 -5/12]

So, the inverse of matrix B is: [tex]B^(-1)[/tex] = [1 -2 1/2; -3/2 3/2 -1; -4/3 4/3 -5/12]

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Find the average rate of change of the function over the given intervals. f(x) = 4x³ + 4; a) [2,4], b) [-5,5] *** 3 a) The average rate of change of the function f(x) = 4x³ +4 over the interval [2,4] is. (Simplify your answer.)

Answers

A measurement of how a quantity changes over a specific period is the average rate of change. It determines the average rate of change of a quantity in relation to another variable during a predetermined period.

The formula to calculate the average rate of change for a function f(x) over an interval [a,b] is:

Calculating the difference between the function values at the interval's endpoints and dividing it by the difference in the x-values will allow us to get the average rate of change of a function throughout an interval.

a) The function is f(x) = 4x3 + 4 and the interval is [2,4].

At x = 2: f(2) = 4(2)³ + 4 = 36 + 4 = 40.

At x = 4: f(4) = 4(4)³ + 4 = 256 + 4 = 260.

According to the formula

The average rate of change = (f(4) - f(2)) / (4 - 2) = (260 - 40) / 2 = 220 / 2 = 110, 

and the average rate of change across the range [2,4] is given.

As a result, over the range [2,4], the average rate of change of the function f(x) = 4x3 + 4 is 110.

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Complete the proof of Theorem 7.1.5 by showing that
||Tyf - f||1 → 0 as y → 0
for all f € L'(R).
Theorem 7.1.5 (Riemann-Lebesgue's lemma) For f € L'(R), ƒ is a continuous function which tends to zero as y -> [infinity]; that is, f € Co (R).

Answers

We have shown that ||Tyf - f||1 → 0 as y → 0 for all f € L'(R), which completes the proof of Theorem 7.1.5.

Now, For the prove of ||Tyf - f||1 → 0 as y → 0 for all f € L'(R), we can use the following steps:

Step 1: Express ||Tyf - f||1 in terms of the Fourier transform of f.

Since, The Fourier transform of f, denoted by F(f), is defined as:

F(f)(ξ) = ∫R e^(-2πixξ) f(x) dx

Using the definition of the operator Ty, we can write:

Tyf(x) = ∫R K(y, x) f(y) dy

where K(y, x) = e^(-2πiyx) / (1 + y²).

Substituting this expression into the norm of the difference ||Tyf - f||1, we get:

||Tyf - f||1 = ∫R |Tyf(x) - f(x)| dx

             = ∫R |∫R K(y, x) f(y) dy - f(x)| dx

Step 2: Use the triangle inequality to split the integral into two parts.

Using the triangle inequality, we can write:

||Tyf - f||1 ≤ ∫R |∫R K(y, x) [f(y) - f(x)] dy| dx + ∫R |∫R K(y, x) f(x) dy - f(x)| dx

Step 3: Apply the dominated convergence theorem.

Since f € L'(R), we know that there exists a constant M > 0 such that |f(x)| ≤ M for almost all x. Let g(x) = M/(1 + |x|), then g is integrable and we have:

|K(y, x)| = |e^(-2πiyx) / (1 + y²)| ≤ g(x)

Hence, we can apply the dominated convergence theorem to the first integral in Step 2 and get:

lim y→0 ∫R |∫R K(y, x) [f(y) - f(x)] dy| dx = 0

Step 4: Show that the second integral in Step 2 converges to zero.

Hence, we can apply the Lebesgue dominated convergence theorem. Since f is continuous and tends to zero as y → ∞, we know that there exists a constant C > 0 such that |f(x)| ≤ C/(1 + |x|) for all x.

Let h(x) = C/(1 + |x|)², then h is integrable and we have:

|∫R K(y, x) f(x) dy - f(x)| ≤ ∫R |K(y, x)| |f(x)| dy ≤ h(x)

Hence, we can apply the Lebesgue dominated convergence theorem and get:

lim y→0 ∫R |∫R K(y, x) f(x) dy - f(x)| dx = 0

Step 5: Combine the limits from Step 3 and Step 4 to obtain the desired result.

Combining the two limits, we get:

lim y→0 ||Tyf - f||1 = 0

Hence, we have shown that ||Tyf - f||1 → 0 as y → 0 for all f € L'(R), which completes the proof of Theorem 7.1.5.

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In a certain assembly plant, three machines, B1, B2, and B3, make 30%, 45%, and 25%, respectively, of the products. It is known from past experience that 2%, 3%, and 2% of the products made by each machine, respectively, are defective. Now, suppose that a finished product is randomly selected. What is the probability that it is defective?​

Answers

The probability that a product is defective can be found, based on the percent of the products made, to be 2. 45 %.

How to find the percentage ?

To calculate the probability that a randomly selected finished product is defective, consider the proportion of defective products made by each machine and their respective contribution to the overall production.

Proportion of defective products from machine B1 is:

= 30% x 2%

= 0.3 x 0.02

= 0.006

Proportion of defective products from machine B3 is:

= 25% x 2%

= 0.25 x 0.02

.= 0.005

Proportion of defective products from machine B2 is:

= 45% x 3%

= 0.45 x 0.03

= 0.0135

Probability of selecting a defective product = Proportion of defective products from B1 + Proportion of defective products from B2 + Proportion of defective products from B3

= 0. 006 + 0. 0135 + 0.005

= 0.0245

= 2. 45 %

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Use Maple's Matrix command to input the augmented matrix that corresponds to the following system of linear equations: 5x + 3y + 7z+2w = 89 6x +2y + 2z+8w = -27 7x + 8y + 3z +2w = 10 The corresponding augmented matrix is: (Be sure to retain the left to right ordering of the variables in the system of equations given in the augmented matrix, so that entries in column 1 correspond to 2, entries in column 2 correspond to y, entries in column 3 correspond to z and entries in column 4 correspond to w.) The above system is comprised of 3 equations with 4 unknowns/variables. Without further calculation, which of the following statements is therefore most plausible: If the system is consistent, then there will be an infinite number of solutions that will have to be expressed in terms of at least one parameter. There is guaranteed to be one unique solution for each of the variables , y, z and w that satisfies all three equations. The linear system degenerates to a nonlinear system that can only be solved via the substitution method.

Answers

Using Maple's Matrix command, it can be said that if the system is consistent, then there will be an infinite number of solutions that will have to be expressed in terms of at least one parameter.

To input the augmented matrix corresponding to the given system of linear equations using Maple's Matrix command, you can use the following syntax:

```maple

A := <<5, 3, 7, 2, 89>, <6, 2, 2, 8, -27>, <7, 8, 3, 2, 10>>;

```

This will create a matrix `A` where the first column represents the coefficients of `x`, the second column represents the coefficients of `y`, the third column represents the coefficients of `z`, and the fourth column represents the coefficients of `w`. The last column represents the constants on the right-hand side of the equations.

Now, let's analyze the statements based on the given system of equations and the augmented matrix:

1. "If the system is consistent, then there will be an infinite number of solutions that will have to be expressed in terms of at least one parameter."

  This statement is plausible. If the system is consistent (i.e., there is at least one solution), it is possible that there will be infinitely many solutions expressed in terms of a parameter. However, we cannot confirm this without further calculation.

2. "There is guaranteed to be one unique solution for each of the variables, y, z, and w, that satisfies all three equations."

  This statement is not plausible. The system has 4 unknowns (x, y, z, w) but only 3 equations. In general, if the number of equations is less than the number of unknowns, there may not be a unique solution for each variable.

3. "The linear system degenerates to a nonlinear system that can only be solved via the substitution method."

  This statement is not plausible. The given system of equations is linear, not nonlinear. There is no indication that it needs to be solved using the substitution method.

Therefore, the most plausible statement is: "If the system is consistent, then there will be an infinite number of solutions that will have to be expressed in terms of at least one parameter."

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Find the volume generated by revolving one arch of the curve y=sinx about the x-axis

Answers

The volume generated by revolving one arch of the curve y = sin(x) about the x-axis can be found using the method of cylindrical shells.

To calculate the volume, we divide the region into infinitesimally thin cylindrical shells. Each shell has a height equal to the function value y = sin(x) and a radius equal to the x-coordinate. The volume of each shell is given by the formula V = 2πxyΔx, where x is the x-coordinate and Δx is the width of the shell.

Integrating this volume formula over the range of x-values that form one complete arch of the curve (typically from 0 to π or -π to π), we can find the total volume generated by summing up the volumes of all the shells.

The resulting integral is ∫(0 to π) 2πx(sin(x)) dx, or ∫(-π to π) 2πx(sin(x)) dx if we consider both positive and negative x-values.

Evaluating this integral will give us the volume generated by revolving one arch of the curve y = sin(x) about the x-axis.

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What are the quadratic residues of 17? (Show computations.)

Answers

To find the quadratic residues of 17, we need to compute the squares of all integers modulo 17 and identify which ones are congruent to a perfect square.

This can be done by squaring each integer from 0 to 16 and checking if the resulting value is congruent to a perfect square modulo 17.To find the quadratic residues of 17, we compute the squares of integers modulo 17 and check which ones are congruent to a perfect square. We square each integer from 0 to 16 and reduce the result modulo 17.Squaring each integer modulo 17:

0² ≡ 0 (mod 17)

1² ≡ 1 (mod 17)

2² ≡ 4 (mod 17)

3² ≡ 9 (mod 17)

4² ≡ 16 ≡ -1 (mod 17)

5² ≡ 25 ≡ 8 (mod 17)

6² ≡ 36 ≡ 2 (mod 17)

7² ≡ 49 ≡ 15 (mod 17)

8² ≡ 64 ≡ 13 (mod 17)

9² ≡ 81 ≡ -7 (mod 17)

10² ≡ 100 ≡ -6 (mod 17)

11² ≡ 121 ≡ -3 (mod 17)

12² ≡ 144 ≡ 2 (mod 17)

13² ≡ 169 ≡ 1 (mod 17)

14² ≡ 196 ≡ -3 (mod 17)

15² ≡ 225 ≡ -1 (mod 17)

16² ≡ 256 ≡ 3 (mod 17)

From the computations, we can see that the quadratic residues of 17 are: 0, 1, 2, 4, 8, 9, 13, and 15. These are the values that are congruent to a perfect square modulo 17.

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Let A (0,9) , B(0,4), CEOX, then the coordinates of C which make the measure of ZACB is as great as possible are a) (3,0) b) (4,0) c) (5,0) d) (6,0)

Answers

The coordinates of C which make the measure of ∠ ACB as great as possible would be d). (6,0)

How to find the coordinates ?

Using the tangent function, the coordinates of C which would make ∠ ACB the greatest can be found by testing the options.

Option A: ( 3, 0 )

tan Φ = 5 x / ( x ² + 36 )                                    

= ( 5 x 3 ) / ( 3 ² + 36 )

= 1 / 3

Option B : ( 4, 0 )

= ( 5 x 4 ) / ( 4 ² + 36 )

= 5 / 13

Option C : ( 5, 0 )

= ( 5 x 5 ) / ( 5 ² + 36 )

= 25 / 61

Option D : ( 6, 0 )

= ( 5 x 6 ) / ( 6 ² + 36 )

= 5 / 12

tan Φ = 5 / 12 is the greatest possible value from the options so this is the appropriate coordinates for C.

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Find y'. y=x²√6x-1 y'=0 (Type an exact answer, using radicals as needed.)

Answers

The derivative of y with respect to x, denoted as y', is equal to (3x^2 - 1)/(2√6x).


To find the derivative of y with respect to x (y'), we can use the power rule and the chain rule of differentiation. Let's break down the steps:

First, apply the power rule to differentiate x^2, which gives us 2x.

Next, we differentiate the expression √6x - 1 using the chain rule. The derivative of √6x with respect to x is (√6)/2√x, obtained by differentiating the inside function (6x) and multiplying it by the derivative of the inside function (1/2√x).

The derivative of -1 with respect to x is 0 since it is a constant.

Combining these results, we have y' = 2x * (√6)/2√x - 0 = (√6x)/(√x) = √6x.

Therefore, the derivative of y with respect to x, y', is equal to (3x^2 - 1)/(2√6x).

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