Need Help ASAP!! 100 points andbranliest plz pleople plz help.

Answer:a) 5 sides

b) 9 sides

Step-by-step explanation:

a) Since the polygon is a regular polygon, all the interior angles are equal. If one exterior angle is 72 degrees, the interior angle would be

180 - 72 = 108 degrees(sum of the angles on a straight line is 180 degrees)

The sum of the interior angles of a polygon is expressed as

180(n - 2)

Where n represents the number of sides that the polygon has. Since the interior angles are equal, then

108n = 180(n - 2)

108n = 180n - 360

180n - 108n = 360

72n = 360

n = 360/72 = 5

b) If one exterior angle is 40 degrees, the interior angle would be

180 - 40 = 140 degrees

Since the interior angles are equal, then

140n = 180(n - 2)

140n = 180n - 360

180n - 140n = 360

40n = 360

n = 360/40 = 9

One way to do this is to recall that for [tex]|x|<1[/tex], we have

[tex]\displaystyle\frac1{1-x}=\sum_{n=0}^\infty x^n[/tex]

so that

[tex]\displaystyle\frac x{10x^2+1}=\frac x{1-(-10x^2)}=x\sum_{n=0}^\infty(-10x^2)^n=\sum_{n=0}^\infty(-10)^nx^{2n+1}[/tex]

(which seems to match the first option) so long as [tex]|-10x^2|=10x^2<1[/tex], or [tex]-\frac1{\sqrt{10}}<x<\frac1{\sqrt{10}}[/tex], which is the interval of convergence.

Answer:

[tex]\displaystyle \frac{L}{r}=\frac{8}{5}[/tex]

Step-by-step explanation:

Circle and Square

We have a geometric construction as shown in the image below. We can see that

[tex]\displaystyle r+h=L[/tex]

Or, equivalently

[tex]\displaystyle h=L-r[/tex]

The triangle formed by r,h and L/2 is right, because the opposite side of the square is tangent to the circle at its midpoint. This means we can use Pythagoras's theorem:

[tex]\displaystyle r^2=h^2+\left(\frac{L}{2}\right)^2[/tex]

Replacing h

[tex]\displaystyle r^2=(L-r)^2+\left(\frac{L}{2}\right)^2[/tex]

Expanding squares

[tex]\displaystyle r^2=L^2-2Lr+r^2+\frac{L^2}{4}[/tex]

Simplifying

[tex]\displaystyle 2Lr=L^2+\frac{L^2}{4}[/tex]

Multiplying by 4

[tex]\displaystyle 8r=4L+L[/tex]

Joining terms

[tex]\displaystyle 8r=5L[/tex]

Solving for the ratio L/R as required

[tex]\displaystyle \frac{L}{r}=\frac{8}{5}[/tex]

The  ratio of the side and the radius is 8:5

Since

r + h = L

So we can write h = L - r

Now we applied the Pythagoras theorem

[tex]r^2 = h^2 +( \frac{L}{2}) ^2\\\\r^2 = (L-r)^2 + ( \frac{L^}{2}) ^2\\\\r^2 = L^2- 2Lr+ r^2 + \frac{L^2}{4}\\\\ 2Lr = L^2 \frac{L^2}{4}\\\\[/tex]

Now

8r = 4L + L

8r = 5L

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Answer:

The capacity is 18 transistors, 43 resistors and 4 computer chips.

Step-by-step explanation:

This problem can be solved by a system of equations.

I am going to say that:

x is the number of transistors that are made.

y is the number of resistors that are made.

z is the number of computer chips that are made.

Building the system:

A transistor requires 1 unit of copper. A resistor requires 2 units of copper. There are 104 units of copper. So [tex]x + 2y = 104[/tex]

A transistor requires 2 units of zinc. A resistor requires 3 units of zinc. A chip requires 1 unit of zing. There are 169 units of zinc. So [tex]2x + 3y + z = 169[/tex].

A transistor requires 3 units of glass. A chip requires 5 units of glass. There are 74 units of glass. So [tex]3x + 5z = 74[/tex]

We have the following system:

[tex]x + 2y = 104[/tex]

[tex]2x + 3y + z = 169[/tex]

[tex]3x + 5z = 74[/tex]

The solution is:

[tex]x = 18, y = 43, z = 4[/tex]

The capacity is 18 transistors, 43 resistors and 4 computer chips.

Answer:

MArginal productivity: [tex]\frac{dt}{dL}=-0.0002[/tex]

We can interpret this as he will reduce his time an additional 0.0002 seconds for every additional yard he trains.

Step-by-step explanation:

The marginal productivy is the instant rate of change in the result for an increase in one unit of a factor.

In this case, the productivity is the time he last in the 100-yard. The factor is the amount of yards he train per week.

The marginal productivity can be expressed as:

[tex]\frac{dt}{dL}[/tex]

where dt is the variation in time and dL is the variation in training yards.

We can not derive the function because it is not defined, but we can approximate with the last two points given:

[tex]\frac{dt}{dL}\approx\frac{\Delta t}{\Delta L} =\frac{t_2-t_1}{L_2-L_1}=\frac{44.6-46.4}{70,000-60,000}=\frac{-2.0}{10,000}=-0.0002[/tex]

Then we can interpret this as he will reduce his time an additional 0.0002 seconds for every additional yard he trains.

This is an approximation that is valid in the interval of 60,000 to  70,000 yards of training.

The marginal productivity of the number of yards Ben practices is 0.00051 seconds per yard.

The marginal productivity of the number of yards Ben practices can be calculated by dividing the change in his performance (measured in seconds) by the change in the number of yards he practices per week.

To find the marginal productivity between 50,000 and 60,000 yards per week, subtract Ben's initial time of 51.5 seconds from his new time of 46.4 seconds. This gives us a change in time of 5.1 seconds. Then divide the change in time by the change in yards, which is 10,000 yards (60,000 - 50,000).

Marginal productivity = Change in time / Change in yards = 5.1 seconds / 10,000 yards = 0.00051 seconds per yard.

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Answer:

Earth's average distance from the Sun is [tex]375[/tex] times more than is from the Moon.

Step-by-step explanation:

Given the average distance of Earth from the Sun is [tex]1.5\times10^{8}[/tex] kilometers.

Also, the approximate distance of Earth from the Moon is [tex]4\times10^{5}[/tex] kilometers.

For this, we will divide the average distance of Earth from the Sun by approximate distance of Earth from the Moon.

So,

[tex]\frac{1.5\times10^{8}}{4\times10^{5}}=375\ km[/tex]

Final answer:

The equation of the slant asymptote is y = 5x + 4. The equation of the slant asymptote for the given function is found by performing polynomial long division and taking the quotient without the remainder.

Explanation:

To find the equation of the slant asymptote for the function y = (5x4 + x2 + x) / (x3 - x2 + 5), we need to divide the numerator by the denominator using polynomial long division or synthetic division. The quotient, without the remainder, will give us the equation of the slant asymptote because as x approaches infinity, the remainder becomes insignificant compared to the terms in the quotient.

Step 1: Perform the division. (This will be specific to the given function.)

Step 2: The quotient (without the remainder) is the equation of the slant asymptote.

To find the equation of the slant asymptote, we need to divide the numerator (5x^4 + x^2 + x) by the denominator (x^3 - x^2 + 5) using long division.

The quotient is 5x + 4, so the equation of the slant asymptote is y = 5x + 4. It is important to note that the slant asymptote represents the behavior of the function as x approaches positive or negative infinity.

Answer:

The answer is option A.

Step-by-step explanation:

If the report is made once a month, the daily variations (including the tendency to decrease efficiency on Friday) will be masked within the monthly result.

It would only generate an ethical problem in the case that Fridays fall in different samples, but in the case of the monthly report there are usually 4 or 5 Fridays included in each sample.

Answer:

[tex]P(X \geq 337,500) = 0.125 = 12.5%[/tex]

Step-by-step explanation:

probability distribution fucntion is given as

[tex] F_x = P(X \leq x)[/tex]

       [tex] = \frac{x -a}{b -a}      a<x< b[/tex]

where a indicate lower end estimate = $250,000

b indicate high end estimate = $350,000

probability greater than $337500

[tex] P(X \geq 337,500) = 1- P(X < 337500)[/tex]

                               [tex] = 1 - \frac{x -a}{b -a}[/tex]

                               [tex] = 1 - \frac{337500 - 250000}{350000 - 250000}[/tex]

[tex]P(X \geq 337,500) = 0.125 = 12.5%[/tex]

Calculate the probability of net income being greater than or equal to $337,500 for Excellence Corporation following a continuous uniform distribution. Probability will be equal to 12.5%.

The probability that net income will be greater than or equal to $337,500 is 0.25. To calculate this probability for a continuous uniform distribution, we need to find the proportion of the area under the distribution curve that corresponds to values greater than $337,500.

Step-by-step calculation:

Calculate the total range of net income: $350,000 - $250,000 = $100,000

Calculate the proportion of the area for values greater than $337,500: ($350,000 - $337,500) / $100,000 = 0.125

Since the distribution is continuous and uniform, the probability is equal to the proportion calculated: 0.125 = 12.5%

Answer:

(C) A Type I error would be incorrectly failing to convict the defendant when he is guilty. A Type II error would be incorrectly convicting the defendant when he is innocent.

Step-by-step explanation:

Type I error is rejecting the true null hypothesis and type II error is not rejecting the false null hypothesis. Hence in this scenario, it will be:

A Type I error would be incorrectly convicting the defendant when he is innocent. A Type II error would be incorrectly failing to convict the defendant when he is guilty.

Option C is correct.

Answer:

a) -882.6296

b) The regression equation overestimated the net income.

c) -547.0104

d) The regression equation overestimated the net income.

Step-by-step explanation:

We are given the following information in the question:

The regression equation for net income is given by:

[tex]\text{Net Income} = y = 2159 + .0312(\text{Revenue})[/tex]

a)  residual for the (x, y) pair ($45,533, $2,697)

Calculated net income =

[tex]2159 + .0312(45533) = 3579.6296[/tex]

Residual = Observed net income - Calculated net income

[tex]\text{Residual} = 2697-3579.6296 = -882.6296[/tex]

b)  The regression equation overestimated the net income.

c)  residual for the (x, y) pair ($60,417, $3,497)

Calculated net income =

[tex]2159 + .0312(60417) = 4044.0104[/tex]

Residual = Observed net income - Calculated net income

[tex]\text{Residual} = 3497-4044.0104 = -547.0104[/tex]

d)  The regression equation overestimated the net income.

The answers are : (a-1) The residual for the [tex](x,y)[/tex] pair [tex](\$45,533, $2,697)[/tex] is [tex]\[\text{Residual} = -881.6136\][/tex]. (a-2) The regression equation overestimated the net income. (b-1) The residual for the x, y pair ([tex]\$60,417, $3,497[/tex]) is [tex]\[\text{Residual} = -546.9704\][/tex]. (b-2) The regression equation overestimated the net income.

1. Calculate the predicted value [tex](\(\hat{y}\))[/tex] using the regression equation:

[tex]\[ \hat{y} = 2{,}159 + 0.0312 \times x \][/tex]

2. Compute the residual by subtracting the predicted value from the actual value:

[tex]\[ \text{Residual} = y - \hat{y} \][/tex]

Part (a-1)

For the [tex]\( x, y \) pair \((45,533, 2,697)\)[/tex]

1. Calculate the predicted net income

[tex]\[ \hat{y} = 2{,}159 + 0.0312 \times 45{,}533 \][/tex]

[tex]\[ \hat{y} = 2{,}159 + 1{,}419.6136 \][/tex]

[tex]\[ \hat{y} = 3{,}578.6136 \][/tex]

2. Compute the residual

[tex]\[ \text{Residual} = y - \hat{y} \][/tex]

[tex]\[ \text{Residual} = 2{,}697 - 3{,}578.6136 \][/tex]

[tex]\[ \text{Residual} = -881.6136 \][/tex]

Part (a-2)

The residual is negative, which means the actual net income is less than the predicted net income. Therefore, the regression equation overestimated the net income.

Part (b-1)

For the [tex]\( x, y \) pair \((60,417, 3,497)\)[/tex]

1. Calculate the predicted net income

[tex]\[ \hat{y} = 2{,}159 + 0.0312 \times 60{,}417 \][/tex]

[tex]\[ \hat{y} = 2{,}159 + 1{,}884.9704 \][/tex]

[tex]\[ \hat{y} = 4{,}043.9704 \][/tex]

2. Compute the residual

[tex]\[ \text{Residual} = y - \hat{y} \][/tex]

[tex]\[ \text{Residual} = 3{,}497 - 4{,}043.9704 \][/tex]

[tex]\[ \text{Residual} = -546.9704 \][/tex]

Part (b-2)

The residual is negative, which means the actual net income is less than the predicted net income. Therefore, the regression equation overestimated the net income.

Answer:

[tex]C(T(x))=1.15x-5[/tex] and [tex]T(C(x))=1.15x-5.75[/tex]

C(T(x)) represents the conditions of the coupon.

Step-by-step explanation:

The price after the coupon reduction is represented by the function

[tex]C(x)=x-5[/tex]

The price after the tip is applied is represented by the function

[tex]T(x)=1.15x[/tex]

We need to find the composite functions C(T(x)) and T(C(x)).

[tex]C(T(x))=C(1.15x)[/tex]            [tex][\because T(x)=1.15x][/tex]

[tex]C(T(x))=1.15x-5[/tex]            [tex][\because C(x)=x-5][/tex]

This function represents that 15% tip will be added first after that $5 is subtracted.

Similarly,

[tex]T(C(x))=T(x-5)[/tex]           [tex][\because C(x)=x-5][/tex]

[tex]T(C(x))=1.15(x-5)[/tex]            [tex][\because T(x)=1.15x][/tex]

[tex]T(C(x))=1.15x-5.75[/tex]

This function represents that $5 is subtracted first after that 15% tip will be added.

It is given that a coupon for $5 off any lunch price states that a 15% tip will be added to the price before the $5 is subtracted.

It means 15% tip will be added first after that $5 is subtracted. So, C(T(x)) represents the conditions of the coupon.

The functions C(T(x)) and T(C(x)) represent the application of a tip and a coupon to a lunch price, respectively, in different order. The function that correctly represents the specific conditions given by the coupon in the problem statement is T(C(x)).

The composite function C(T(x)) is found by substituting T(x) into the function C(x). So, C(T(x)) = T(x) - 5 = 1.15x - 5.

The composite function T(C(x)) is calculated by substituting C(x) into the function T(x). So, T(C(x)) = 1.15 * (x - 5) = 1.15x - 5.75.

In the context of the coupon conditions, the right composite function is T(C(x)). This composite function first applies the $5 coupon reduction (C(x)) and then the 15% tip (T(x)), which exactly follows the procedure described by the coupon.

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Answer:

Step-by-step explanation:

Given

There are 45 numbers out of which 5 numbers are required to win an enormous sum of money

No of ways  in which 5 numbers can be selected out of 45 numbers.

[tex]^nC_r=\frac{n!}{(n-r)!r!}[/tex]

here n=45, r=5

[tex]^{45}C_5=\frac{45!}{40!5!}[/tex]

[tex]^{45}C_5=1221759[/tex]

out of which there is only combination foe contest winning

[tex]P=\frac{1}{1221759}[/tex]

When 100 different tickets are bought then

Probability of winning[tex]=\frac{100}{1221759}[/tex]

The probability of winning with one combination of five numbers is [tex]\( \frac{1}{1,221,759} \)[/tex] .

The probability of winning if 100 different lottery tickets are purchased is [tex]\( 1 - \left(1 - \frac{1}{1,221,759}\right)^{100} \)[/tex], approximately [tex]\( 0.0000182 \)[/tex].

Step 1

The probability of winning the lottery with one combination of five numbers can be calculated using the formula for combinations:

[tex]\[ P(\text{win with one ticket}) = \frac{1}{\binom{45}{5}} \][/tex]   Where [tex]\( \binom{45}{5} \)[/tex]represents the number of ways to choose 5 numbers from 45 without regard to the order. Calculating [tex]\( \binom{45}{5} \)[/tex] :

[tex]\[ \binom{45}{5} = \frac{45 \times 44 \times 43 \times 42 \times 41}{5 \times 4 \times 3 \times 2 \times 1} = 1,221,759 \][/tex]

So, the probability [tex]\( P(\text{win with one ticket}) \)[/tex] is:

[tex]\[ P(\text{win with one ticket}) = \frac{1}{1,221,759} \approx 8.19 \times 10^{-7} \][/tex]

If 100 different lottery tickets are purchased, the probability of winning at least once is calculated using the complement rule:

[tex]\[ P(\text{win with 100 tickets}) = 1 - \left( 1 - \frac{1}{\binom{45}{5}} \right)^{100} \][/tex]

Step 2

Substituting [tex]\( \binom{45}{5} \)[/tex] :

[tex]\[ P(\text{win with 100 tickets}) = 1 - \left( 1 - \frac{1}{1,221,759} \right)^{100} \][/tex]

[tex]\[ P(\text{win with 100 tickets}) \approx 1 - (1 - 8.19 \times 10^{-7})^{100} \][/tex]

[tex]\[ P(\text{win with 100 tickets}) \approx 1 - (0.999999181)^{100} \][/tex]

[tex]\[ P(\text{win with 100 tickets}) \approx 1 - 0.9999818 \][/tex]

[tex]\[ P(\text{win with 100 tickets}) \approx 0.0000182 \][/tex]

The probability of winning the lottery with one ticket is approximately [tex]\( 8.19 \times 10^{-7} \)[/tex], while the probability of winning if 100 different tickets are purchased increases to approximately 0.0000182. Purchasing more tickets improves the chances of winning, but it remains a very low probability event due to the large number of possible combinations.

Answer:

The 95% (two-sided) confidence interval for the proportion of all dies that pass the probe is (0.462, 0.566).

Step-by-step explanation:

In a sample with a number n of people surveyed with a probability of a success of [tex]\pi[/tex], and a confidence interval [tex]1-\alpha[/tex], we have the following confidence interval of proportions.

[tex]\pi \pm z\sqrt{\frac{\pi(1-\pi)}{n}}[/tex]

In which

Z is the zscore that has a pvalue of [tex]1 - \frac{\alpha}{2}[/tex].

For this problem, we have that:

356 dies were examined by an inspection probe and 183 of these passed the probe. This neabs that [tex]n = 356, \pi = \frac{183}{356} = 0.514[/tex]

95% confidence interval

So [tex]\alpha = 0.05[/tex], z is the value of Z that has a pvalue of [tex]1 - \frac{0.05}{2} = 0.975[/tex], so [tex]Z = 1.96[/tex].

The lower limit of this interval is:

[tex]\pi - z\sqrt{\frac{\pi(1-\pi)}{n}} = 0.514 - 1.96\sqrt{\frac{0.514*0.486}{356}} = 0.462[/tex]

The upper limit of this interval is:

[tex]\pi + z\sqrt{\frac{\pi(1-\pi)}{n}} = 0.514 + 1.96\sqrt{\frac{0.514*0.486}{356}}{119}} = 0.566[/tex]

The 95% (two-sided) confidence interval for the proportion of all dies that pass the probe is (0.462, 0.566).

Answer:

[tex]\bar d=\frac{\sum_{i=1}^n d_i}{n}=-0.001[/tex]

[tex]s=\sqrt{\frac{\sum_{i=1}^n (x_i -\bar X)^2}{n-1}}=0.0095[/tex]

-The sample is too small to make judgments about skewness or symmetry.

H0:[tex]\mu_{1}=\mu_{2}[/tex]

H1:[tex]\mu_{1} \neq \mu_{2}[/tex]

[tex]t=\frac{1.173-1.174}{\sqrt{\frac{0.1506^2}{8}+\frac{0.1495^2}{8}}}=-0.013[/tex]

[tex]p_v =2*P(t_{(14)}<-0.0133)=0.990[/tex]

So the p value is a very high value and using any significance level for example [tex]\alpha=0.05, 0,1,0.15[/tex] always [tex]p_v>\alpha[/tex] so we can conclude that we have enough evidence to FAIL to reject the null hypothesis, and a we don't have a significant difference between the two means.

Step-by-step explanation:

First we need to find the difference defined as:

(Operator 1 minus Operator 2)

d1=1.326-1.323=0.003      d2=1.337-1.322=0.015

d3=1.079-1.073=0.006     d4=1.229-1.233=-0.004

d5=0.936-0.934=0.002   d6=1.009-1.019=-0.01

d7=1.179-1.184=-0.005      d8=1.289-1.304=-0.015

Now we can calculate the mean of differences given by:

[tex]\bar d=\frac{\sum_{i=1}^n d_i}{n}=-0.001[/tex]

And for the sample deviation we can use the following formula:

[tex]s=\sqrt{\frac{\sum_{i=1}^n (x_i -\bar X)^2}{n-1}}=0.0095[/tex]

Describe the distribution of these differences using words. (which one is correct)

We can plot the distribution of the differences with the folowing code in R

differences<-c(0.003,0.015,0.006,-0.004,0.002,-0.01,-0.005,-0.015)

hist(differences)

And we got the image attached. And we can see that the distribution is right skewed but we don't have anough info to provide a conclusion with just 8 differnences.

-The sample is too small to make judgments about skewness or symmetry.

Use a significance test to examine the null hypothesis that the two operators have the same mean. Give the test statistic. (Round your answer to three decimal places.)

[tex]\bar X_{1}=1.173[/tex] represent the mean for the operator 1

[tex]\bar X_{2}=1.174[/tex] represent the mean for the operator 2

[tex]s_{1}=0.1506[/tex] represent the sample standard deviation for the operator 1

[tex]s_{2}=0.1495[/tex] represent the sample standard deviation for the operator 2

[tex]n_{1}=8[/tex] sample size for the operator 1

[tex]n_{2}=8[/tex] sample size for the operator 2

t would represent the statistic (variable of interest)

Concepts and formulas to use

We need to conduct a hypothesis in order to check if the means for the two groups are the same, the system of hypothesis would be:

H0:[tex]\mu_{1}=\mu_{2}[/tex]

H1:[tex]\mu_{1} \neq \mu_{2}[/tex]

If we analyze the size for the samples both are less than 30 so for this case is better apply a t test to compare means, and the statistic is given by:

[tex]t=\frac{\bar X_{1}-\bar X_{2}}{\sqrt{\frac{s^2_{1}}{n_{1}}+\frac{s^2_{2}}{n_{2}}}}[/tex] (1)

t-test: Is used to compare group means. Is one of the most common tests and is used to determine whether the means of two groups are equal to each other.

Calculate the statistic

We can replace in formula (1) like this:

[tex]t=\frac{1.173-1.174}{\sqrt{\frac{0.1506^2}{8}+\frac{0.1495^2}{8}}}=-0.013[/tex]

Statistical decision

For this case we don't have a significance level provided [tex]\alpha[/tex], but we can calculate the p value for this test. The first step is calculate the degrees of freedom, on this case:

[tex]df=n_{1}+n_{2}-2=8+8-2=14[/tex]

Since is a bilateral test the p value would be:

[tex]p_v =2*P(t_{(14)}<-0.0133)=0.990[/tex]

So the p value is a very high value and using any significance level for example [tex]\alpha=0.05, 0,1,0.15[/tex] always [tex]p_v>\alpha[/tex] so we can conclude that we have enough evidence to FAIL to reject the null hypothesis, and a we don't have a significant difference between the two means.

Answer

The answer and procedures of the exercise are attached in the following archives.

The information complete of the exercise is attached in the sheet.

Step-by-step explanation:

You will find the procedures, formulas or necessary explanations in the archive attached below. If you have any question ask and I will aclare your doubts kindly.  

Answer:Sin of ∠D = 39/89

Step-by-step explanation:

The diagram of the right angle DEF is shown in the attached photo.

To determine the ratio representing the sine of ∠D, we would apply the sine trigonometric ratio. It is expressed as

Sin# = opposite side/hypotenuse

Looking at the triangle

Opposite side = 39

Hypotenuse = 89

# = ∠D

Therefore

Sin of ∠D = 39/89

The sine of ∠D in a right triangle is defined as the ratio of the length of the opposite side to the length of the hypotenuse. So, in ΔDEF, sine of ∠D is FE/ED = 39/89.

In trigonometry, the sine of an angle in a right triangle is defined as the ratio of the length of the side that is opposite that angle, to the length of the hypotenuse. Considering this, the ratio representing the sine of ∠D in ΔDEF would be the length of side FE (opposite ∠D) divided by the length of side ED (the hypotenuse in ΔDEF because ∠F is a right angle and ED lies opposite to it).

Therefore, the ratio representing the sine of ∠D is FE/ED = 39/89.

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Stokes' theorem equates the line integral of [tex]\vec F[/tex] along the curve to the surface integral of the curl of [tex]\vec F[/tex] over any surface with the given curve as its boundary. The simplest such surface is the triangle with vertices (1,0,1), (0,1,0), and (0,0,1).

Parameterize this triangle (call it [tex]T[/tex]) by

[tex]\vec s(u,v)=(1-v)((1-u)(1,0,1)+u(0,1,0))+v(0,0,1)[/tex]

[tex]\vec s(u,v)=((1-u)(1-v),u(1-v),1-u+uv)[/tex]

with [tex]0\le u\le1[/tex] and [tex]0\le v\le1[/tex]. Take the normal vector to [tex]T[/tex] to be

[tex]\dfrac{\partial\vec s}{\partial u}\times\dfrac{\partial\vec s}{\partial v}=(0,1-v,1-v)[/tex]

Divide this vector by its norm to get the unit normal vector. Note that this assumes a "positive" orientation, so that the boundary of [tex]T[/tex] is traversed in the counterclockwise direction when viewed from above.

Compute the curl of [tex]\vec F[/tex]:

[tex]\vec F=(2x,2y,2x+2z)\implies\mathrm{curl}\vec F=(0,-2,0)[/tex]

Then by Stokes' theorem,

[tex]\displaystyle\int_{\partial T}\vec F\cdot\mathrm d\vec r=\iint_T\mathrm{curl}\vec F\cdot\mathrm d\vec S[/tex]

where

[tex]\mathrm d\vec S=\dfrac{\frac{\partial\vec s}{\partial u}\times\frac{\partial\vec s}{\partial v}}{\left\|\frac{\partial\vec s}{\partial u}\times\frac{\partial\vec s}{\partial v}\right\|}\,\mathrm dS[/tex]

[tex]\mathrm d\vec S=\dfrac{\frac{\partial\vec s}{\partial u}\times\frac{\partial\vec s}{\partial v}}{\left\|\frac{\partial\vec s}{\partial u}\times\frac{\partial\vec s}{\partial v}\right\|}\left\|\dfrac{\partial\vec s}{\partial u}\times\dfrac{\partial\vec s}{\partial v}\right\|\,\mathrm du\,\mathrm dv[/tex]

[tex]\mathrm d\vec S=\left(\dfrac{\partial\vec s}{\partial u}\times\dfrac{\partial\vec s}{\partial v}\right)\,\mathrm du\,\mathrm dv[/tex]

The integral thus reduces to

[tex]\displaystyle\int_0^1\int_0^1(0,-2,0)\cdot(0,1-v,1-v)\,\mathrm du\,\mathrm dv=\int_0^12(v-1)\,\mathrm dv=\boxed{-1}[/tex]

The question requires the use of Stokes' theorem to compute the integral of a given vector field around a defined curve. This involves calculating the curl of the vector field and a surface integral. However, specific computations were not provided.

The question is asking for the use of the Stokes' theorem to compute the integral of the vector field F=(2x,2y,2x+2z)F=(2x,2y,2x+2z) around the curve consisting of the straight lines joining the points (1,0,1), (0,1,0) and (0,0,1). In Stokes theorem, we're interested in the curl of the vector field and the surface integral of that curl over some surface S, with orientation determined by a unit normal vector. The problem also requires the computation of the curl of F which is a vector field whose components are the partial derivatives of the components of F. However, with this given information, we're unable to proceed with computations as detailed integral computations weren't provided. Therefore, a complete answer can't be provided at this time.

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Answer: the cost of one hosta is $7

the cost of one geramium is $12

Step-by-step explanation:

Let x represent the cost of one hosta.

Let y represent the cost of one geramium.

They bought their supplies from the same store. Jill spent $101 on 11 hostas and 2 geraniums. This means that

11x + 2y = 101 - - - - - - - -1

Kim spent $80 on 8 hostas and 2 geraniums. This means that

8x + 2y = 80 - - - - - - - - -2

We will eliminate y by subtracting equation 2 from equation 1, it becomes

3x = 21

x = 21/3 = 7

Substituting x = 7 into equation 2, it becomes

8 × 7 + 2y = 80

56 + 2y = 80

2y = 80 - 56 = 24

y = 24/2 = 12

Answer:The value of the bulldozer after 3 years is $121950

Step-by-step explanation:

We would apply the straight line depreciation method. In this method, the value of the asset(bulldozer) is reduced linearly over its useful life until it reaches its salvage value. The formula is expressed as

Annual depreciation expense =

(Cost of the asset - salvage value)/useful life of the asset.

From the given information,

Useful life = 23 years

Salvage value of the bulldozer = $14950

Cost of the new bulldozer is $138000

Therefore

Annual depreciation = (138000 - 14950)/ 23 = $5350

The value of the bulldozer at any point would be V. Therefore

5350 = (138000 - V)/ t

5350t = 138000 - V

V = 138000 - 5350t

The value of the bulldozer after 3 years would be

V = 138000 - 5350×3 = $121950

Answer:

0.3 or 30%

Step-by-step explanation:

Since no innocent student will ever be caught, the probability that a student sends an email and/or text message during a lecture AND gets caught is given by the product of the probability of a student sending a message (60%) by the probability of the professor catching them (50%) :

[tex]P = 0.5*0.6 = 0.3[/tex]

The probability is 0.3 or 30%.

Answer:

n=237

Step-by-step explanation:

Previous concepts

The margin of error is the range of values below and above the sample statistic in a confidence interval.

Normal distribution, is a "probability distribution that is symmetric about the mean, showing that data near the mean are more frequent in occurrence than data far from the mean".

Assuming the X follows a normal distribution

[tex]X \sim N(\mu, \sigma=112.2)[/tex]

We know that the margin of error for a confidence interval is given by:

[tex]Me=z_{\alpha/2}\frac{\sigma}{\sqrt{n}}[/tex]   (1)

The next step would be find the value of [tex]\z_{\alpha/2}[/tex], [tex]\alpha=1-0.96=0.04[/tex] and [tex]\alpha/2=0.02[/tex]

Using the normal standard table, excel or a calculator we see that:

[tex]z_{\alpha/2}=2.054[/tex]

If we solve for n from formula (1) we got:

[tex]\sqrt{n}=\frac{z_{\alpha/2} \sigma}{Me}[/tex]

[tex]n=(\frac{z_{\alpha/2} \sigma}{Me})^2[/tex]

And we have everything to replace into the formula:

[tex]n=(\frac{2.054(112.2)}{15})^2 =236.05[/tex]

And if we round up the answer we see that the value of n to ensure the margin of error required [tex]\pm=15 min[/tex] is n=237.

Answer: 482

Step-by-step explanation:

Formula to find the sample size is given by :-

[tex]n= (\dfrac{z^*\times \sigma}{E})^2[/tex]                                    (1)

, where z* = critical z-value (two tailed).  

[tex]\sigma[/tex] = Population standard deviation and E = Margin of error.

As per given , we have

Margin of error : E= 3

[tex]\sigma=40[/tex]

Confidence level = 90%

Significance level =[tex]\alpha=1-0.90=0.10[/tex]

Using z-table , the critical value for 90% confidence=[tex]z^*=z_{\alpha/2}=z_{0.05}=1.645[/tex]

Required minimum sample size = [tex]n= (\dfrac{(1.645)\times (40)}{3})^2[/tex]   [Substitute the values in formula (1)]

[tex]n=(21.9333333333)^2[/tex]

[tex]n=481.07111111\approx482[/tex]  [ Round to the next integer]

Hence, the number of observations required is closest to 482.

Answer: d) 6,534,385

Therefore, the number of ways of selecting 9 hearts is 6,534,385

Step-by-step explanation:

Given;

Number of cards to be chosen = 12

Number of hearts to be chosen = 9

Number of non-hearts to be selected = 3

Total number of cards = 52

Number of hearts total = 13

Number of non-hearts total= 39

The number of ways of selecting hearts can be given by the illustration below.

Number of ways of selecting hearts × number of ways of selecting non-hearts

N = 13C9 × 39C3 (it's combination since order is not important)

N = 13!/(9! ×4!) × 39!/(36! × 3!)

N = 6,534,385

Therefore, the number of ways of selecting 9 hearts is 6,534,385

The number of ways to choose 9 hearts from 12 cards is 220, option (b) is correct.

To solve this problem, we'll use the combination formula, which is used when selecting objects from a larger set without regard to the order. The formula for combinations is:

[tex]\[ \text{C}(n, k) = \frac{n!}{k!(n - k)!} \][/tex]

where [tex]\( n \)[/tex] is the total number of items, [tex]\( k \)[/tex] is the number of items to choose, and (!) denotes factorial.

Given that we need to choose 12 cards from a deck of 52, and we want to know the number of ways to choose 9 hearts, which is [tex]\( k = 9 \)[/tex] hearts out of a total of [tex]\( n = 12 \)[/tex] cards.

Step 1:

Calculate the number of ways to choose 9 hearts from the 12 chosen cards:

[tex]\[ \text{C}(12, 9) = \frac{12!}{9!(12 - 9)!} \][/tex]

Step 2:

Simplify the expression:

[tex]\[ \text{C}(12, 9) = \frac{12!}{9!3!} \][/tex]

[tex]\[ \text{C}(12, 9) = \frac{12 \times 11 \times 10}{3 \times 2 \times 1} \][/tex]

[tex]\[ \text{C}(12, 9) = \frac{1320}{6} \][/tex]

[tex]\[ \text{C}(12, 9) = 220 \][/tex]

Therefore, there are 220 ways to choose 9 hearts from 12 cards. So, the correct answer is option (b).

Answer: a) 984   b) 1068

Step-by-step explanation:

When the prior estimate of the population proportion(p) is available .

Then the formula to find the sample size  :-

[tex]n=p(1-p)(\dfrac{z^*}{E})^2[/tex]

, where E = margin of error

and z* = Critical z-value .

a) p= 0.36

E= 0.03

Critical value for 95% confidence level = z*= 1.96

Required sample size=[tex]n= 0.36(1-0.36)(\dfrac{1.960}{0.03})^2[/tex]

[tex]n= 0.36(0.64)(65.3333333333)^2[/tex]

[tex]n=(0.2304)(4268.44444444)=983.4496\approx984[/tex]

Hence, the required sample size is 984.

b) When the prior estimate of the population proportion is unavailable .

Then we use formula to find the sample size  :-

[tex]n= 0.25(\dfrac{z^*}{E})^2[/tex]

, where E = margin of error

and z* = Critical z-value

Put E= 0.03 and z*= 1.960

Required sample size =[tex]n= 0.25(\dfrac{1.960}{0.03})^2[/tex]

[tex]n= 0.25(65.3333333333)^2[/tex]

[tex]n= 0.25(4268.44444444)=1067.11111111\approx1068[/tex]  

Hence, the required sample size is 1068.

H0: p1 − p2 ≤ 0; HA: p1 − p2 > 0 is the competing hypotheses to test the claim that there is an increase in the proportion of people who marry outside their race or ethnicity. The correct option is option A.

A hypothesis is a put forth explanation of a phenomenon (plural: hypotheses). A hypothesis must be testable according to the scientific method for it to be considered a scientific hypothesis. Scientific hypotheses are typically based on prior observations that cannot be adequately explained by the current body of knowledge.

H0:

p1 − p2 = 0;

HA: p1 −

p2 ≠ 0

H0:

p1 − p2 ≥ 0;

HA: p1 −

p2 < 0

H0:

p1 − p2 ≤ 0;

HA: p1 −

p2 > 0

H0: p1 − p2 ≤ 0; HA: p1 − p2 > 0

Therefore, the correct option is option A.

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Answer:

  Distribute 2 to (x + 6) and 3 to (x – 4)

Step-by-step explanation:

A good first step for an equation such as this is to eliminate parentheses. That is accomplished by using the distributive property on the left and right. That property requires each term inside parentheses be multiplied by the factor outside parentheses. The process can be described as ...

  Distribute 2 to (x + 6) and 3 to (x – 4)

_____

Comment on further steps

The result of the first step above would be ...

  2x + 12 = 3x - 12 + 5

  19 = x . . . . . . . . . . . next step: add 7-2x to both sides and collect terms

_____

Comment on answer wording

The last answer choice uses the wording "move the 6 from the left side of the equation to the right side". This sort of description is often invoked when a constant needs to be removed from one side of the equation or the other.

  There is no property of equality that supports this action.

If you want to "move" a constant, you can invoke the addition property of equality that lets you add the same number to both sides of the equation. The number you would choose to add is the additive inverse of the one you want to "move."

In the above solution we have the sum -12+5 on the right after the first step. We want to eliminate that sum, so in the next step we show adding the additive inverse of the value of that sum. The sum of -12+5 is -7, and we add 7 to make that sum into the additive identity element, 0. (Likewise, we add -2x to turn the term 2x into the additive identity element, 0.) After these additions, we have ...

  2x -2x +12 +7 = 3x -2x -12 +5 +7

  0 + 19 = x + 0

  19 = x

The relevant property of equality is the addition property of equality, which says I can add the same amount to both sides of the equation. I can't "move" anything without violating the equal sign, but I can use the addition and multiplication properties of equality to do the same thing to both sides of the equation.

Answer:

The correct answer is Distribute 2 to (x + 6) and 3 to (x – 4).

Step-by-step explanation:

Answer:

e)  There is a 95% chance that the ecologist's interval contains the true mean weight of trees in the population with a trunk cross-sectional area of 452 in

Step-by-step explanation:

Given that an ecologist collects data on the weights and basal trunk diameters of a randomly selected sample of felled trees. The ecologist fits a simple linear regression model, predicting tree weight from the trunk's cross-sectional area. After ensuring that all assumptions of the linear model are met, the ecologist computes a 95% confidence interval for the predicted mean weight of trees with a trunk cross-sectional area of 452 inches

We can interpret the confidence interval as

we are 95% confident that for samples of trees largely drawn with 452 inches the mean of these trees would fall within this interval.

e)  There is a 95% chance that the ecologist's interval contains the true mean weight of trees in the population with a trunk cross-sectional area of 452 in

Answer:

Cyril's adjusted gross income is $12000.

Step-by-step explanation:

First, we have that the adjusted gross income is given by the sum of the income that is not taxable.  

For our case, we have the following data:

Social security:  12000 (This is not taxable)

Wages:  5000 (This is taxable)

Interest and dividends:  4000 (This is taxable)

Unemployment compensation:  3000 (This is taxable)

municipal bond interest: $1,500 (This is not taxable)

Then, adding up the income that's deductible, we have that Cyril's adjusted gross income is:

AGI=5000+4000+3000=$12000

Answer:

B. 0.0918

Step-by-step explanation:

Problems of normally distributed samples can be solved using the z-score formula.

In a set with mean [tex]\mu[/tex] and standard deviation [tex]\sigma[/tex], the zscore of a measure X is given by:

[tex]Z = \frac{X - \mu}{\sigma}[/tex]

The Z-score measures how many standard deviations the measure is from the mean. After finding the Z-score, we look at the z-score table and find the p-value associated with this z-score. This p-value is the probability that the value of the measure is smaller than X, that is, the percentile of X. Subtracting 1 by the pvalue, we get the probability that the value of the measure is greater than X.

In this problem, we have that:

[tex]\mu = 18, \sigma = 1.5[/tex]

What proportion of batteries would be expected to last less than 16 hours?

This is the pvalue of Z when X = 16. So:

[tex]Z = \frac{X - \mu}{\sigma}[/tex]

[tex]Z = \frac{16 - 18}{1.5}[/tex]

[tex]Z = -1.33[/tex]

[tex]Z = -1.33[/tex] has a pvalue of 0.0918.

So the correct answer is:

B. 0.0918

Answer: the correct option is B

Step-by-step explanation:

the durations of the batteries are normally distributed, we would apply the formula for normal distribution which is expressed as

z = (x - u)/s

Where

x = durations of the batteries in hours

u = mean time

s = standard deviation

From the information given,

u = 18 hours

s = 1.5 hours

We want to find the proportion or probability of batteries would be expected to last less than 16 hours. It is expressed as

P(x lesser than 16)

For x = 16,

z = (16 - 18)/1.5 = - 1.33

Looking at the normal distribution table, the probability corresponding to the z score is 0.09176

Approximately 0.0918