Let f ( x ) = 1 x − 5 f ( x ) = 1 x - 5 and g ( x ) = 5 x + 9 g ( x ) = 5 x + 9 . Then ( f ∘ g ) ( 0 ) = ( f ∘ g ) ( 0 ) = , ( f ∘ g ) ( x ) = ( f ∘ g ) ( x ) = .

Answers

Answer 1

(f ∘ g)(x) = 1/(5x+4). To find (f ∘ g)(0), we need to first evaluate g(0) which is equal to 9. Then we plug this value into f(x) and get f(g(0)) = f(9) = 1/(9-5) = 1/4. Therefore, (f ∘ g)(0) = 1/4.

To find (f ∘ g)(x), we substitute g(x) into f(x) to get f(g(x)) = 1/(5x+9-5) = 1/(5x+4). Therefore, (f ∘ g)(x) = 1/(5x+4).

Step 1: Find (f ∘ g)(x) by plugging g(x) into f(x) as the input.
(f ∘ g)(x) = f(g(x))
= f(5x + 9)

Step 2: Replace the input x in f(x) with g(x).
= 1 / ((5x + 9) - 5)

Step 3: Simplify the expression.
= 1 / (5x + 4)

So, (f ∘ g)(x) = 1 / (5x + 4).

Step 4: Now, let's find (f ∘ g)(0) by plugging x = 0 into the composition (f ∘ g)(x).
(f ∘ g)(0) = 1 / (5(0) + 4)

Step 5: Simplify the expression.
= 1 / 4

Therefore, (f ∘ g)(0) = 1/4.

In summary:
(f ∘ g)(0) = 1/4
(f ∘ g)(x) = 1 / (5x + 4)

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Related Questions

We cannot apply the characteristic polynomial and the quadratic formula to solve the second-order linear homogeneous ODE d2y/dt2+(7t3+cost)dy/dt+3ty=0, since it does not have constant coefficients.
a. true b. false

Answers

The method of variation of parameters or the method of undetermined coefficients to find the solution.

a. True

The method of solving a second-order linear homogeneous ODE using the characteristic polynomial and the quadratic formula applies only to equations with constant coefficients. The general form of such an equation is:

a(d^2y/dt^2) + b(dy/dt) + cy = 0

where a, b, and c are constants.

However, the given ODE has a non-constant coefficient in the term (7t^3+cost)dy/dt. Therefore, we cannot use the same method to solve it as we use for equations with constant coefficients.

Instead, we need to use other methods like the method of variation of parameters or the method of undetermined coefficients to find the solution to this ODE.

The method of variation of parameters involves assuming that the solution to the ODE can be written as a linear combination of two functions u(t) and v(t), where:

y(t) = u(t)y1(t) + v(t)y2(t)

where y1(t) and y2(t) are two linearly independent solutions to the corresponding homogeneous ODE. The functions u(t) and v(t) are found by substituting this form of the solution into the ODE and solving for the coefficients.

The method of undetermined coefficients involves assuming a particular form of the solution that depends on the form of the non-homogeneous term. For example, if the non-homogeneous term is a polynomial of degree n, then the particular solution can be assumed to be a polynomial of degree n with undetermined coefficients. The coefficients are then determined by substituting the particular solution into the ODE and solving for them.

In summary, the method of solving a second-order linear homogeneous ODE using the characteristic polynomial and the quadratic formula is only applicable to equations with constant coefficients. For ODEs with non-constant coefficients, we need to use other methods like the method of variation of parameters or the method of undetermined coefficients to find the solution.

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If a psychologist observed that four 5-year-old children initiated 2, 4, 6, and 12 incidents of aggression during a play period, the mean number of aggressive incidents for this group of four children was

2
4
6
8

Answers

The mean number of aggressive incidents for this group of four children was 6.

To calculate the mean number of aggressive incidents for this group of four 5-year-old children, follow these steps:

1. Add up the number of incidents for each child: 2 + 4 + 6 + 12
2. Divide the sum by the total number of children (4).

Now let's do the math:

Step 1: 2 + 4 + 6 + 12 = 24
Step 2: 24 ÷ 4 = 6

Therefore, the mean number of aggressive incidents for this group of four children was 6. Your answer is 6.

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Let f(x) = cos(atx). = (a) Evaluate f(1), f'(1), f"(1), f'(1), f(4)(1) and f(5)(1). ) (b) Find the Taylor series expansion at x = 1 of the function f(x).

Answers

(a) By solving we get, f(1) = cos(a), f'(x) = -a sin(atx), f'(1) = -a sin(a)

[tex]f''(x) = -a^2 cos(atx)[/tex], [tex]f''(1) = -a^2 cos(a)[/tex], [tex]f'''(x) = a^3 sin(atx)[/tex], [tex]f'''(1) = a^3 sin(a)[/tex][tex]f''''(x) = a^4 cos(atx)[/tex],  [tex]f''''(1) = a^4 cos(a)[/tex]

b. The Taylor series expansion of f(x) at x=1 is:

[tex]f(x) = cos(a) - a sin(a) (x-1) - (a^2/2) cos(a) (x-1)^2 + (a^3/6) sin(a) (x-1)^3 + (a^4/24) cos(a) (x-1)^4 - ....[/tex]

A Taylor series expansion is a mathematical tool used to represent a function as an infinite sum of its derivatives evaluated at a single point. The general formula for a Taylor series expansion of a function f(x) at the point x=a is given by:

f(x) = f(a) + f'(a)(x-a) + f''(a)(x-a)^2/2! + f'''(a)(x-a)^3/3! + ...

(a) We have:

f(x) = cos(atx)

So,

f(1) = cos(a)

f'(x) = -a sin(atx)

f'(1) = -a sin(a)

[tex]f''(x) = -a^2 cos(atx)[/tex]

[tex]f''(1) = -a^2 cos(a)[/tex]

[tex]f'''(x) = a^3 sin(atx)[/tex]

[tex]f'''(1) = a^3 sin(a)[/tex]

[tex]f''''(x) = a^4 cos(atx)[/tex]

[tex]f''''(1) = a^4 cos(a)[/tex]

(b)

To find the Taylor series expansion of f(x) at x=1, we need to find its derivatives at x=1:

f(x) = cos(atx)

f(1) = cos(a)

f'(x) = -a sin(atx)

f'(1) = -a sin(a)

[tex]f''(x) = -a^2 cos(atx)[/tex]

[tex]f''(1) = -a^2 cos(a)[/tex]

[tex]f'''(x) = a^3 sin(atx)[/tex]

[tex]f'''(1) = a^3 sin(a)[/tex]

[tex]f''''(x) = a^4 cos(atx)[/tex]

[tex]f''''(1) = a^4 cos(a)[/tex]

Then, the Taylor series expansion of f(x) at x=1 is:

[tex]f(x) = f(1) + f'(1)(x-1) + f''(1)(x-1)^2/2! + f'''(1)(x-1)^3/3! + f''''(1)(x-1)^4/4! + ...[/tex]

[tex]f(x) = cos(a) - a sin(a) (x-1) - (a^2/2) cos(a) (x-1)^2 + (a^3/6) sin(a) (x-1)^3 + (a^4/24) cos(a) (x-1)^4 - ...[/tex]

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#ofSTDEVs is often called a "___-_______"; we can use the symbol z.

Answers

#ofSTDEVs is often called a "Z-score"; we can use the symbol z, which can be used to calculate the confidence intervals in a data.

A z-score in statistics is the number of standard deviations a data point deviates from the population mean. The difference between a data point and the mean, divided by the standard deviation, is used to generate the z-score.  

#ofSTDEVs=(value−mean)/standard deviation

It is frequently applied when determining confidence intervals and evaluating hypotheses. A data point's z-score, for instance, is 1 if it deviates from the mean by one standard deviation. Its z-score is 2 if it deviates from the mean by two standard deviations.

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Xn and Y1, Y21 Yn are independent random samples from populations with means uy and uy and variances 012 and oz?, respectively. Then I - Ỹ is a consistent .. Suppose that X1, X2, estimator of u1 - 42 Suppose that the populations are normally distributed with on? = 2 02 = 02. Then 01 n n Σας- - Σν- Ź (X; - 82 + (Y; - 52 i = 1 i = 1 2n - 2 is a consistent estimator of o2. Is the estimator of o? an MVUE of o?? 2 n Note that the estimator can be written as ôz = Sy? + Sy? where Sy 2 2 = (X; - 7) and Sy? Σ (Y; - 7. Since both these estimators are the MVUE for -1 2 1 = 1 i = 1 o? and E(62) = = ô 2 is the MVUE for o?.

Answers

The given scenario involves the use of consistent estimators and the concept of MVUE.

The given scenario involves independent samples from two populations, Xn and Y1, Y2...Yn, with means uy and uy and variances 012 and oz2, respectively. The estimator of u1 - u2 is I - Ỹ, which is a consistent estimator.

Further, the estimator of o2 is Σ(Xi - u1)2 + Σ(Yi - u2)2 / 2n-2. It is consistent, but it is not an MVUE of o2.

However, the estimator of o2 can be written as ô2 = Sy1 + Sy2, where Sy1 = Σ(Xi - u1)2 / n-1 and Sy2 = Σ(Yi - u2)2 / n-1. Both these estimators are the MVUE for o2.

It is important to note that the populations are normally distributed with variances 02 = 02. Overall, the given scenario involves the use of consistent estimators and the concept of MVUE (Minimum Variance Unbiased Estimator).

Based on your question, you're asking if the given estimator of σ² is a Minimum Variance Unbiased Estimator of σ².


Given that Xn and Yn are independent random samples from populations with means μx and μy and variances σx² and σy², respectively.

You have an estimator of the form: ô² = Sx² + Sy²
where Sx² = Σ (Xi - μx)² / (n - 1) and Sy² = Σ (Yi - μy)² / (n - 1).

The properties required for an MVUE are unbiasedness and minimum variance among all unbiased estimators.
Since both Sx² and Sy² are unbiased estimators of their respective variances (σx² and σy²), the sum ô² is also an unbiased estimator of σ² = σx² + σy².

To check if it has minimum variance, we need to consider the efficiency of the estimator. In this case, since the samples are independent and we have a linear combination of unbiased estimators, the estimator ô² is indeed an MVUE of σ².

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Find the general indefinite integral: S(csc²t - 2e^t)dt

Answers

The general indefinite integral of S(csc²t - 2[tex]e^t[/tex])dt is 1/sin(t) - 2[tex]e^t[/tex] + C

First, let's recall some basic rules of integration. The integral of a sum of functions is the sum of their integrals, and the integral of a constant times a function is the constant times the integral of the function. We also have some basic integration formulas, such as the integral of sin(t)dt = -cos(t) + C and the integral of [tex]e^t[/tex] dt = [tex]e^t[/tex] + C, where C is the constant of integration.

Now, let's consider the first term of the integrand, csc²t. This function can be rewritten using trigonometric identities as 1/sin²t. To integrate this function, we can use the substitution u = sin(t), du/dt = cos(t) dt, and rewrite the integral as ∫-1/u² du. Using the power rule of integration, we get ∫-1/u² du = 1/u + C = 1/sin(t) + C.

Next, let's consider the second term of the integrand, -2[tex]e^t[/tex]. This function is already in the form of the integral of [tex]e^t[/tex] dt, but with a constant factor of -2. Using the constant multiple rule of integration, we get -2 ∫[tex]e^t[/tex] dt = -2[tex]e^t[/tex] + C.

Putting these two results together using the sum rule of integration, we get the general indefinite integral of S(csc²t - 2e^t)dt:

∫S(csc²t - 2[tex]e^t[/tex])dt = ∫S(csc²t)dt - ∫2(S [tex]e^t[/tex])dt = 1/sin(t) - 2[tex]e^t[/tex] + C

where C is the constant of integration.

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For the following quadratic equation, find the discriminant. -x^2 - 14 = 8x + 2

Answers

To find the discriminant of the given quadratic equation, we need to first write it in standard form, which is:

ax^2 + bx + c = 0

Rearranging the given equation, we get:

-x^2 - 8x + 12 = 0

Comparing this with the standard form, we see that:

a = -1, b = -8, c = 12

Now, we can use the formula for the discriminant, which is:

b^2 - 4ac

Substituting the values of a, b, and c, we get:

(-8)^2 - 4(-1)(12)

64 + 48

112

Therefore, the discriminant of the given quadratic equation is 112.

Which of the following is the graph of y=-(x+1)^2-3?

Answers

The graph the represents the function is graph 3.

What is a graph?

A graph is a visual representation of data that conveys information about the relationships between variables in mathematics and statistics. It consists of a set of points, lines, curves, and other geometric structures. Graphs are frequently used to demonstrate patterns and trends in the data as well as to provide numerical data in a more intelligible and accessible format.

There are many different kinds of graphs, including pie charts, histograms, scatter plots, bar graphs, and line graphs. Different sorts of data are represented by several types of graphs, each of which has its own special characteristics.

For the given function y=-(x+1)² - 3 we observe that the parabola has negative values.

Also the x intercept us at the point:

y = - (0 + 1)² - 3

y = -1 - 3 = -4

Now for x = -1 we have:

y = - (-1 + 1)² - 3

y = - 0 - 3 = -3

The graph that satisfies this condition is the third graph.

Hence, the graph the represents the function is graph 3.

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Susie wants to save for a trip to Disneyland with her friends. She has $45.00 in her piggy bank. She estimates she needs $250 to pay for the ticket, parking, and have money left over for food and gifts.

If she saves 25.00 per month she will be able to go in Answer
months.

Answers

Hence, she will be able to  go to Disneyland in 9 months if she saves $25 per month.

What is the save money?

Savings is the amount of money left over after spending and other obligations are deducted from earnings. Savings represent money that is otherwise idle and not being put at risk with investments or spent on consumption. Savings accounts are very safe but tend to offer very low rates of return as a result. Saving is the portion of income not spent on current expenditures. In other words, it is the money set aside for future use and not spent immediately.

How to calculate save money?

Subtract  your  spending from your  income to figure how much you are saving, then divide this number by your income. 

Susie needs to save money in her piggy bank,

So, $250 - $45 = $205  more to reach  her goal.

If she saves  $25  per month, the number of months she needs to reach her goal can be found by dividing the amount she needs to save by the  amount she saves per month:

$205 ÷ $25 per month = 8.2 months ≅  9 months.

Since she can't save a fraction of a month, we can  round up to the nearest whole number, which means that Susie will need to save for 9 months to reach her goal.

Therefore, she will be able to  go to Disneyland in 9 months if she saves $25 per month.

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4. Consider the density function (10 points) f(y) ={k/x^2 1

Answers

The value of k is 2 and the cumulative distribution function F(v) is given by F(v) = 1 - √(2/v).

To evaluate k, we need to use the fact that the total area under the density function must be equal to 1.

∫ f(y) dy = 1

Integrating the function over the given interval, we get:

∫ k/x^2 dy = ∫ kx^-2 dy from x=1 to x=2

= -kx^-1 from x=1 to x=2

= -k(1/2 - 1)

= k/2

So,

∫ f(y) dy = ∫ k/x^2 dy from x=1 to x=2 + ∫ 0 dy from y=2 to y=4

= k/2 + 0

= 1

Thus,

k/2 = 1

k = 2

So, the value of k is 2.

To find F(v), the cumulative distribution function, we need to integrate the density function over the interval (-∞,v]. Since the density function is zero for y less than or equal to zero, we have:

F(v) = ∫ f(y) dy from y = 0 to y = v

= ∫2/x^2 dy from x = √(2/v) to x = 2

= -2/x from x = √(2/v) to x = 2

= -2/2 + 2/√(2/v)

= 1 - √(2/v)

Thus, the cumulative distribution function F(v) is given by F(v) = 1 - √(2/v).

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The complete question is:
Consider the density function (10 points) f(y) ={k/x^2 < y < 4 0

d. Evaluate k.

e. Find F(v)

A beauty supply store expects to sell 110 flat irons during the next year. It costs $1.20 to store one flat iron for one year. There is a fixed cost of $16.50 for each order. Find the lot size and the number of orders per year that will minimize inventory costs

Answers

The lot size that will minimize inventory costs is 55 flat irons, and the number of orders per year would be 2.

To find the lot size and the number of orders per year that will minimize inventory costs, we need to consider the economic order quantity (EOQ) model.

The EOQ formula calculates the optimal order quantity that minimizes the total inventory costs.

EOQ = √((2× D× S) / H)

Where:

D = Annual demand (110 flat irons in this case)

S = Cost per order ($16.50 in this case)

H = Holding cost per unit per year ($1.20 in this case)

Let's calculate the EOQ and the number of orders per year:

Plug in the values in above formula:

EOQ = √((2×110 × 16.50) / 1.20)

EOQ = √(3630 / 1.20)

EOQ = 55

Now let us find the number of orders per year:

Number of orders = Annual demand / EOQ

Number of orders = 110 / 55

Number of orders = 2

Hence, the lot size that will minimize inventory costs is approximately 55 flat irons, and the number of orders per year would be 2.

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what frequency distribution graph is appropriate for scores measured on a nominal scale? (15) only a histogram only a polygon either a histogram or a polygon only a bar graph

Answers

The appropriate frequency distribution graph for scores measured on a nominal scale is only a bar graph.

A bar graph is the representation of numerical data by rectangles (or bars) of equal width and varying height. The gap between one bar and another should be uniform throughout. It can be either horizontal or vertical. The height or length of each bar relates directly to its value.

To answer your question, the appropriate frequency distribution graph for scores measured on a nominal scale is only a bar graph.

A nominal scale is a scale that uses categories instead of numbers.

A bar graph is ideal for displaying the frequencies of these categorical variables, as it separates each category by using individual bars.

Histograms and polygons are more suitable for continuous or interval data, which do not apply to nominal scales.

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E3 Let f (x) = e-* sin 2x and let f' and f" denote the first and second order derivatives of f. Prove the following holds good: f" (x) +2f'(x) +2f (x) = 0. E4 Let f (x) = -22 (1 + r) and let f' and f"

Answers

The first and second derivatives of f(r) with respect to r. In this case, f'(r) = -22 and f"(r) = 0.

First, let's talk about what a derivative is. A derivative is a mathematical concept used to describe the rate at which a function changes. It tells us how quickly a function is changing at any given point. Now, let's move on to the given functions.

The first function is f(x) = e⁻ˣsin(2x). We're asked to prove that f"(x) + 2f'(x) + 2f(x) = 0.

To do this, we need to take the first and second derivatives of f(x). We'll start with the first derivative, or f'(x).

f'(x) = -e⁻ˣsin(2x) + 2e⁻ˣcos(2x)

Now, let's take the second derivative, or f"(x).

f"(x) = 2e⁻ˣsin(2x) - 4e⁻ˣcos(2x) - 2e⁻ˣcos(2x)

Now, we can plug these values back into the original equation:

f"(x) + 2f'(x) + 2f(x) = [2e⁻ˣsin(2x) - 4e⁻ˣcos(2x) - 2e⁻ˣcos(2x)] + 2[-e⁻ˣsin(2x) + 2e⁻ˣcos(2x)] + 2[e⁻ˣsin(2x)]

If we simplify this expression, we end up with:

f"(x) + 2f'(x) + 2f(x) = 0

Now, let's move on to the second function: f(x) = -22(1 + r). We're asked to find f'(x) and f"(x).

Well, there's a bit of a problem here. The function f(x) doesn't actually involve x at all - it only involves r. So it doesn't make sense to talk about its first or second derivative with respect to x.

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The magician' hoped to
the audience.
Which of these words would indicate that the
magician wanted to confuse the audience?
F amuse
€ mystify
H astonish
J distress

Answers

Answer:

c mystify

Step-by-step explanation:

mystify means

utterly bewilder or perplex (someone).

"maladies that have mystified and alarmed researchers for over a decade"

NEED help on questions 1-11 please!

Answers

Answer and Explanation:

The circumference of a circle is defined as:

[tex]C = 2\pi r[/tex]

If we use 3.14 for π, then the formula becomes:

[tex]C = 2(3.14)r[/tex]

[tex]C = 6.28r[/tex]

1

A regular polygon with 40 sides that is the same size as a circle will have a perimeter closer to the circumference of the circle than a polygon with 20 sides.

We can think of a circle as having infinite tiny sides, so the more sides a regular polygon has, the closer its circumference gets to a circle.

2

We can plug the given radius ([tex]r[/tex]) value into the above formula.

[tex]C = 6.28(9 \text{ cm})[/tex]

[tex]C \approx \boxed{56.6 \text{ cm}}[/tex]

3

It's the same process as for problem 2.

[tex]C = 6.28(9 \text{ in})[/tex]

[tex]C \approx \boxed{150.7 \text{ in}}[/tex]

4

This time, we can take the original formula:  [tex]C = 2(3.14)r[/tex]  and notice that [tex]2r = d[/tex], so we can substitute the given diameter ([tex]d[/tex]) value for [tex]2r[/tex] in that formula.

[tex]C = 3.14d[/tex]

[tex]C = 3.14(14.22 \text{ mm})[/tex]

[tex]C \approx \boxed{44.7 \text{ mm}}[/tex]

5

This problem is the same as problems 1 and 2, but it's in word problem format. We can keep plugging into the circumference formula.

[tex]C = 6.28(9 \text{ in})[/tex]

[tex]C \approx \boxed{56.5 \text{ in}}[/tex]

6 and 7

These are equivalent to problem 4, but in word problem format. Keep plugging into the formula [tex]C = 3.14d[/tex].

__________

The area of a circle is defined as:

[tex]A = \pi r^2[/tex]

But we can plug in 3.14 for π:

[tex]A = 3.14r^2[/tex]

__________

8

We can plug the given radius value into the above area formula.

[tex]A = 3.14(7 \text{ yd})[/tex]

[tex]A \approx \boxed{21.98 \text{ yd}}[/tex]

9, 10, and 11

These are the same type of problem as 8, but since we are given the diameter ([tex]d[/tex]), we have to divide it by 2 to plug it in for the radius ([tex]r[/tex]).

[tex]r = \dfrac{d}{2}[/tex]

answer all or do not reply at allProblem 2. Simplify the following so that we don't have a composition of two functions. 1. sin(arccos(x/3))2. tan(arcsec( x/x+1)) 3. cos(2 arcsin(x)) (Use a half-angle formula first.) 4. sinh(cosh^-1(x)) (Recall from class. Use the hyperbolic identity cosh^2(t) - sinh^2(t) =1, and let t=cosh^-1(x) .)5. cosh(2 sinh^-1(x)) (Recall from class. First use a half hyperbolic-angle formula.)

Answers

The composition function are solved by using half angle and identities  sin(arccos(x/3) is simplified √9-x²/3,

tan(arcsec( x/x+1)) = √-2x-1/x+1

cos(2arcsin(x)) = 1 - 2sin²(arcsin(x))

sinh(cosh⁻¹(x)): = √x² - 1.

cosh(2sinh⁻¹(x)) = (x² + 1).

1. sin(arccos(x/3) = √9-x²/3

Because sin(arccosx) =√1-x²

2. tan(arcsec( x/x+1))

we have  tan(arcsecx)=√x²-1

So tan(arcsec( x/x+1)) = √(x/x+1)²-1

tan(arcsec( x/x+1)) = √-2x-1/x+1

3. cos(2arcsin(x)):

Using the half-angle formula cos(2θ) = 1 - 2sin²(θ),

we can find that cos(2arcsin(x)) = 1 - 2sin²(arcsin(x))

cos(2arcsin(x))= 1 - 2x².

4. sinh(cosh⁻¹(x)):

Let t = cosh⁻¹(x),

so cosh(t) = x.

Using the identity cosh²(t) - sinh²(t) = 1,

we can solve for sinh(t) =√x² - 1).

Therefore, sinh(cosh⁻¹(x)): = √x² - 1.

5. cosh(2sinh⁻¹(x)):

Using the identity cosh²(t) - sinh²(t) = 1,

Therefore, cosh(2sinh⁻¹(x)) = (x² + 1).

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A local men's clothing store is being sold. The buyers are trying to estimate the percentage of items that are outdated. They will choose a random sample from the 100,000 items in the store's inventory in order to determine the proportion of merchandise that is outdated. The current owners have never determined the percentage of outdated merchandise and cannot help the buyers. How large a sample do the buyers need in order to be 90% confident that the margin of error of their estimate is about 2%?

Answers

The buyers would need a sample size of 1069 items from the inventory in order to be 90% confident that their estimate of the percentage of outdated items has a margin of error of about 2%.

In order for the buyers to estimate the percentage of outdated items with a margin of error of 2%, they need to determine the proportion of outdated items in a random sample from the inventory. To be 90% confident in their estimate, they need to calculate the sample size required.
The formula for sample size is:
n = [tex](z^2 * p * q) / (e^2)[/tex]
Where:
n = sample size
z = z-score (from a standard normal distribution table for the desired confidence level of 90%, which is approximately 1.645)
p = proportion of outdated items (unknown)
q = proportion of non-outdated items (1 - p)
e = margin of error (0.02)
Since the proportion of outdated items is unknown, the buyers must use a conservative estimate for p. For example, they could assume that 50% of the items are outdated, which would give the largest possible sample size.
Plugging in the values:
n = [tex](1.645^2 * 0.5 * 0.5) / (0.02^2)[/tex]
n = 1068.73
Rounding up to the nearest whole number, the buyers would need a sample size of 1069 items from the inventory in order to be 90% confident that their estimate of the percentage of outdated items has a margin of error of about 2%.

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if a gross income is $87,425 social security is 6.2% and medicae is 1.45% what is social security due

Answers

Answer:

  $5420.35

Step-by-step explanation:

You want to find 6.2% of $87,425.

Percentage

The wording "6.2% of $87,425" means ...

  0.062 × $87,425

That value is nicely computed using any calculator:

   0.062 × $87,425 = $5,420.35

The Social Security tax due is $5420.35.

__

Additional comments

The percent sign (%) effectively moves the decimal point 2 places. It is fully equivalent to /100.

  6.2% = 6.2/100

Written as a decimal, this is ...

  6.2/100 = 62/1000 = 0.062 . . . . . "sixty-two thousandths"

Generally, in a verbal description of a math expression, "of" means "times".

The units of dollars, represented by a dollar sign ($), can be treated as though $ were a variable. It remains a part of the product the way "x" would if this were 0.062·87425x = 5420.35x.

Simplify & box-in all final answers. Ex. y = csc(x^2+x+1) u = x^2 + x +1, du/dx = 2x +1, y = Csc u, dy/du = -csc u cot u, dy/dx = dy/du du/dx (- csc u cot u) (2x + 1) dy/dx = -(2x + 1) csc(x^2 + x + 1) cot(x^2 + x + 1. y = sin(3√x) 2. y = tan^-1(1√x) 3. y = cos^3 x 4. y = csc ^-1(e^x) 5. y = e^sin-1x = exp(sin^-1 x) 6. y = sec^-1 (log x) 7. y = ln(cot x) 8. y = exp(x^2 +1) 9. y = ln(1 + e^x) 10. y = cot^-1(xe^x)

Answers

The derivative of a function of a real variable measures the sensitivity to change of the function value with respect to a change in its argument.

1. y = sin(3√x)

dy/dx = (3/2√x)cos(3√x) (Chain rule)

Final answer: dy/dx = (3cos(3√x))/(2√x)

2. y = tan^-1(1√x)

dy/dx = 1/(1+(1/x))(1/2x^(-1/2))

Final answer: dy/dx = 1/(2x(1+x))

3. y = cos^3 x

dy/dx = -3cos^2(x)sin(x) (Chain rule and Power rule)

Final answer: dy/dx = -3cos^2(x)sin(x)

4. y = csc ^-1(e^x)

dy/dx = -(1/(|x|√(e^(2x)-1)))e^x (Chain rule and inverse trigonometric derivative)

Final answer: dy/dx = -(e^x)/(|x|√(e^(2x)-1))

5. y = e^sin^-1x = exp(sin^-1 x)

dy/dx = (1/√(1-x^2))e^sin^-1x (Chain rule and inverse trigonometric derivative)

Final answer: dy/dx = (e^sin^-1x)/(√(1-x^2))

6. y = sec^-1 (log x)

dy/dx = (1/|x|)(1/(√(log^2x-1))) (Chain rule and inverse trigonometric derivative)

Final answer: dy/dx = (1/|x|)(1/(√(log^2x-1)))

7. y = ln(cot x)

dy/dx = -csc(x) (Chain rule and derivative of cotangent)

Final answer: dy/dx = -csc(x)

8. y = exp(x^2 +1)

dy/dx = 2xe^(x^2+1) (Chain rule and Power rule)

Final answer: dy/dx = 2xe^(x^2+1)

9. y = ln(1 + e^x)

dy/dx = (1/(1+e^x))e^x (Chain rule)

Final answer: dy/dx = (e^x)/(1+e^x)

10. y = cot^-1(xe^x)

dy/dx = -(1/(1+(xe^x)^2)))e^x + (1/(1+(xe^x)^2)))xe^x (Chain rule and inverse trigonometric derivative)

Final answer: dy/dx = [xe^x - e^x]/(x^2e^(2x)+1)

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(1 point) A poll is taken in which 360 out of 500 randomly selected voters indicated their preference for a certain candidate. Find a 99% confidence interval for p to Note: You can earn partial credit on this problem.

Answers

The 99% confidence interval for the population proportion is (0.671, 0.769), using a z-score distribution table.

To find the 99% confidence interval for the population proportion, we can use the following formula:

CI = p ± z x√(p'(1-p')/n)

where CI is the confidence interval, p is the population proportion, p' is the sample proportion, n is the sample size, and z is the z-score associated with the desired confidence level.

In this case, we have p' = 360/500 = 0.72 and n = 500. To find the z-score, we can use a standard normal distribution table or calculator. For a 99% confidence level, the z-score is approximately 2.576.

Substituting these values into the formula, we get:

CI = 0.72 ± 2.576 x √(0.72(1-0.72)/500)

= 0.72 ± 0.049

Therefore, the 99% confidence interval for the population proportion is (0.671, 0.769).

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(3) (4 marks) In questions 3a-3b, use the given information to find the function or its values at the given point (i.e., solve the Initial Value Problem). (a) f' (x) = x^3 - 1/x^5, f (√2/2) = 0, find f (x)(b) f'' (x)= - 2x/(1+x^2) + sin(x), f' (0) = 2 and f(0) = -1, find f(x).

Answers

Solving the initial value problems, the function is f(x) = (x⁴ + x⁻⁴) / 4 + 17/16.

We have the initial value problem,

f'(x) = x³ - 1/x⁵

Let f(x) = y, then f'(x) = dy/dx.

dy/dx = x³ - 1/x⁵

dy = (x³ - 1/x⁵) dx

Integrating both sides,

∫dy = ∫(x³ - x⁻⁵) dx

y = [(x⁴/4) - (x⁻⁴/-4)] + C

y = (x⁴ + x⁻⁴) / 4 + C

We have y = 0 when x = √2/2 = 1/√2

((1/√2)⁴ + (1/√2)⁻⁴) / 4 + C = 0

Solving, C = 17/16

So the function is, f(x) = (x⁴ + x⁻⁴) / 4 + 17/16

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The following equation uses the waist measurement of a woman (x) and her body fat percentage by: y = 1.86 +0.45x. The correlation coefficient is r = 0.966, and the average body fat percentage was 15.17%. What body fat percentage would you expect women to have on average when their waist size was 30.5 inches? 15.17% 13.28% None of these 1.86% 16 28% 0 15.59%

Answers

We would expect women with a waist measurement of 30.5 inches to have an average body fat percentage of 15.58% based on the correlation coefficient.

Using the equation y = 1.86 + 0.45x, where x is the waist measurement and y is the body fat percentage, and plugging in 30.5 inches for x, we get, based on correlation coefficient.

To evaluate the degree of relationships between data variables, correlation coefficients are utilised.

The most popular gauges the strength and direction of a linear link between two variables, known as a Pearson correlation coefficient.

Values usually fall between -1 and 1, with 1 denoting a perfectly positive correlation and -1 denoting a perfectly inverse relationship. Values at or near 0 suggest an extremely weak correlation or the absence of a linear relationship.

Depending on the application, different coefficient values are needed to convey a meaningful association. Assuming a normal population distribution, the correlation coefficient and sample size can be used to determine the statistical significance of a correlation.

y = 1.86 + 0.45(30.5)
y = 1.86 + 13.72
y = 15.58%

Therefore, we would expect women with a waist measurement of 30.5 inches to have an average body fat percentage of 15.58%.

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Find the first four nonzero terms of the Taylor series for the function 24 about 0. NOTE: Enter only the first four non-zero terms of the Taylor series in the answer field. Coefficients must be exact.

Answers

The first four non-zero terms of the Taylor series for the function 24 about 0 are 24 + 0x + 0x^2 + 0x^3.

To find the Taylor series for the function f(x) = 24 about 0, we need to calculate its derivatives up to the fourth order at x = 0.

f(x) = 24
f'(x) = 0
f''(x) = 0
f'''(x) = 0
f''''(x) = 0

Since all the derivatives are zero, the Taylor series for f(x) at x = 0 is:

f(x) = f(0) = 24

So, the first four non-zero terms of the Taylor series for the function 24 about 0 are:

24 + 0x + 0x^2 + 0x^3

Note that all the coefficients of the higher-order terms are zero, as all the derivatives of the function are zero.

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What is the decimal value of 1101(base 2)?

Answers

The decimal value of 1101 (base 2) is 13.

To find the decimal value, follow these steps:

1. Identify the place values of each digit. In this case, from right to left, the place values are 2^0, 2^1, 2^2, and 2^3.

2. Multiply each digit by its corresponding place value.

1 * 2^3 = 1 * 8 = 8

1 * 2^2 = 1 * 4 = 4

0 * 2^1 = 0 * 2 = 0

1 * 2^0 = 1 * 1 = 1

3. Add the results of the previous step together: 8 + 4 + 0 + 1 = 13.

So, the decimal value is 13.

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Find the general indefinite integral: S(y³ + 1.8y² - 2.4y)dy

Answers

The solution of general indefinite integral is (1/4)y⁴ + (0.6)y³ - (1.2)y² + C

To find the general indefinite integral of this expression, we first need to apply the power rule of integration.

The power rule states that the integral of xⁿ dx equals xⁿ⁺¹/(n+1) + C, where C is the constant of integration. In this case, we can apply the power rule to each term in the expression:

∫ y³ dy = y³⁺¹/(3+1) + C = (1/4)y⁴ + C

∫ 1.8y² dy = 1.8y²⁺¹/(2+1) + C = (0.6)y³ + C

∫ -2.4y dy = -2.4y¹⁺¹/(1+1) + C = (-1.2)y² + C

Notice that we add a constant of integration "C" to each term, as the derivative of a constant is always zero. Therefore, the most general antiderivative of the expression S(y³ + 1.8y² - 2.4y)dy is:

∫ (y³ + 1.8y² - 2.4y)dy = (1/4)y⁴ + (0.6)y³ - (1.2)y² + C

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One example of a difference between discrete random variables and continuous random variables is that in a discrete distribution P(x>2) while in a continuous distribution P(x>2) is treated the same s P(x>-2)

Answers

In a continuous distribution of random variables, P(x>2) is treated the same as P(x>-2) because both represent areas under the probability density function, rather than specific values of the variable.

The main difference between discrete random variables and continuous random variables is that discrete random variables can only take on specific values, while continuous random variables can take on any value within a range.

This leads to differences in how probabilities are calculated for different values of the variable. In a discrete distribution, the probability of an event such as P(x>2) can be calculated directly by adding up the probabilities of all possible values of x that are greater than 2.

However, in a continuous distribution, the probability of an event such as P(x>2) must be calculated using integration, because the variable can take on an infinite number of values within the range.

Additionally, because continuous random variables can take on any value within a range, probabilities for specific values are typically very small and are often expressed as the probability density function.

Therefore, in a continuous distribution, P(x>2) is treated the same as P(x>-2) because both represent areas under the probability density function, rather than specific values of the variable.

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A running track has two semi-circular ends with radius 31m and two straights of length 92.7m as shown.
Calculate the total area of the track rounded to 1 DP.

Answers

Answer:

Step-by-step explanation:

To find the total area of the track, we need to calculate the area of each section and then add them together.

Area of a semi-circle with radius 31m:

A = (1/2)πr^2

A = (1/2)π(31m)^2

A = 4795.4m^2

Area of a rectangle with length 92.7m and width 31m (the straight parts):

A = lw

A = (92.7m)(31m)

A = 2873.7m^2

To find the total area, we need to add the areas of the two semi-circular ends and the two straight sections:

Total area = 2(Area of semi-circle) + 2(Area of rectangle)

Total area = 2(4795.4m^2) + 2(2873.7m^2)

Total area = 19181.6m^2

Rounding this to 1 decimal place, we get:

Total area ≈ 19181.6 m^2

Therefore, the total area of the track is approximately 19181.6 square meters.



The number of golf balls ordered by customers of a pro shop has the following probability distribution.

x P(x)
3 0.14
6 0.29
9 0.86
12 0.11
15 0.10

Find the mean of the probability distribution.

Answers

The mean of the probability distribution for the number of golf balls ordered by customers of a pro shop is 12.72.

The mean of a probability distribution is calculated using the formula:

Mean (µ) = Σ [x * P(x)]

Where "x" represents the number of golf balls and "P(x)" represents the probability of that specific number of golf balls being ordered.

Using the given probability distribution, we can calculate the mean as follows:

µ = (3 * 0.14) + (6 * 0.29) + (9 * 0.86) + (12 * 0.11) + (15 * 0.10)

µ = 0.42 + 1.74 + 7.74 + 1.32 + 1.50

µ = 12.72

So, the mean of the probability distribution for the number of golf balls ordered by customers of a pro shop is 12.72.

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Find the mode for the following data set:10 30 10 36 26 22

Answers

In this particular data set, 10 is the only value that occurs more than once, so it is the only mode

The mode is the value that occurs most frequently in a data set. In the given data set {10, 30, 10, 36, 26, 22}, we can see that the value 10 occurs twice, and all other values occur only once. Therefore, the mode of the data set is 10, since it occurs more frequently than any other value in the set.

Note that a data set can have multiple modes if two or more values occur with the same highest frequency. However, in this particular data set, 10 is the only value that occurs more than once, so it is the only mode.

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if ∠6 = 65 °, find the measure of the following angles. State your theorem and show your solutions.

Answers

Answer:

Step-by-step explanation:

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