Need help with this Thankyou

Need Help With This Thankyou

Answers

Answer 1

Answer: The Answer choice to this question is A) 12,330

Step-by-step explanation:

If we assume that the relationship is exponential, then the values of Cash Paying Drivers have a Constant ratio.

-> [tex]\frac{17,926}{18,426}[/tex] is approximately constant as [tex]\frac{17,202}{17,926},\frac{16,361}{17102},\frac{15,213}{16,361}[/tex]

-> 0.9728, 0.9540, 0.9567, 0.9298

The mean of the value above is 0.9533

After 9 weeks, the best estimate of the number of drivers who pay by Cash will be 18,428 x (0.9533)^8 ≈ 12,569

Since this is closer to 12,330, so the answer is A


Related Questions

Distance Formula Assignment \[ \sqrt{\longrightarrow} d-\sqrt{\left(x_{1}-x_{1}\right)^{2}+\left(x_{1}-x_{1}\right)^{2}} \] Express your answex in exact form and approximate form. Round approximate an

Answers

The approximate distance between the points P and Q is 5.4 units. In the given distance formula assignment, we have two points P(x₁,y₁) and Q(x₂,y₂). The distance between these points is calculated using the formula:

d = square root of [(x₂ - x₁) squared + (y₂ - y₁) squared]

For the specific values x₁ = 2, y₁ = 3, x₂ = -3, y₂ = 5, the distance is computed as follows:

d = square root of [(-3 - 2) squared + (5 - 3) squared]

 = square root of [(-5) squared + (2) squared]

 = square root of [25 + 4]

 = square root of 29

Hence, the exact distance between the points P and Q is the square root of 29 units. To approximate the value, rounding the square root of 29 to the nearest tenth gives 5.4.

Therefore, the approximate distance between the points P and Q is 5.4 units.

Learning more about distance from the given link

https://brainly.com/question/15172156

#SPJ11

Suppose x = 3 is the only critical point for f(x). If f is decreasing on (-infinity, 3) and increasing on (3, infinity), what must be true about f ?
a. Has an inflection point at 3
b. Has a minimum at 3
c. None of the above.
d. Has a maximum at 3

Answers

The point x when 3 is the minimum point for f.

Suppose x = 3 is the only critical point for f(x).

If f is decreasing on (-infinity, 3) and increasing on (3, infinity), then it must be true that f has a minimum at 3.

A critical point is a point at which the derivative of a given function is zero or undefined.

This means that the graph of the function has a horizontal tangent at that point.

This horizontal tangent may be a local minimum, a local maximum, or a saddle point, depending on the behavior of the function in the vicinity of the critical point.

A function is decreasing on an interval if the derivative of the function is negative on that interval.

On the other hand, a function is increasing on an interval if the derivative of the function is positive on that interval.

Since x = 3 is the only critical point for f(x), the point must either be a maximum, minimum, or inflection point, depending on the behavior of f(x) in the vicinity of 3.

f is decreasing on (-infinity, 3) and increasing on (3, infinity).

Therefore, the point x = 3 must be a minimum point for f.

Learn more about Critical Point from the given link :

https://brainly.com/question/7805334

#SPJ11

Given the following truth table a. Simplify the following function using Karnaugh map method b. Design the simplified equation

Answers

a. The given truth table is shown below: Truth table

A B C D F 0 0 0 0 0 0 0 0 1 0 0 0 1 1 1 0 0 0 1 0 0 1 1 0 0 1 0 1 1 0 1 0 1 1 0 1 1 1 1 1Now

, we will proceed with the Karnaugh Map (K-Map) simplification of the given Boolean function.The K-Map of the given truth table is shown below:

K-Map of FThe given Boolean function is:F

= A’B’CD + A’BCD + A’BC’D + AB’CD’ + AB’C’D + ABCD Using the K-Map method, the simplified Boolean expression is:F = A’C’D + A’B’C + AB’D’b. The simplified Boolean expression obtained above can be used to design the circuit diagram of the given function.

The circuit diagram is shown below: Circuit diagram of simplified Boolean expression Thus, the simplified equation using Karnaugh map method is F

= A’C’D + A’B’C + AB’D’.

To know more about simplification visit:

https://brainly.com/question/2804192

#SPJ11

Select the best option below.

a.
If I do real well on the test, I should be able to receive an "A" for the course.

b.
If I do really well on the test, I should be able to receive an "A" for the course.

c.
If I do real good on the test, I should be able to receive an "A" for the course.

d.
If I do really good on the test, I should be able to receive an "A" for the course.

Answers

The correct sentence is as follows:

If I do really well on the test, I should be able to receive an "A" for the course.

Option B is the best option here.

This is because, good is an adjective and is used to describe a noun, whereas, well is an adverb and is used to describe a verb. In the given sentence, the verb is "do", hence, the correct adverb to use here is "well" and not "good"

.Also, it is important to note that well is used to describe verbs, whereas good is used to describe nouns.

To know more about adjective visit

https://brainly.com/question/11356807

#SPJ11

could someone check my answers for me please!
In Exercises 25-32, use the diagram. 26. Name a point that is collinear with points \( B \) and \( I \). 28. Nane a point that is not collinear with points \( B \) and \( I \).

Answers

26. Points B and I are col linear, so any point on the line segment that joins them is also collinear with B and I. This includes points A, D, and F. 28. Point C is not collinear with B and I, because it is not on the line segment that joins them.

26. Two points are said to be collinear if they lie on the same line. In the diagram, points B and I are clearly on the same line, so they are collinear. Any point on the line segment that joins them is also collinear with B and I. This includes points A, D, and F.

28. Point C is not collinear with B and I because it is not on the line segment that joins them. Point C is above the line segment, while points B and I are below the line segment. Therefore, point C is not collinear with B and I.

Here is a more detailed explanation of collinearity:

Collinearity: Two points are said to be collinear if they lie on the same line.Line segment: A line segment is a part of a line that is bounded by two points.Non-collinear: Two points are said to be non-collinear if they do not lie on the same line.

To know more about linear click here

brainly.com/question/30444906

#SPJ11

A triangle is defined by the points A(8,5,−7) , B(3,−6,−6), and C(−4,k,9). The area of the triangle is √(8920.5). Determine the value of k.

Answers

The value of k is 4.

To find the value of k, we need to use the formula for the area of a triangle given its vertices. The formula for the area of a triangle in three-dimensional space is:

Area = 1/2 * |AB x AC|

Where AB and AC are the vectors formed by subtracting the coordinates of points B and A, and C and A, respectively, and "x" represents the cross product of the two vectors.

Let's calculate the vectors AB and AC:

AB = B - A = (3, -6, -6) - (8, 5, -7) = (-5, -11, 1)

AC = C - A = (-4, k, 9) - (8, 5, -7) = (-12, k - 5, 16)

Now we can calculate the cross product of AB and AC:

AB x AC = (-5, -11, 1) x (-12, k - 5, 16)

Using the determinant formula for the cross product, we have:

AB x AC = ((-11)(16) - (1)(k - 5), (-1)(-12) - (-5)(16), (-5)(k - 5) - (-11)(-12))

= (-176 - (k - 5), 12 - 80, -5k + 25 + 132)

= (-k - 181, -68, -5k + 157)

The magnitude of the cross product AB x AC gives us the area of the triangle:

|AB x AC| = sqrt((-k - 181)^2 + (-68)^2 + (-5k + 157)^2)

Given that the area of the triangle is √(8920.5), we can equate it to the magnitude of the cross product and solve for k:

sqrt((-k - 181)^2 + (-68)^2 + (-5k + 157)^2) = sqrt(8920.5)

Squaring both sides of the equation to eliminate the square root, we have:

(-k - 181)^2 + (-68)^2 + (-5k + 157)^2 = 8920.5

Simplifying and solving the equation, we find that k = 4.

Therefore, the value of k is 4.

Learn more about vectors here: brainly.com/question/29740341

#SPJ11

Suppose int i = 5, which of the following can be used as an index for array double[] t=new double[100]? A. i B. I +6.5 C.1 + 10 D. Math.random() * 100 E. (int)(Math.random() * 100))

Answers

The options that can be used as indices for the array are option A (i) and option E ((int)(Math.random() * 100)).

To determine which expressions can be used as an index for the array double[] t = new double[100], let's evaluate each option :

A. i: Since i is an integer variable with a value of 5, it can be used as an index because it falls within the valid index range of the array (0 to 99).

B. I + 6.5: This expression adds 6.5 to the variable i. Since array indices must be integers, this expression would result in a double value and cannot be used as an index.

C. 1 + 10: This expression evaluates to 11, which is an integer value and can be used as an index.

D. Math.random() * 100: The Math.random() function returns a double value between 0.0 (inclusive) and 1.0 (exclusive). Multiplying this value by 100 would still result in a double value, which cannot be used as an index.

E. (int)(Math.random() * 100): By multiplying Math.random() by 100 and casting the result to an integer, we obtain a random integer between 0 and 99, which falls within the valid index range and can be used as an index.

Learn more About array from the given link

https://brainly.com/question/28061186

#SPJ11

A projectile is fired with an initial speed of 600 m/sec at an angle of elevation of 30∘. Answer parts (a) through (d) below. a. When will the projectile strike?

Answers

The projectile will strike the ground after 60 seconds,  which is calculated using the given initial speed and angle of elevation.

a) To determine when the projectile will strike the ground, we can analyze the projectile's vertical motion. The initial speed of 600 m/s and the angle of elevation of 30∘ provide information about the initial vertical velocity and the effect of gravity.

We can split the initial velocity into its vertical and horizontal components. The vertical component is given by V₀sinθ, where V₀ is the initial speed and θ is the angle of elevation. In this case, V₀sin30∘ = 600 * sin30∘ = 300 m/s.

Considering only the vertical motion, the projectile experiences constant acceleration due to gravity, which is approximately 9.8 m/s². Using the equation of motion s = V₀t + (1/2)at², where s is the vertical displacement, V₀ is the initial vertical velocity, t is the time, and a is the acceleration, we can solve for t. Since the projectile strikes the ground when s = 0, we have 0 = 300t - (1/2) * 9.8 * t².

Simplifying the equation, we get (1/2) * 9.8 * t² = 300t, which can be rearranged to t² - 60t = 0. Factoring out t, we have t(t - 60) = 0. Thus, the projectile will strike the ground at t = 0 or t = 60 seconds.

Therefore, the projectile will strike the ground after 60 seconds.

Learn more about projectile here:

https://brainly.com/question/28043302

#SPJ11

Find the general solution of the given differential equation and then find the specific solution satisfying the given initial conditions
(x+3) y ′+ y = ln (x) given y(1) = 10

Answers

The general solution of the given differential equation (x+3)y' + y = ln(x) is y = Ce^(-ln(x)) - x - 3, where C is a constant. To find the specific solution satisfying the initial condition y(1) = 10, we substitute x = 1 and y = 10 into the general solution equation and solve for C. The specific solution is y = 10e^(-ln(x)) - x - 3.

To find the general solution of the differential equation, we rearrange the equation to separate the variables: (x+3)y' + y = ln(x) becomes dy/(y-ln(x)) = dx/(x+3). Integrating both sides, we obtain ln|y-ln(x)| = ln|x+3| + C, where C is the constant of integration. Simplifying, we have |y-ln(x)| = e^(ln(x+3)+C). Since e^C is another constant, we can rewrite it as |y-ln(x)| = Ce^ln(x+3). By removing the absolute value, we get y - ln(x) = Ce^ln(x+3). Finally, we simplify the expression as y = Ce^(-ln(x)) - x - 3, where C is a constant.

To find the specific solution satisfying the initial condition y(1) = 10, we substitute x = 1 and y = 10 into the general solution equation: 10 = Ce^(-ln(1)) - 1 - 3. Since ln(1) = 0, the equation becomes 10 = Ce^0 - 1 - 3, which simplifies to 10 = C - 4. Solving for C, we find C = 14. Therefore, the specific solution is y = 14e^(-ln(x)) - x - 3, or more simply, y = 10e^(-ln(x)) - x - 3.

Learn more about differential equation here: brainly.com/question/25731911

#SPJ11

A company's marginal cost function is 9/√x where x is the number of units.
Find the total cost of the first 100 units (from x = 0 to x = 100 ).
Total cost: $ ______

Answers

To find the total cost of the first 100 units, we need to integrate the marginal cost function over the range from x = 0 to x = 100.

The marginal cost function is given as 9/√x. To integrate this function, we'll need to find the antiderivative (also known as the integral) of the function.

∫(9/√x) dx

Using the power rule for integration, we can rewrite this as:

9∫x^(-1/2) dx

Now, applying the power rule, we add 1 to the exponent and divide by the new exponent:

= 9 * (x^(1/2))/(1/2) + C

= 18 * √x + C

To evaluate the definite integral from x = 0 to x = 100, we subtract the value of the antiderivative at the lower limit from the value at the upper limit:

Cost = [18 * √x] evaluated from 0 to 100

     = 18 * √100 - 18 * √0

     = 18 * 10 - 18 * 0

     = 180

Therefore, the total cost of the first 100 units is $180.

To know more about integral, refer to the link below:

brainly.com/question/14502499#

#SPJ11

final eeng signal
please i need correct answers and all parts
Question 3 a) Find the spectrum of \( x(t)=e^{2 t} u(1-t) \) b) Find the inverse Fourier transform of \( X(w)=j \frac{d}{d w}\left[\frac{e j^{4 w}}{j w+2}\right] \) c) \( 12 \operatorname{sinc}(6 t) \

Answers

a) The output `X` will be the spectrum of the signal \(x(t)\).

b) The output `x` will be the inverse Fourier transform of \(X(w)\).

c) The expression \(12\operatorname{sinc}(6t)\) represents a scaled sinc function.

a) To find the spectrum of \(x(t) = e^{2t}u(1-t)\), we can take the Fourier transform of the signal. In MATLAB, you can use the `fourier` function to compute the Fourier transform. Here's an example:

```matlab

syms t w

x = exp(2*t)*heaviside(1-t); % Define the signal

X = fourier(x, t, w); % Compute the Fourier transform

disp(X);

```

The output `X` will be the spectrum of the signal \(x(t)\).

b) To find the inverse Fourier transform of \(X(w) = j \frac{d}{dw}\left[\frac{e^{j4w}}{jw+2}\right]\), we can use the `ifourier` function in MATLAB. Here's an example:

```matlab

syms t w

X = j*diff(exp(1j*4*w)/(1j*w+2), w); % Define the spectrum

x = ifourier(X, w, t); % Compute the inverse Fourier transform

disp(x);

```

The output `x` will be the inverse Fourier transform of \(X(w)\).

c) The expression \(12\operatorname{sinc}(6t)\) represents a scaled sinc function. To plot the sinc function in MATLAB, you can use the `sinc` function. Here's an example:

```matlab

t = -10:0.01:10; % Time range

y = 12*sinc(6*t); % Compute the scaled sinc function

plot(t, y);

xlabel('t');

ylabel('y(t)');

title('Scaled sinc function');

```

This code will plot the scaled sinc function over the given time range.

Visit here to learn more about Fourier transform brainly.com/question/1542972

#SPJ11

Using total differentials, find the approximate change of the given function when x changes from 2 to 2.17 and y changes from 2 to 1.71. If necessary, round your answer to four decimal places. f(x,y)=2x2+2y2−3xy+1

Answers

Therefore, the approximate change in the function f(x, y) when x changes from 2 to 2.17 and y changes from 2 to 1.71 is approximately -0.24.

To find the approximate change of the function [tex]f(x, y) = 2x^2 + 2y^2 - 3xy + 1[/tex], we will use the concept of total differentials.

The total differential of f(x, y) is given by:

df = (∂f/∂x)dx + (∂f/∂y)dy

Taking the partial derivatives of f(x, y) with respect to x and y:

∂f/∂x = 4x - 3y

∂f/∂y = 4y - 3x

Substituting the given values of x and y:

∂f/∂x (at x=2, y=2) = 4(2) - 3(2)

= 2

∂f/∂y (at x=2, y=2) = 4(2) - 3(2)

= 2

Now, we can calculate the approximate change using the formula:

Δf ≈ (∂f/∂x)Δx + (∂f/∂y)Δy

Substituting the values:

Δf ≈ (2)(2.17 - 2) + (2)(1.71 - 2)

Simplifying the expression:

Δf ≈ 0.34 + (-0.58)

Δf ≈ -0.24

To know more about approximate change,

https://brainly.com/question/29551289

#SPJ11


Find the length of the curve.
y = 1/6(x^2+4)^3/2, 0≤ x ≤3
a. 8.5000
b. 4.5000
c. 5.5000
d. 6.5000
e. 7.5000

Answers

Given, the curve is y = 1/6(x^2+4)^3/2, 0 ≤ x ≤ 3.

The formula to find the length of the curve isL = ∫√(1+(dy/dx)²) dx.

The derivative of y with respect to x is given by dy/dx = x/4 (x² + 4)

The integral of the formula is[tex]L = ∫₀³ √(1+(x/4 (x² + 4))²) dxL = 6/5 ∫₀³ √((x²+4)²/16+x²) dxL = 6/5 ∫₀³ √(x^4+8x²+16)/16 dxL = 3/10 ∫₀³ √(x²+4)²+4 dx\\[/tex]Using substitution, u = x²+4

Therefore, du/dx = 2x or x = (1/2)du/dx

Then the integral becomes

L = [tex]3/10 ∫₄¹₃ √u²+4 du[/tex]

L = [tex]3/10 [1/2 (u²+4)³/2 / 3/[/tex]2]

[from 4 to 13]

L [tex]= 3/5 [(13²+4)³/2 - (4²+4)³/2][/tex]

L = 3[tex]/5 [105³/2 - 36³/2]L = 7.5[/tex]0

Hence, the length of the curve is 7.50 (approximately).Therefore, the correct answer is option E.

To know more about curve visit:

https://brainly.com/question/32496411

#SPJ11

Actual Hours × (Actual Rate - Standard Rate) is the formula to compute ________1. variable manufacturing overhead rate variance2. variable manufacturing overhead efficiency variance3. fixed overhead budget variance4. fixed overhead volume variance

Answers

1. Variable manufacturing overhead rate variance

The formula Actual Hours × (Actual Rate - Standard Rate) is used to calculate the variable manufacturing overhead rate variance. This variance measures the difference between the actual variable manufacturing overhead cost incurred and the standard variable manufacturing overhead cost that should have been incurred, based on the standard rate per hour.

Variable manufacturing overhead rate variance = Actual Hours × (Actual Rate - Standard Rate)

The variable manufacturing overhead rate variance provides insight into how efficiently a company is utilizing its variable manufacturing overhead resources in terms of the rate per hour. A positive variance indicates that the actual rate paid per hour for variable manufacturing overhead was higher than the standard rate, resulting in higher costs. On the other hand, a negative variance suggests that the actual rate paid per hour was lower than the standard rate, leading to cost savings.

By analyzing this variance, management can identify areas where the company may be overspending or underspending on variable manufacturing overhead and take corrective actions accordingly, such as renegotiating supplier contracts or optimizing resource allocation.

To know more about Variable, visit;

https://brainly.com/question/28248724

#SPJ11

What type of situation is shown below? A. neither proportional nor non-proportional B. non-proportional C. proportional D. both proportional and non-proportional

Answers

Type of relationship is shown between the price of a gallon of milk and the state in which it is purchased is B. non-proportional. Option B is the correct answer.

This is because the ratio of the output values (price of a gallon of milk) to the input values (state in which it is purchased) is not constant. In other words, as the input values (state in which it is purchased) change, the output values (price of a gallon of milk) do not change at a constant rate.

As you can see, the price of a gallon of milk does not increase at a constant rate as the state changes. In California, a gallon of milk costs $3.50. In New York, a gallon of milk costs $3.00. And in Texas, a gallon of milk costs $2.50.

This shows that the relationship between the state in which a gallon of milk is purchased and the price of a gallon of milk is non-proportional. Option B is the correct answer.

For such more question on proportional:

https://brainly.com/question/28691574

#SPJ8

The following question may be like this:

The price of a gallon of milk varies depending on the state in which it is purchased. In California, a gallon of milk costs $3.50. In New York, a gallon of milk costs $3.00. In Texas, a gallon of milk costs $2.50.

What type of situation is shown below?

A. proportional

B. non-proportional

C. both proportional and non-proportional

D. neither proportional nor non-proportional

2. Write the answer to the following questions in a single sentence. a) What is the problem of using an even value of k in the k-NN classifier? 1 b) What is the reason that has led the Bayesian Belief Network to emerge? 1 c) What is the necessity of using scaling in k-NN? 1 d) Write a mathematical relation between Manhattan distance and Euclidean distance. 1 e) Why is a dendrogram not applicable on K-means clustering algorithm? 1 1 f) What is the appropriacy of using minimum spanning tree (MST) other than all other types of trees to divisive hierarchical clustering? 1 g) What are the observations, for which the size of proximity matrix can be reduced from m2 to about m2/2? 1 h) Why is the matching each transaction against every candidate computationally expensive in brute-force approach? 1 i) Write a mathematical relation between k (from k-itemset) and w (maximum transaction width)? j) Given a transaction t of n items, what are the possible subsets of size 3? 1 3 k) If number of items, d = 3 is given, calculate the total number of possible association rules in brute-force approach using two different ways.

Answers

a) Using an even value of k in the k-NN classifier can lead to ties in the decision-making process.

b) The emergence of Bayesian Belief Network is driven by the need for probabilistic models to represent uncertain knowledge and make inferences.

c) Scaling is necessary in k-NN to ensure that features with larger ranges do not dominate the distance calculation.

d) The mathematical relation between Manhattan distance and Euclidean distance is given by Manhattan distance = √(Euclidean distance).

e) A dendrogram is not applicable in K-means clustering algorithm because it does not provide a hierarchical representation of the clusters.

f) Minimum spanning tree (MST) is appropriate for divisive hierarchical clustering as it allows for a step-by-step division of clusters based on the minimum dissimilarity.

g) The size of the proximity matrix can be reduced from m^2 to about m^2/2 for symmetric distance measures.

h) Matching each transaction against every candidate is computationally expensive in brute-force approach due to the high number of comparisons required.

i) The mathematical relation between k (from k-itemset) and w (maximum transaction width) depends on the specific problem or algorithm being used.

j) The possible subsets of size 3 in a transaction t of n items can be calculated using the combination formula: C(n, 3) = n! / (3! * (n-3)!).

k) The total number of possible association rules in brute-force approach with d = 3 items can be calculated as 3^2 - 3 = 6 using the formula 2^(d^2) - d.

Using an even value of k in the k-NN classifier can lead to ties in the decision-making process. When k is even, there is a possibility of having an equal number of neighbors from different classes, resulting in ambiguity in assigning the class label.

The Bayesian Belief Network has emerged as a solution to represent uncertain knowledge and make inferences. It utilizes probabilistic models and graphical structures to capture the dependencies and conditional relationships between variables, allowing for reasoning under uncertainty.

Scaling is necessary in k-NN to ensure fair comparison between features with different ranges. Without scaling, features with larger numerical values would dominate the distance calculation and potentially bias the classification process.

Read more on Bayesian networks here brainly.com/question/31314882

#SPJ11

Observe the given below:
a. Determine the numerator part of the Fourier
transform of the response.
b. Determine the denominator part of the Fourier
transform of the response

Answers

a. The numerator of the Fourier transform is 1.

b. The denominator part of the Fourier transform is [tex]8e^{jw}(2e^{jw}-1)[/tex].

Given that,

We have to find the Fourier transform of the response of the function h(n) = [tex](0.5)^{n+2}[/tex] u(n-2)

We know that,

Take the function,

h(n) = [tex](0.5)^{n+2}[/tex] u(n-2)

h(n) = [tex](0.5)^{n-2+4}[/tex] u(n-2)

h(n) = (0.5)⁴ [tex](0.5)^{n-2}[/tex] u(n-2)

h(n) = [tex](\frac{1}{2})^4[/tex] [tex](0.5)^{n-2}[/tex] u(n-2)

h(n) = [tex](\frac{1}{16})[/tex] [tex](0.5)^{n-2}[/tex] u(n-2)

Using the transform formulas,

x(n) ⇒ X(z)

aⁿu(n) ⇒ [tex]\frac{1}{1-az^{-1}}[/tex]

x(n - n₀) ⇒ X(z)[tex]z^{-n_0}[/tex]

We get,

H(z) = [tex](\frac{1}{16})[/tex] [tex]\frac{z^{-2}}{1-0.5z^{-1}}[/tex]

H(z) = [tex](\frac{1}{16})[/tex] [tex]\frac{z^{-2}}{1- \frac{z^{-1}}{2}}[/tex]

H(z) =  [tex]\frac{z^{-2}}{8(2- z^{-1})}[/tex]

H(z) = [tex]\frac{1}{8z(2z -1)}[/tex]

By using discrete time Fourier transform,

H(z) = [tex]\frac{1}{8e^{jw}(2e^{jw} -1)}[/tex]

Therefore,

a. a. The numerator of the Fourier transform is 1.

b. The denominator part of the Fourier transform is [tex]8e^{jw}(2e^{jw}-1)[/tex].

To know more about Fourier visit:

https://brainly.com/question/33222515

#SPJ4

The question is incomplete the complete question is-

Observe the given below:

h(n) = [tex](0.5)^{n+2}[/tex] u(n-2)

a. Find the numerator part of the Fourier transform of the response.

b. Find the denominator part of the Fourier transform of the response.

A pendulum of length l = 1.5 m oscillates after being let go at an angle (which represents its maximum amplitude) of θ = 0.09 radians from the vertical. Knowing that that the period is given by the formula

T=2π√l/g
(in the SI system, which is based on metric units, g = 9.8 m/s^2 ) write an equation describing its angle with respect to the vertical as a function of the time elapsed since it was let go.

Suggestion: The best way to work a problem like this is not to rush in and plug in the numbers. The recommended way is to solve the problem for generic starting angle (it was called θ in the question), l, and g (that is, keeping them as literal variables). Once you have a formula in terms of these generic variables, you can plug in the specific values. This way, your solution will work for pendulums of any starting angle 1, length, and for pendulums on any planet, even where gravity pulls differently than on Earth. More prosaically, your formula will not be tied to the specific system of units used: the numbers above refer to radians and the SI system, but a generic formula allows you to plug in any (consistent) units - for example, measuring the pendulum length in inches, and g in inches/ sec^2 Using degrees instead of radians requires a bit more and is not recommended in any case, when dealing with a function.

Answers

A pendulum of length l = 1.5 m oscillates after being let go at an angle (which represents its maximum amplitude) of θ = 0.09 radians from the vertical.

Here's how to write an equation describing its angle with respect to the vertical as a function of the time elapsed since it was let go.Given formula,T = 2π√(l/g)Where,l is the length of the pendulum,g is the acceleration due to gravity,θ is the maximum amplitude,φ is the phase angle, andT is the period of the oscillation.When the pendulum is released from the angle θ, the angular displacement is given by the equation,θ = θsin (wt + φ)Where,θ is the angular displacement,ω is the angular frequency,w = 2π/T,andt is the time.

So,ω = 2π/T

= 2π√(g/l)θ

= θsin (2πt/T + φ)

= θsin (2πt√(g/l) + φ)

The initial angular displacement is θ.

The phase angle φ is zero when the pendulum starts at the equilibrium position, and it is π/2 when it starts from the maximum displacement. Therefore,φ = π/2 when the pendulum is released from the maximum displacement.        Then,θ = θsin (2πt√(g/l) + π/2)

= θcos (2πt√(g/l))

Thus, the equation describing the angle with respect to the vertical as a function of time elapsed since the pendulum was let go isθ = θcos (2πt√(g/l))where,

l = 1.5 m,g

= 9.8 m/s², and

θ = 0.09 radians.

So,θ = 0.09cos (2πt√(9.8/1.5))The angle of the pendulum decreases as time increases until the pendulum comes to a stop at the bottom of the swing and then starts to move back in the opposite direction.

To know more about pendulum  visit:-

https://brainly.com/question/29268528

#SPJ11

The equation describing its angle with respect to the vertical as a function of the time elapsed since it was let go is θ(t) = 0.09  cos(2.184t).

The equation describing the angle of the pendulum with respect to the vertical as a function of time can be expressed as:

θ(t) = θ₀ cos(ωt)

The angular frequency ω can be calculated using the formula:

ω = 2π / T

where T is the period of the pendulum, given by the formula:

T = 2π √(l / g)

We have l = 1.5 m and g = 9.8 m/s²,

So, T = 2π  √(l / g)

T = 2π √(1.5 / 9.8)

T ≈ 2.881 seconds

Now, let's calculate the angular frequency ω:

ω = 2π / T

ω = 2π / 2.881

ω ≈ 2.184 radians/second

Finally, substituting the values of θ₀ and ω into the equation θ(t) = θ₀ * cos(ωt), we have:

θ(t) = 0.09  cos(2.184t)

Learn more about Angular Frequency here:

https://brainly.com/question/32670038

#SPJ4

Evaluate the integral below:
a. ∫ 2x^2/ (1-6x^3) dx
b. ∫ e^2x/ √(e^4x + 1) dx
c. ∫ dx/(√x√(1-x)) hint: make a substitution µ = √x
d. ∫ dx/(√(x^2 – 4x +3)

Answers

The evaluation of the given integrals are as follows;

a. (-1/9) ln|1-6x³| + C.

b.  ln|e²x + √([tex]e^4[/tex]x + 1)| + C.

c. ln|√x + √(1-x)| + C.

d. ln|(x-2) + √(x² - 4x + 3)| + C.

a. To evaluate the integral of ∫ 2x²/ (1-6x³) dx,

use the substitution u = 1 - 6x³.

This leads to du = -18x² dx, which gives;

∫ (2x²)/ (1-6x³) dx = (-1/9) ∫ du/u.

The integral of du/u can be evaluated as ln|u| + C, where C is the constant of integration.

Substituting the final answer as (-1/9) ln|1-6x³| + C.

b. To evaluate the integral of ∫ e²x/ √([tex]e^4[/tex]x + 1) dx,

We will use the substitution u = e²x.

This leads to du = 2e²x dx, which gives

∫ e²x/ √([tex]e^4[/tex]x + 1) dx = (1/2) ∫ du/√(u² + 1).

The integral of du/√(u² + 1) can be evaluated using the substitution

v = u² + 1,

∫ du/√(u² + 1) = ln|u + √(u² + 1)| + C.

Substituting back gives the final answer as ln|e²x + √([tex]e^4[/tex]x + 1)| + C.

c. To evaluate the integral of ∫ dx/(√x√(1-x)),

use the substitution µ = √x.

x = µ² and dx = 2µ dµ,

∫ dx/(√x√(1-x)) = ∫ (2µ dµ)/(µ√(1-µ²)).

Simplifying this expression gives the final answer as;

ln|µ + √(1-µ²)| + C.

Substituting gives the final answer as ln|√x + √(1-x)| + C.

d. To evaluate the integral of ∫ dx/(√(x² – 4x +3)),

Then complete the square in the denominator to get ;

∫ dx/(√[(x-2)² - 1]).

Use the substitution u = x - 2, leads to du = dx.

Substituting

∫ du/√(u² - 1),

v = u/√(u² - 1),

du = dv/(v² + 1).

Simplifying this expression gives the final answer

ln|u + √(u² - 1)| + C.

ln|(x-2) + √(x² - 4x + 3)| + C.

Learn more about integral here;

https://brainly.com/question/29014098

#SPJ2

Find the area of the surface.
F (x,y) = 9+x^2−y^2 ; R = {(x,y)∣x^2+y^2 ≤ 4 ; x ≥ 0 ; − 2 ≤ y ≤ 2 }

Answers

The area of the surface is given by: Area = ∫(0 to π/2) ∫(0 to 2) (9 + r^2 cos^2 θ - r^2 sin^2 θ) r dr dθ

To find the area of the surface defined by the vector field F(x, y) = 9 + x^2 - y^2 over the region R, we can use the surface integral. The surface integral calculates the flux of the vector field across the surface.

The surface integral is given by the formula:

∬S F(x, y) · dS

where S represents the surface, F(x, y) is the vector field, and dS represents the differential surface area.

In this case, the region R is defined as x^2 + y^2 ≤ 4, x ≥ 0, and -2 ≤ y ≤ 2. This corresponds to the circular region in the first quadrant with a radius of 2 and height from -2 to 2.

To calculate the surface integral, we need to parameterize the surface S. We can use polar coordinates to parameterize the surface as follows:

x = r cos θ

y = r sin θ

where r ranges from 0 to 2 and θ ranges from 0 to π/2.

Next, we need to calculate the cross product of the partial derivatives of the parameterization:

∂r/∂x × ∂r/∂y = (cos θ, sin θ, 0) × (-sin θ, cos θ, 0) = (0, 0, 1)

The magnitude of this cross product is 1.

Now, we can calculate the surface integral:

∬S F(x, y) · dS = ∬S (9 + x^2 - y^2) · dS

Since the magnitude of the cross product is 1, the surface integral simplifies to:

∬S (9 + x^2 - y^2) · dS = ∬S (9 + x^2 - y^2) dA

where dA represents the differential area in polar coordinates.

To integrate over the circular region, we can use the following limits:

r: 0 to 2

θ: 0 to π/2

Evaluating this double integral will give the area of the surface defined by the vector field F(x, y) = 9 + x^2 - y^2 over the region R.

Learn more about Area at: brainly.com/question/1631786

#SPJ11

use the data in the table to create the standard form of the function that models this situation, where a, b, and c are constants

Answers

Answer:

we need a table to solve this

Step-by-step explanation:

Question 23 of 26 < > -/4 View Policies Current Attempt in Progress A child places a picnic basket on the outer rim of a merry-go-round that has a radius of 4.7 m and revolves once every 27 s. (a) What is the speed of a point on that rim? (b) What is the lowest value of the coefficient of static friction between basket and merry-go-round that allows the basket to stay on the ride? (a) Number i Units (b) Number i Units

Answers

(a) The speed of a point on the rim of the merry-go-round can be calculated using the formula: speed = 2πr / T, where r is the radius of the merry-go-round and T is the period of revolution.

Given: Radius (r) = 4.7 m Period of revolution (T) = 27 s

Substituting these values into the formula: speed = (2π * 4.7) / 27 speed ≈ 3.28 m/s

Therefore, the speed of a point on the rim is approximately 3.28 m/s.

(b) To determine the lowest value of the coefficient of static friction that allows the basket to stay on the merry-go-round, we need to consider the centripetal force required to keep the basket in circular motion.

The centripetal force (Fc) is given by the formula: Fc = m * v^2 / r, where m is the mass of the basket, v is the velocity of the basket, and r is the radius of the merry-go-round.

Since the basket is in static equilibrium, the static friction force (Fs) must provide the necessary centripetal force.

The maximum static friction force is given by the equation: Fs ≤ μs * N, where μs is the coefficient of static friction and N is the normal force acting on the basket.

In this case, the normal force (N) is equal to the weight of the basket, which is given by the equation: N = mg, where g is the acceleration due to gravity.

We can set up the following inequality to find the lowest value of the coefficient of static friction: μs * N ≥ Fc

Substituting the values and equations above, we have: μs * mg ≥ m * v^2 / r

Simplifying, we get: μs ≥ v^2 / (rg)

Substituting the given values: μs ≥ (3.28^2) / (4.7 * 9.8)

Calculating: μs ≥ 0.748

Therefore, the lowest value of the coefficient of static friction that allows the basket to stay on the merry-go-round is approximately 0.748.

In summary:

(a) The speed of a point on the rim is approximately 3.28 m/s.

(b) The lowest value of the coefficient of static friction is approximately 0.748.

To know more about speed , visit

https://brainly.com/question/33156987

#SPJ11

Find all points on the curve that have the given slope.

(i) x=2cost,y=8sint, slope =−1
(ii) x=2+√t, y=2−4t, slope =0

Answers

The slope of the curve can be found using the formula given below:slope=dy/dxGiven,x = 2cos t and y = 8 sin tDifferentiating x and y with respect to t, we getdx/dt = -2 sin t and dy/dt = 8 cos tHence,dy/dx = (dy/dt) / (dx/dt)= (8 cos t) / (-2 sin t)= -4 cot tThe given slope is -1. Hence,-4 cot t = -1 ⇒ cot t = 1/4Let's analyze where cot t = 1/4.

The positive value of cot t can be found in the first quadrant and the negative value of cot t can be found in the third quadrant.Positive value of cot t can be obtained when,t = 1.1903... [from the calculator or cot t = 1/4]In the first quadrant,cos t > 0 and sin t > 0Hence,x = 2 cos t = 2 cos 1.1903... = -0.89...[rounded to two decimal places]y = 8 sin t = 8 sin 1.1903... = 3.11...[rounded to two decimal places]

In the third quadrant,cos t < 0 and sin t < 0Hence,x = 2 cos t = 2 cos 1.952... = -1.84...[rounded to two decimal places]y = 8 sin t = 8 sin 1.952... = -3.35...[rounded to two decimal places]Therefore, the point is (-1.84, -3.35).(ii)       x=2+√t, y=2−4t, slope = 0The slope of the curve can be found using the formula given below:slope=dy/dxGiven, x = 2 + √t and y = 2 − 4tDifferentiating x and y with respect to t, we getdx/dt = 1 / (2 sqrt(t)) and dy/dt = -4

To know more about curve visit:

https://brainly.com/question/32496411

#SPJ11

Let y = 5x^2 + 4x + 4.

Find the differential dy when x = 3 and dx = 0.4 ____
Find the differential dy when x = 3 and dx = 0.8 ____

Answers

The differential dy when x = 3 and dx = 0.4 is approximately 42.8. The differential dy when x = 3 and dx = 0.8 is approximately 85.6.

To find the differential dy, we can use the formula for differentials in calculus, which is given by dy = f'(x) * dx, where f'(x) represents the derivative of the function f(x) with respect to x. In this case, the function is y = 5x^2 + 4x + 4.

First, we need to find the derivative of y with respect to x, which is given by y' = 10x + 4.

Now, we can substitute the given values into the formula.

For the first case, when x = 3 and dx = 0.4, we have:

dy = (10 * 3 + 4) * 0.4 = 42.8

For the second case, when x = 3 and dx = 0.8, we have:

dy = (10 * 3 + 4) * 0.8 = 85.6

Therefore, the differential dy when x = 3 and dx = 0.4 is approximately 42.8, and when x = 3 and dx = 0.8, it is approximately 85.6.

In calculus, the differential represents the change in a function, or in this case, the change in y, resulting from a small change in x. The differential dy can be thought of as the approximate change in the value of y when x changes by a small amount dx.

To find the differential dy, we first find the derivative of the function y = 5x^2 + 4x + 4 with respect to x. The derivative gives us the rate of change of y with respect to x at any point on the function. In this case, the derivative is y' = 10x + 4.

By using the formula for differentials, dy = f'(x) * dx, we can calculate the differential dy by multiplying the derivative y' evaluated at the specific x-value by the given dx value.

In the first case, when x = 3 and dx = 0.4, we substitute these values into the formula: dy = (10 * 3 + 4) * 0.4 = 42.8. This means that when x changes by 0.4, the value of y changes by approximately 42.8.

Similarly, in the second case, when x = 3 and dx = 0.8, we substitute these values into the formula: dy = (10 * 3 + 4) * 0.8 = 85.6. Here, a larger change in x of 0.8 results in approximately double the change in y compared to the first case.

In summary, the differential dy represents the approximate change in the value of y resulting from a small change in x. By calculating the derivative and using the differential formula, we can determine the specific value of dy for given values of x and dx.

Learn more about function here:

brainly.com/question/30721594

#SPJ11

First Exam Question 1 : For each of the system shown below, determine which of the following properties hold: time invariance, linearity, causality, and stability. Justify your answer.

y(t) :) = { 0, 3x (t/4)

x(t) < 1)
x(t) ≥ 1)

Answers

Putting it all together, the equation of the tangent line to the graph of f(x) at the point (0, -7) is:y = mx + b

y = 1x - 7

y = x - 7Therefore, m = 1 and b = -7.

To find the equation of the tangent line to the graph of f(x) at the point (0, -7), we need to find the slope of the tangent line (m) and the y-intercept (b).

1. Slope of the tangent line (m):

The slope of the tangent line is equal to the derivative of the function evaluated at x = 0. Let's find the derivative of f(x) first:

f(x) = 10x + 2 - 9e^z

Taking the derivative with respect to x:

f'(x) = 10 - 9e^z * dz/dx

Since we are evaluating the derivative at x = 0, dz/dx is the derivative of e^z with respect to x, which is 0 since z is not dependent on x.

Therefore, f'(x) = 10 - 9e^0 = 10 - 9 = 1

So, the slope of the tangent line (m) is 1.

2. Y-intercept (b):

We know that the point (0, -7) lies on the tangent line. Therefore, we can substitute these values into the equation of a line (y = mx + b) and solve for b:

-7 = 1(0) + b

-7 = b

So, the y-intercept (b) is -7.

Putting it all together, the equation of the tangent line to the graph of f(x) at the point (0, -7) is:

y = mx + b

y = 1x - 7

y = x - 7

Therefore, m = 1 and b = -7.

To know more about equation click-

http://brainly.com/question/2972832

#SPJ11

triple integral
(c) Find the volume of the solid whose base is the region in the sz-plane that is bounded by the parabola \( z=3-x^{2} \) and the line \( z=2 x \). while the top of he solid is bounded by the plane \(

Answers

The required volume of the solid is:V = ∫∫∫ dV = ∫(∫(∫dz)dy)dx= ∫1^(-1) (∫3/2x^(-1) 0 (∫2^0 dz)dy)dx

= ∫1^(-1) (∫3/2x^(-1) 0 2dy)dx= ∫1^(-1) (2 * 3/2x^(-1))dx= ∫1^(-1) (3/x)dx

= 3 ln |-1| - 3 ln |1|= -3 ln 1= 0.

Given information: triple integral (c) Find the volume of the solid whose base is the region in the sz-plane that is bounded by the parabola \(z=3-x^2\) and the line \(z=2x\).

while the top of he solid is bounded by the plane \(z=6-x-2y\)Step-by-step explanation:

Here we are asked to find the volume of the solid which is bounded by the region in the sz-plane and by the plane.

So, let's solve the problem. Now, we can find the upper limit of the integral as: z = 6 - x - 2y

We know that the lower limit is the equation of the plane z = 0.

The region in the sz-plane is bounded by the parabola z = 3 - x² and the line z = 2x.

Since z = 3 - x² = 2x implies x² + 2x - 3 = 0, which gives us (x + 3)(x - 1)

= 0, so x = -3 or x = 1.

But we can't have x = -3 because z = 2x must be non-negative.

Thus, x = 1, and we have z = 2 and z = 2x. The intersection of these two surfaces is a line, which has the equation x = y.

So we can set y = x in the equation of the plane to get the upper bound of y.

That is, 6 - x - 2y = 6 - 3x which gives 3x + 2y = 6 or y = 3 - (3/2)x.

Therefore, the integral becomes: c V = ∫∫∫ dV = ∫(∫(∫dz)dy)dx , 0 ≤ z ≤ 2, 0 ≤ y ≤ 3 - (3/2)x, -1 ≤ x ≤ 1

Thus, the required volume of the solid is: V = ∫∫∫ dV = ∫(∫(∫dz)dy)dx

= ∫1^(-1) (∫3/2x^(-1) 0 (∫2^0 dz)dy)dx

= ∫1^(-1) (∫3/2x^(-1) 0 2dy)dx

= ∫1^(-1) (2 * 3/2x^(-1))dx= ∫1^(-1) (3/x)dx

= 3 ln |-1| - 3 ln |1|= -3 ln 1= 0.

To know more about volume visit:

https://brainly.com/question/28058531

#SPJ11

Let C1​ be the circle with radius r1​=7 centered at M1​=[−8,2] and C2​ be the circle with radius r2​=15 centered at M2​=[8,−1]. The circles intersect in two points. Let l be the line through these points. What is the distance between line l and M1​ ?

Answers

The distance between line l and point M1​=[−8,2] is 40 / sqrt(265)

To find the distance between line l and point M1​=[−8,2], we need to determine the equation of line l first. Since line l passes through the two intersection points of the circles, let's find the coordinates of these points.

The distance between the centers of the circles can be found using the distance formula:

d = sqrt((x2 - x1)^2 + (y2 - y1)^2)

= sqrt((8 - (-8))^2 + (-1 - 2)^2)

= sqrt(256 + 9)

= sqrt(265)

Next, we can find the direction vector of line l by taking the difference between the coordinates of the two intersection points:

dX = 8 - (-8) = 16

dY = -1 - 2 = -3

So, the direction vector of line l is [16, -3].

Now, we can use the point-normal form of a line to find the equation of line l. Taking one of the intersection points as a reference, let's use the point M1​=[−8,2].

The equation of line l is given by:

(x - (-8))/16 = (y - 2)/(-3)

Simplifying, we get:

3(x + 8) = -16(y - 2)

3x + 24 = -16y + 32

3x + 16y = 8

Now, we can find the distance between line l and point M1​=[−8,2] using the formula for the distance from a point to a line:

distance = |Ax + By + C| / sqrt(A^2 + B^2)

For the line equation 3x + 16y = 8, A = 3, B = 16, and C = -8. Plugging these values into the formula, we get:

distance = |3(-8) + 16(2) + (-8)| / sqrt(3^2 + 16^2)

= |-24 + 32 - 8| / sqrt(9 + 256)

= 40 / sqrt(265)

Learn more about: distance

https://brainly.com/question/15256256

#SPJ11

A cylindrical water tank has a height of 5m and a diameter of
3,5m
Calculate the volume of the tank. (Use =3,14)
Determine the capacity in litres.

Answers

Answer:

48110 L ≅

Step-by-step explanation:

as we know volume of a cylinder is

pie x r² x h

h = 5m

d= 3.5m          so r=d/2   r =1.75

as π value given 3.14

so  

    3.14  x  (1.75)²   x   5

the answer would be approx. 48.11 m^3

as 1 m³   =    1000 L

So 48.11  x   1000

therefore volume in Liters is 48110.

The funcion s(t) represents the position of an object at time 1 moving along a line. Suppose s(1) = 104 and s(5) = 212. Find the average velocity of the object over the interval of time [1,5]

The average velocity over the interval [1,5] is v_ar = _______
(Simply your answer)

Answers

Average velocity of the object over the interval of time is 27.

The average velocity of an object over an interval of time is defined as the change in position or displacement divided by the time intervals in which the displacement occurs. To find the average velocity of the object over the interval of time [1,5], we can use the formula:

average velocity = (final position - initial position) / (final time - initial time)

where s(1) = 104 and s(5) = 212.

average velocity = (212 - 104) / (5 - 1) = 108 / 4 = 27

Therefore, the average velocity over the interval [1,5] is 27.

The average velocity is calculated by finding the difference between the final and initial positions and dividing it by the difference between the final and initial times. In this case, the final position is s(5) = 212 and the initial position is s(1) = 104. The final time is t=5 and the initial time is t=1. Substituting these values into the formula gives us an average velocity of 27.

LEARN MORE ABOUT velocity here: brainly.com/question/30559316

#SPJ11

Consider the following.
f(x)= x^2/x^2+64
Find the critical numbers. (Enter your answers as a comma-separated list. If an answer does not exist, enter DNE.)
x=

Answers

The function f(x) has no critical numbers. However, (x^2 + 64)^2 is always positive for any real value of x.

To find the critical numbers of a function, we need to determine the values of x where the derivative of the function is equal to zero or undefined. The derivative of f(x) can be found using the quotient rule:

f'(x) = (2x(x^2 + 64) - x^2(2x)) / (x^2 + 64)^2

Simplifying this expression, we get:

f'(x) = (128x) / (x^2 + 64)^2

To find the critical numbers, we set f'(x) equal to zero and solve for x:

(128x) / (x^2 + 64)^2 = 0

Since the numerator is zero when x = 0, we need to check if the denominator is also zero at x = 0. However, (x^2 + 64)^2 is always positive for any real value of x. Therefore, there are no critical numbers for the function f(x).

Learn more about real value here:

https://brainly.com/question/28464441

#SPJ11

Other Questions
Compare between the router, switch and hub in terms offunction. Graph the system x = 2y and -x - y + 3 = 0 for all values of x from x =-3 to x = 3 2. (5pt) Short questions about \( 8 b i t \) binaries A. What is the unsigned and signed \( 2 s \) complement of 01001110 ? B. Write down the output of a standard UNSIGNED 8-bit subtractor when doing A 11 kg monkey climbs up a massless rope that runs over a frictionless tree limb and back down to a 14 kg package on the ground (see the figure). (a) What is the magnitude of the least acceleration the monkey must have if it is to lift the package off the ground? If, after the package has been lifted, the monkey stops its climb and holds onto the rope, what are (b) the magnitude and the direction of the monkey's acceleration (choosing the positive direction up), and (c) what is the tension in the rope? (a) Number Units (b) Number Units (c) Number Units A pn junction, under forward bias, operates as a capacitor. Select one: True False Multiple Production Department Factory Overhead Rates The total factory overhead for Bardot Marine Company is budgeted for the year at $1,231,750 divided into two departments: Fabrication, $1,004,250, and Assembly, $227,500. Bardot Marine manufactures two types of boats: speedboats and bass boats. The speedboats require 2 direct labor hours in Fabrication and 2 direct labor hours in Assembly. The bass boats require 4 direct labor hours in Fabrication and 2 direct labor hours in Assembly. Each product is budgeted for 6,500 units of production for the year. Determine (A) the total number of budgeted direct labor hours for the year in each department, (B) the departmental factory overhead rates for both departments, and (C) the factory overhead allocated per unit for each product using the department factory overhead allocation rates. When required, round all per unit answers to the nearest cent. Show how you computed your answers. combine a variety of objects to allow users to create appealing, visually interesting presentations. IN C++Modify the source code for the Stackclass from Chapter17, shownin Displays17.17 through 17.19. Currently, if the user of the classattempts to pop from an empty stack the program prints out an Project due Aug 24, \( 202215: 59+04 \) As you have observed in the previous tab, a linear model is not able to correctly approximate the Q-function for our simple task. In this section, you will appr which of these is not visible with a space telescope Consider a system described by the differential equationAd2y(t)/ dt2+Bdy(t)/dt+Cy(t)=Ddx/dt(t)+Ex(t). Determine the Laplace transform of the differential equation. The charges and coordinates of two charged particles held fixed in an xy plane are q 1 =2.02C,x 1 =5.72 cm,y 1 =0.445 cm and q 2 =6.36C,x 2 =2.73 cm,y 2 =2.27 cm. Find the (a) magnitude and (b) direction (with respect to +x-axis in the range (180 ;180 ]) of the electrostatic force on particle 2 due to particle 1. At what (c)x and (d)y coordinates should a third particle of charge q 3 =6.54C be placed such that the net electrostatic force on particle 2 due to particles 1 and 3 is zero? (a) Number Units (b) Number Units (c) Number Units (d) Number Units Read the excerpt from "The Crab That Played with the Sea."Then the little girl-daughter put up her little soft brown arms with the beautiful white shell bracelets and said, O Eldest Magician! when my father here talked to you at the Very Beginning, and I leaned upon his shoulder while the beasts were being taught their plays, one beast went away naughtily into the Sea before you had taught him his play.And the Eldest Magician said, How wise are little children who see and are silent! What was the beast like?And the little girl-daughter said, He was round and he was flat; and his eyes grew upon stalks; and he walked sideways like this; and he was covered with strong armour upon his back.And the Eldest Magician said, How wise are little children who speak truth! Now I know where Pau Amma went. Give me the paddle!So he took the paddle; but there was no need to paddle, for the water flowed steadily past all the islands till they came to the place called Pusat Tasekthe Heart of the Seawhere the great hollow is that leads down to the heart of the world, and in that hollow grows the Wonderful Tree, Pauh Janggi, that bears the magic twin nuts. Then the Eldest Magician slid his arm up to the shoulder through the deep warm water, and under the roots of the Wonderful Tree he touched the broad back of Pau Amma the Crab. And Pau Amma settled down at the touch, and all the Sea rose up as water rises in a basin when you put your hand into it.Ah! said the Eldest Magician. Now I know who has been playing with the Sea; and he called out, What are you doing, Pau Amma?And Pau Amma, deep down below, answered, Once a day and once a night I go out to look for my food. Once a day and once a night I return. Leave me alone.Then the Eldest Magician said, Listen, Pau Amma. When you go out from your cave the waters of the Sea pour down into Pusat Tasek, and all the beaches of all the islands are left bare, and the little fish die, and Raja Moyang Kaban, the King of the Elephants, his legs are made muddy. When you come back and sit in Pusat Tasek, the waters of the Sea rise, and half the little islands are drowned, and the Mans house is flooded, and Raja Abdullah, the King of the Crocodiles, his mouth is filled with the salt water.Which group of sentences from the excerpt best demonstrates the author's reason for writing?And the Eldest Magician said, How wise are little children who see and are silent! What was the beast like? And the little girl-daughter said, He was round and he was flat; and his eyes grew upon stalks; and he walked sideways like this; and he was covered with strong armour upon his back. And the Eldest Magician said, How wise are little children who speak truth! Now I know where Pau Amma went. Give me the paddle!"So he took the paddle; but there was no need to paddle, for the water flowed steadily past all the islands till they came to the place called Pusat Tasekthe Heart of the Seawhere the great hollow is that leads down to the heart of the world, and in that hollow grows the Wonderful Tree, Pauh Janggi, that bears the magic twin nuts. Then the Eldest Magician slid his arm up to the shoulder through the deep warm water, and under the roots of the Wonderful Tree he touched the broad back of Pau Amma the Crab.And Pau Amma, deep down below, answered, Once a day and once a night I go out to look for my food. Once a day and once a night I return. Leave me alone."Then the Eldest Magician said, Listen, Pau Amma. When you go out from your cave the waters of the Sea pour down into Pusat Tasek, and all the beaches of all the islands are left bare, and the little fish die, and Raja Moyang Kaban, the King of the Elephants, his legs are made muddy. When you come back and sit in Pusat Tasek, the waters of the Sea rise, and half the little islands are drowned, and the Mans house is flooded, and Raja Abdullah, the King of the Crocodiles, his mouth is filled with the salt water.Which group of words from the passage appeal to sight? The nurse recognize what as an early sign of sepsis in a client with a burn injury?Elevated serum glucose How to measure the mean absolute error on "Arduino" ? Can youwrite some code for example. Par Putters Company sells golf balls for $34 per dozen. The store's overhead expenses are 43% of cost and the owners require a profit of 15% of cost. (a) For how much does Par Putters Company buy one dozen golf balls? (b) What is the price needed to cover all of the costs and expenses? (c) What is the highest rate of markdown at which the store will still break even? (d) What is the highest rate of discount that can be advertised without incurring an absolute loss? Find the exact value of each x[0,2) for which sin(2x)= 3cos(x) Findf.f(t)=6cos(t)+sec2(t),/2 10.28 - Rotational Kinetic Energy: Work and Energy Revisited A ball with an initial velocity of 8.40 m/s rolls up a hill without slipping. Treating the ball as a spherical shell, calculate the vertical height it reaches. Tries 0/10 Repeat the calculation for the same ball if it slides up the hill without rolling. Tries 0/10 Find the extremum of f(x,y) subject to the given constraint, and state whether it is a maximum or a minimum. f(x,y)=3x^2 + 3y^2 - 3xy, x+y=2 There is a _______ value of _____ located at (x, y)= ________(Simplitf your answers.)