Let X1, X2, X3 be a random sample from a discrete distribution with probability mass/density functionf(x) = 1/3 , for x = 02/3 , for x = 10, otherwiseDetermine the moment generating function, My(t), of Y = X1X2X3.

The linear function that best fits the data points is: f(t) = 2 + (1/3)t.

To fit a linear function of the form f(t) = c0 + c1t to the data points (−6,0), (0,3), (6,12), we need to find the values of c0 and c1 that minimize the sum of squared errors between the predicted values and the actual values of f(t) at each point. The sum of squared errors can be written as:

[tex]SSE = Σ [f(ti) - yi]^2[/tex]

where ti is the value of t at the ith data point, yi is the actual value of f(ti), and f(ti) is the predicted value of f(ti) based on the linear model.

We can rewrite the linear model as y = Xb, where y is a column vector of the observed values (0, 3, 12), X is a matrix of the predictor variables (1, -6; 1, 0; 1, 6), and b is a column vector of the unknown coefficients (c0, c1). We can solve for b using the normal equation:

(X'X)b = X'y

where X' is the transpose of X. This gives us:

[3 0 12][c0;c1] = [3 3 12]

Simplifying this equation, we get:

3c0 - 18c1 = 3

3c0 + 18c1 = 12

Solving for c0 and c1, we get:

c0 = 2

c1 = 1/3

Therefore, the linear function that best fits the data points is:

f(t) = 2 + (1/3)t.

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Find the probabilities using the standard normal distribution for each of the given scenarios:

a. P(z < 1.44)

To find this probability, we'll use the z-table or standard normal table. Look up the value for z = 1.44 in the table, which gives us the area to the left of the z-score.

Area for z = 1.44: 0.9251

Thus, P(z < 1.44) = 0.9251

b. P(z > 0.62)

First, find the area to the left of z = 0.62 in the z-table:

Area for z = 0.62: 0.7324

Since we want the area to the right, subtract the area to the left from 1:

P(z > 0.62) = 1 - 0.7324 = 0.2676

c. P(-1.35 < z < 0)

To find the probability between two z-scores, we'll subtract the area to the left of the lower z-score from the area to the left of the higher z-score:

Area for z = -1.35: 0.0885
Area for z = 0: 0.5

P(-1.35 < z < 0) = 0.5 - 0.0885 = 0.4115

So, the probabilities are:

a. P(z < 1.44) = 0.9251
b. P(z > 0.62) = 0.2676
c. P(-1.35 < z < 0) = 0.4115

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a. The area to the left of z=1.96 is approximately 0.9750 square units.

b. The area to the right of z=-0.79 is approximately 0.7852 square units.

c. The area between z=-2.45 and z=-1.32 is approximately 0.0707 square units.

d. The area to the left of z=-1.39 is approximately 0.0823 square units.

e. The area to the right of z=1.96 is approximately 0.0250 square units.

f. The area between z=-2.3 and z=1.74 is approximately 0.9868 square units.

To find the area under the curve of the standard normal distribution that lies to the left, right, or between certain values of the standard deviation, we use tables or statistical software. These tables give the area under the curve to the left of a given value, to the right of a given value, or between two given values.

a. To find the area to the left of z=1.96, we look up the value in the standard normal distribution table. The value is 0.9750, which means that approximately 97.5% of the area under the curve lies to the left of z=1.96.

b. To find the area to the right of z=-0.79, we look up the value in the standard normal distribution table. The value is 0.7852, which means that approximately 78.52% of the area under the curve lies to the right of z=-0.79.

c. To find the area between z=-2.45 and z=-1.32, we need to find the area to the left of z=-1.32 and subtract the area to the left of z=-2.45 from it. We look up the values in the standard normal distribution table. The area to the left of z=-1.32 is 0.0934 and the area to the left of z=-2.45 is 0.0078. Therefore, the area between z=-2.45 and z=-1.32 is approximately 0.0934 - 0.0078 = 0.0707.

d. To find the area to the left of z=-1.39, we look up the value in the standard normal distribution table. The value is 0.0823, which means that approximately 8.23% of the area under the curve lies to the left of z=-1.39.

e. To find the area to the right of z=1.96, we look up the value in the standard normal distribution table and subtract it from 1. The value is 0.0250, which means that approximately 2.5% of the area under the curve lies to the right of z=1.96.

f. To find the area between z=-2.3 and z=1.74, we need to find the area to the left of z=1.74 and subtract the area to the left of z=-2.3 from it. We look up the values in the standard normal distribution table. The area to the left of z=1.74 is 0.9591 and the area to the left of z=-2.3 is 0.0107. Therefore, the area between z=-2.3 and z=1.74 is approximately 0.9591 - 0.0107 = 0.9868.

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Step-by-step explanation:

to get how far from the ground the top of the ladder is,we use sine.

sin = 65°

opposite= ? (how far the ladder is from the ground.)

hypotenuse=72 (length of the ladder)

therefore,

[tex]sin65 = \frac{x}{72} [/tex]

x=7265

x=72×0.9063

x=65.25 inches (to 2 d.p)

therefore, the ladder is 65.25 inches from the ground.

to get the base of the ladder from the wall.

[tex]cos \: 65 = \frac{x}{72} [/tex]

x= 0.4226 × 72

x= 30.43 inches to 2 d.p

therefore, the base of the ladder is 30.43 inches from the wall.

If we conclude that the mean is greater than 58 when its true value is really 60, we have made a correct decision. This is because our alternative hypothesis (Ha) states that the true population mean is greater than 58, and the sample mean that we observed is greater than 58.

Therefore, we have enough evidence to reject the null hypothesis (H0) and conclude that the population mean is likely greater than 58.

A Type I error occurs when we reject the null hypothesis when it is actually true. In this case, we are not rejecting the null hypothesis when it is true, so it is not a Type I error.

A Type II error occurs when we fail to reject the null hypothesis when it is actually false. In this case, we are rejecting the null hypothesis when it is actually false, so it is not a Type II error.

Therefore, the correct answer is (c) a correct decision.

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Answer:B

Step-by-step explanation:I got it right

Answer: ABD is equal to angle AEC.

Step-by-step explanation:

If A, B, C, and D are four points on the circumference of a circle and AEC and BED are straight lines, then we can conclude that angle ABD is equal to angle AEC.

This is because of the Inscribed Angle Theorem, which states that an angle formed by two chords in a circle is half the sum of the arc lengths intercepted by the angle and its vertical angle. In this case, angle ABD is formed by the chords AB and BD, and angle AEC is formed by the chords AC and CE. The arc lengths intercepted by these angles are arc AD and arc AC, respectively. Since arc AD and arc AC are congruent arcs (they both intercept the same central angle), angles ABD and AEC must be congruent by the Inscribed Angle Theorem.

There are 210 distinct sets of inputs for the given logical circuit where the sum of the Boolean random variables equals 4.

Since x1, x2, ..., x10 are distinct Boolean random variables, they can only take the values 0 or 1. In order to satisfy the given condition, we need to find the number of distinct sets of inputs such that exactly four of the variables are 1 and the rest are 0.

This can be viewed as selecting 4 variables out of 10 to be equal to 1. The number of distinct sets can be determined by calculating the combinations: C(10,4) = 10! / (4! * 6!) = 210. Therefore, there are 210 distinct sets of inputs that satisfy the given condition.

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Sigma notation is a shorthand way of writing the sum of a series of terms.

The given expression can be written using sigma notation as:

∞

Σ (2/n)

n=1

This is an infinite series that starts with the term 2/1, then adds the term 2/2, then adds the term 2/3, and so on. The nth term in the series is 2/n.

what is series?

In mathematics, a series is the sum of the terms of a sequence. More formally, a series is an expression obtained by adding up the terms of a sequence. Series are used in many areas of mathematics, including calculus, analysis, and number theory.

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If the slope of "fitted-line" is given to be 8.42, then the correct interpretation is Option(c), which states that "On average, every $1 million increase in salary is linked with 8.42 point increase in "winning-percentage".

The "Slope" of the "fitted-line" denotes the change in response variable (which is winning percentage in this case) for "every-unit" increase in the predictor variable (which is salary of head coach, in millions of dollars).

In this case, the slope is 8.42, which means that on average, for every $1 million increase in salary of "head-coach", there is an increase of 8.42 points in "winning-percentage".

Therefore, Option (c) denotes the correct interpretation of slope.

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The given question is incomplete, the complete question is

Abigail gathered data on different schools' winning percentages and the average yearly salary of their head coaches (in millions of dollars) in the years 2000-2011. She then created the following scatterplot and regression line.

The fitted line has a slope of 8.42.

What is the best interpretation of this slope?

(a) A school whose head coach has a salary of $0, would have a winning percentage of 8.42%,

(b) A school whose head coach has a salary of $0, would have a winning percentage of 40%,

(c) On average, each 1 million dollar increase in salary was associated with an 8.42 point increase in winning percentage,

(d) On average, each 1 point increase in winning percentage was associated with an 8.42 million dollar increase in salary.

a. The PDF (probability density function) of an exponential random variable X with expected value λ is given by:

f(x) = λ * e^(-λ*x), for x > 0

Therefore, for an exponential random variable with an expected value of 0.5, the PDF would be:

f(x) = 0.5 * e^(-0.5*x), for x > 0

b. The graph of the PDF of an exponential random variable with an expected value of 0.5 is a decreasing curve that starts at 0 and approaches the x-axis, as x increases.

c. The CDF (cumulative distribution function) of an exponential random variable X with expected value λ is given by:

F(x) = 1 - e^(-λ*x), for x > 0

Therefore, for an exponential random variable with an expected value of 0.5, the CDF would be:

F(x) = 1 - e^(-0.5*x), for x > 0

d. The graph of the CDF of an exponential random variable with an expected value of 0.5 is an increasing curve that starts at 0 and approaches 1, as x increases.

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To find the measure of side OP, we need to use the concept of similarity between triangles.

When two triangles are similar, their corresponding sides are proportional. Let's denote the lengths of corresponding sides as follows:

KL = x

LM = y

NO = a

OP = b

Since triangles KLM and NOP are similar, we can set up a proportion using the corresponding sides:

KL / NO = LM / OP

Substituting the given values, we have:

x / a = y / b

To find the measure of side OP (b), we can cross-multiply and solve for b:

x * b = y * a

b = (y * a) / x

Therefore, the measure of side OP is given by (y * a) / x.

Please provide the lengths of sides KL, LM, and NO for a more specific calculation.

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Mathematical models are important to the scientific study of biological systems because they can help us understand and analyze complex biological phenomena.

Biological systems are often too complex to be understood by intuition alone, and mathematical models provide a quantitative framework that can help us make predictions and test hypotheses.

Mathematical models can be used to describe the behavior of individual components of a biological system, as well as the interactions between these components. For example, models can be used to describe the dynamics of biochemical reactions, the growth and division of cells, or the spread of diseases through a population.

Mathematical models also provide a way to analyze and interpret experimental data. By fitting models to experimental data, we can estimate the values of important parameters and test hypotheses about the underlying biological mechanisms. Models can also be used to make predictions about the behavior of a system under different conditions or to design experiments that can test specific hypotheses.

Finally, mathematical models can help us identify gaps in our knowledge and guide future research efforts. By comparing model predictions to experimental data, we can identify areas where our understanding is incomplete or where our models need to be refined. This can help us focus our research efforts and develop more accurate and comprehensive models of biological systems.

Overall, mathematical models are an essential tool for the scientific study of biological systems, providing a quantitative framework that can help us understand, analyze, and predict the behavior of these complex systems.

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The general solution of [tex]y''' y'' -y' -y= 1 cosx cos2x e^x[/tex] is

[tex]y = C1 e^x + C2 x e^x + C3 e^(^-^x^) + (-5/64 cos x + 8/89 sin x) (8/89 cos 2x + 5/89 sin 2x) e^x[/tex]

where C1, C2, and C3 are constants.

Find complementary solution by solving homogeneous equation:

y''' - y'' - y' + y = 0

The characteristic equation is:

[tex]r^3 - r^2 - r + 1 = 0[/tex]

Factoring equation as:

[tex](r - 1)^2 (r + 1) = 0[/tex]

So roots are: r = 1, r = -1.

The complementary solution is :

[tex]y_c = C1 e^x + C2 x e^x + C3 e^(^-^x^)[/tex]

where C1, C2, and C3 are constants.

Find a solution of non-homogeneous equation using undetermined coefficients method.

[tex]y_p = (A cos x + B sin x) (C cos 2x + D sin 2x) e^x[/tex]

where A, B, C, and D are constants.

Taking first, second, and third derivatives of [tex]y_p[/tex] and substituting into differential equation:

[tex]A [(8C - 5D) cos x + (5C + 8D) sin x] e^x + B [(8D - 5C) cos x - (5D + 8C) sin x] e^x = cos x cos 2x e^x[/tex]

Equating the coefficients of like terms:

8C - 5D = 0

5C + 8D = 0

8D - 5C = 1

5D + 8C = 0

Solving system of equations: C = 8/89, D = 5/89, A = -5/64, and B = 8/89.

Therefore:

[tex]y_p = (-5/64 cos x + 8/89 sin x) (8/89 cos 2x + 5/89 sin 2x) e^x[/tex]

The general solution of the non-homogeneous equation is:

[tex]y = y_c + y_p[/tex]

[tex]y = C1 e^x + C2 x e^x + C3 e^(^-^x^) + (-5/64 cos x + 8/89 sin x) (8/89 cos 2x + 5/89 sin 2x) e^x[/tex]

where C1, C2, and C3 are constants.

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The statement is true.

If the columns of a square (n x n) matrix A are linearly independent, then the determinant of A is nonzero.

Now consider the matrix A^T, which is the transpose of A. The rows of A^T are the columns of A, and since the columns of A are linearly independent, so are the rows of A^T.

Multiplying A^T by A gives the matrix A^T*A, which is a symmetric matrix. The determinant of A^T*A is the square of the determinant of A, which is nonzero.

Therefore, the columns of A^T*A (which are the rows of A) are linearly independent.

Repeating this process two more times, we have A^T*A*A^T*A*A^T*A = (A^T*A)^3, and the rows of this matrix are also linearly independent.

Therefore, if the columns of a square (n x n) matrix A are linearly independent, so are the rows of A^T, A^T*A, and (A^T*A)^3, which are the transpose of A.

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The sum for the telescoping series is given by the limit of Sn as n approaches infinity:

S = lim(n→∞) Sn = lim(n→∞) 2 + 5/2 - 1/(n+1) = 9/2.

First, let's find Sn:

Sn = 3C0/(n+1)(n+2) + 3C1/(n)(n+1) + ... + 3Cn/(1)(2)

Notice that each term has a denominator in the form (k)(k+1), which suggests we can use partial fractions to simplify:

3Ck/(k)(k+1) = A/(k) + B/(k+1)

Multiplying both sides by (k)(k+1), we get:

3Ck = A(k+1) + B(k)

Setting k=0, we get:

3C0 = A(1) + B(0)

A = 3

Setting k=1, we get:

3C1 = A(2) + B(1)

B = -1

Therefore,

3Ck/(k)(k+1) = 3/k - 1/(k+1)

So, we can write the sum as:

Sn = 3/1 - 1/2 + 3/2 - 1/3 + ... + 3/n - 1/(n+1)

Simplifying,

Sn = 2 + 5/2 - 1/(n+1)

Now, we can find the different partial sums:

S1 = 2 + 5/2 - 1/2 = 4

S2 = 2 + 5/2 - 1/2 + 3/6 = 17/6

S3 = 2 + 5/2 - 1/2 + 3/6 - 1/12 = 7/4

S4 = 2 + 5/2 - 1/2 + 3/6 - 1/12 + 3/20 = 47/20

Finally, the sum for the telescoping series is given by the limit of Sn as n approaches infinity:

S = lim(n→∞) Sn = lim(n→∞) 2 + 5/2 - 1/(n+1) = 9/2.

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The integral X³dx + Y²dy + Zdz C, where C is the line from the origin to the point (2, 3, 4), can be calculated as X³dx + Y²dy + Zdz C = ∫0→1 (2t³ + 9t² + 4)dt = 11.

Define the Integral:

Finding the integral of X³dx + Y²dy + Zdz C—where C is the line connecting the origin and the points (2, 3, 4) is our goal.

This is a line integral, which is defined as the integral of a function along a path.

Calculate the Integral:

To calculate the integral, we need to parametrize the path C, which is the line from the origin to the point (2, 3, 4).

We can do this by parametrizing the line in terms of its x- and y-coordinates. We can use the parametrization x = 2t and y = 3t, with t going from 0 to 1.

We can then calculate the integral as follows:

X³dx + Y²dy + Zdz C = ∫0→1 (2t³ + 9t² + 4)dt

= [t⁴ + 3t³ + 4t]0→1

= 11

We have found the integral X³dx + Y²dy + Zdz C = 11. This is the integral of a function along the line from the origin to the point (2, 3, 4).

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To estimate the mean amount earned by a college student per month, we can use a point estimate and a 95% confidence interval. A point estimate is a single value that represents the best estimate of the population parameter, in this case, the mean amount earned by a college student per month. This point estimate can be obtained by taking the sample mean. To determine the 95% confidence interval, we need to calculate the margin of error and add and subtract it from the sample mean. This gives us a range of values that we can be 95% confident contains the true population mean. The conclusion is that the point estimate and 95% confidence interval can provide us with a good estimate of the mean amount earned by a college student per month.

To estimate the mean amount earned by a college student per month, we need to take a sample of college students and calculate the sample mean. The sample mean will be our point estimate of the population mean. For example, if we take a sample of 100 college students and find that they earn an average of $1000 per month, then our point estimate for the population mean is $1000.

However, we also need to determine the precision of this estimate. This is where the confidence interval comes in. A 95% confidence interval means that we can be 95% confident that the true population mean falls within the range of values obtained from our sample. To calculate the confidence interval, we need to determine the margin of error. This is typically calculated as the critical value (obtained from a t-distribution table) multiplied by the standard error of the mean. Once we have the margin of error, we can add and subtract it from the sample mean to obtain the confidence interval.

In conclusion, a point estimate and a 95% confidence interval can provide us with a good estimate of the mean amount earned by a college student per month. The point estimate is obtained by taking the sample mean, while the confidence interval gives us a range of values that we can be 95% confident contains the true population mean. This is an important tool for researchers and decision-makers who need to make informed decisions based on population parameters.

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The angles whose equals to 60 ° are ∠1 , ∠2 , ∠3 , ∠4 . This is due to opposite angles and angle pairs due to a transversal with a parallel.

Note that

l and m are the parallel lines .

m ∠ 1 = 60 °

Thus

∠1 = ∠2 = 60 °

(As l and m are the parallel lines and ∠ 1 and ∠2 are the vertically opposite angles .)

As

∠2 = ∠3

(As l and m are the parallel lines and ∠2 and ∠3 are the alternate interior angles. )

As

∠3 = ∠4 = 60°

( As l and m are the parallel lines and ∠ 3 and ∠4 are the vertically opposite angles )

Therefore the angles whose equals to 60 ° are ∠1 , ∠2 , ∠3 , ∠4 .

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The scale is 2/2 = 1. This means that one tick mark represents 2 units.

In a number line, the scale represents the relationship between the distance on the number line and the numerical difference between the corresponding values.

Therefore, the scale of this number line in which one tick mark represents 0.25 units is C.

1 tick mark represents 0.25 unit.

For example, consider the number line below:

The scale of this number line can be determined by dividing the distance between any two tick marks by the difference between the corresponding numerical values.

For example, the distance between the tick marks at 0 and 1 is 1 unit, and the difference between the corresponding numerical values is 1 - 0 = 1.

Therefore, the scale is 1/1 = 1.

This means that one tick mark represents 1 unit.

Similarly, the distance between the tick marks at 0 and 2 is 2 units, and the difference between the corresponding numerical values is 2 - 0 = 2.

Therefore, the scale is 2/2 = 1. This means that one tick mark represents 2 units.

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(a) The independent and dependent variables in this problem are: Independent variable: number of people in the portrait and Dependent variable: total cost of taking the portrait

(b)The number of people in the portrait is 6.

Given that the Milligan family spent $215 to have their family portrait taken. The portrait package they would like to purchase costs $125. In addition, the photographer charges a $15 sitting fee per person in the portrait.Let x be the number of people in the portrait and y be the total cost of taking the portrait.The function that represents the total cost of any number of people in the portrait is given byy = 15x + 125Therefore, if we need to find the total cost for any number of people in the portrait, we just need to substitute the number of people in the above equation to get the corresponding total cost.b) The given equation is:y = 15x + 125The total cost of the portrait is $215.So, we can substitute y = 215 in the above equation to find the number of people in the portrait.215 = 15x + 125215 - 125 = 15x90 = 15xx = 6.

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The average shearing stress in the bolts is approximately 796 psi for the leftmost and rightmost bolts, and 177 psi for the middle bolt.

To determine the average shearing stress in the bolts, we need to first find the force acting on each bolt.

For the leftmost bolt, the force acting on it is the sum of the vertical shear forces on the left plank (which is 2500 lb) and the right plank (which is 0 lb since there is no load to the right of the right plank). So the force acting on the leftmost bolt is 2500 lb.

For the second bolt from the left, the force acting on it is the sum of the vertical shear forces on the left plank (which is 2500 lb) and the middle plank (which is also 2500 lb since the vertical shear force is constant along the beam). So the force acting on the second bolt from the left is 5000 lb.

For the third bolt from the left, the force acting on it is the sum of the vertical shear forces on the middle plank (which is 2500 lb) and the right plank (which is 0 lb). So the force acting on the third bolt from the left is 2500 lb.

We can now find the average shearing stress in each bolt by dividing the force acting on the bolt by the cross-sectional area of the bolt.

For the leftmost bolt:

Area = (π/4)(2 in)^2 = 3.14 in^2

Average shearing stress = 2500 lb / 3.14 in^2 = 795.87 psi

For the second bolt from the left:

Area = (π/4)(6 in)^2 = 28.27 in^2

Average shearing stress = 5000 lb / 28.27 in^2 = 176.99 psi

For the third bolt from the left:

Area = (π/4)(2 in)^2 = 3.14 in^2

Average shearing stress = 2500 lb / 3.14 in^2 = 795.87 psi

Therefore, the average shearing stress in the bolts is approximately 796 psi for the leftmost and rightmost bolts, and 177 psi for the middle bolt.

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The answer is , the largest frequency is in the interval 0-5, with 3 students watched between 20 and 25 games.

Given data shows the number of volleyball games 20 students of a class watched in a month:

15 1 4 2 22 10 7 4 3 16 16 21 22 19 19 20 22 16 19 22

To construct a histogram, we need to determine the range and class interval.

Range = Maximum value - Minimum value

Range = 22 - 1 = 21

We will use 5 as a class interval.

Therefore, we will have five classes:

0-5, 5-10, 10-15, 15-20, 20-25.

For example, for the first class (0-5), we count the frequency of the number of students who watched between 0 and 5 games, for the second class (5-10), we count the frequency of the number of students who watched between 5 and 10 games, and so on.

The histogram accurately represents the given data is shown below:

As we can see from the histogram, the largest frequency is in the interval 0-5, with 3 students watched between 20 and 25 games.

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An IQ score greater than 128 would be considered unusually high.

C. Any IQ score more than 2 standard deviations above the mean, or greater than, is unusually high. One would expect to see an IQ score 2 standard deviations above the mean, or greater than, only rarely.

To calculate the IQ score that would be considered unusually high, follow these steps:
Identify the mean and standard deviation of the normal model. In this case, the mean (μ) is 100 and the standard deviation (σ) is 14.
Determine the number of standard deviations above the mean that would be considered unusually high.

In this case, it's 2 standard deviations.
Multiply the standard deviation by the number of standard deviations above the mean (2 × 14 = 28).
Add the result to the mean (100 + 28 = 128).

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Choice B is correct: Any IQ score more than 2 standard deviations above the mean, or greater than 128, is unusually high. One would expect to see an IQ score 2 standard deviations above the mean, or greater, only rarely.

To determine what IQ would be considered unusually high in a standardized Normal model N(100,14) IQ test, we need to look at the number of standard deviations above the mean. The mean IQ is 100 and the standard deviation is 14.

This is because 95% of IQ scores fall within two standard deviations of the mean, so an IQ score greater than 128 is in the top 5% of IQ scores. This would be considered an unusually high IQ.

Some IQ tests are standardized to a Normal model N(100,14). What IQ would be considered to be unusually high?

C. Any IQ score more than 2 standard deviations above the mean, or greater than 128, is unusually high. One would expect to see an IQ score 2 standard deviations above the mean, or greater than 128, only rarely.

Explanation: In a normal distribution, a score more than 2 standard deviations above the mean is considered rare and unusually high. To find the IQ score 2 standard deviations above the mean, you can calculate as follows:

1. Find the mean (100) and standard deviation (14).
2. Multiply the standard deviation by 2 (14*2 = 28).
3. Add the result to the mean (100 + 28 = 128).

So, an IQ score greater than 128 would be considered unusually high.

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There are 680 ways can Marie choose 3 pizza toppings from a menu of 17 toppings if each topping can only be chosen once.

We have to given that;

Marie choose 3 pizza toppings from a menu of 17 toppings.

Hence, To find ways can Marie choose 3 pizza toppings from a menu of 17 toppings if each topping can only be chosen once,

We can formulate;

⇒ ¹⁷C₃

⇒ 17! / 3! 14!

⇒ 17 × 16 × 15 / 6

⇒ 680

Thus, There are 680 ways can Marie choose 3 pizza toppings from a menu of 17 toppings if each topping can only be chosen once.

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Based on the data given, the histogram is attached

A histogram is a graphical representation of data points organized into user-specified ranges.

Similar in appearance to a bar graph, the histogram condenses a data series into an easily interpreted visual by taking many data points and grouping them into logical ranges or bins.

From the information, the range of the dataset will be:

= 68 - 32

= 36

The number of classes will be:

= 36 / 10

= 3.6

= 4 approximately.

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a)  The correct answer is: p-value 0.10.

b)  The conclusion to the test is: Do not reject H0; we cannot state the variables are correlated.

a-1. The test statistic for testing the correlation coefficient is given by:

t = r * sqrt(n-2) / sqrt(1-r^2)

where r is the sample correlation coefficient and n is the sample size.

Substituting the given values, we get:

t = 0.15 * sqrt(18-2) / sqrt(1-0.15^2) ≈ 1.562

Rounding to 3 decimal places, the test statistic is 1.562.

a-2. The p-value is the probability of observing a test statistic as extreme or more extreme than the one calculated, assuming that the null hypothesis is true. Since this is a two-tailed test, we need to find the probability of observing a t-value as extreme or more extreme than 1.562 or -1.562. Using a t-table with 16 degrees of freedom (n-2=18-2=16) and a significance level of 0.05, we find the critical values to be ±2.120.

The p-value is the area under the t-distribution curve to the right of 1.562 (or to the left of -1.562), multiplied by 2 to account for the two tails. From the t-table, we find that the area to the right of 1.562 (or to the left of -1.562) is between 0.10 and 0.20. Multiplying by 2, we get the p-value to be between 0.20 and 0.40.

Therefore, the correct answer is: p-value 0.10.

b. At the 10% significance level, we compare the p-value to the significance level. Since the p-value is greater than the significance level of 0.10, we fail to reject the null hypothesis. Therefore, the conclusion to the test is: Do not reject H0; we cannot state the variables are correlated.

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Binary search works by dividing the sorted list in half repeatedly until the target value is found or it is determined that the value is not present in the list. In the worst case, the value is not present in the list and the search must continue until the remaining sub-list is empty.

The binary search checked a total of 3 elements to find the value 77.

In this case, the list has 10 elements and we are searching for the value 77.

Start by dividing the list in half:

{ 4 11 17 18 25 } | { 45 63 77 89 114 }

The target value 77 is in the right sub-list, so we repeat the process on that sub-list:

{ 45 63 } | { 77 89 114 }

The target value 77 is in the left sub-list, so we repeat the process on that sub-list:

{ 77 } | { 89 114 }

We have found the target value 77 in the list.

Therefore, the binary search checked a total of 3 elements to find the value 77.

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To compute the second-order partial derivative of the function ℎ(,)=/ 25, we first need to find the first-order partial derivatives with respect to each variable. The second-order partial derivatives of the function ℎ(,)=/ 25 are both 0.

Let's start with the first partial derivative with respect to :

∂ℎ/∂ = (1/25) * ∂/∂

Since the function is only dependent on , the partial derivative with respect to is simply 1.

So:

∂ℎ/∂ = (1/25) * 1 = 1/25

Now let's find the first partial derivative with respect to :

∂ℎ/∂ = (1/25) * ∂/∂

Again, since the function is only dependent on , the partial derivative with respect to is simply 1.

So:

∂ℎ/∂ = (1/25) * 1 = 1/25

Now that we have found the first-order partial derivatives, we can find the second-order partial derivatives by taking the partial derivatives of these first-order partial derivatives.

The second-order partial derivative with respect to is:

∂²ℎ/∂² = ∂/∂ [(1/25) * ∂/∂ ]

Since the first-order partial derivative with respect to is a constant (1/25), its partial derivative with respect to is 0.

So:

∂²ℎ/∂² = ∂/∂ [(1/25) * ∂/∂ ] = (1/25) * ∂²/∂² = (1/25) * 0 = 0

Similarly, the second-order partial derivative with respect to is:

∂²ℎ/∂² = ∂/∂ [(1/25) * ∂/∂ ]

Since the first-order partial derivative with respect to is a constant (1/25), its partial derivative with respect to is 0.

So:

∂²ℎ/∂² = ∂/∂ [(1/25) * ∂/∂ ] = (1/25) * ∂²/∂² = (1/25) * 0 = 0

Therefore, the second-order partial derivatives of the function ℎ(,)=/ 25 are both 0.

To compute the second-order partial derivatives of the function h(x, y) = x/y^25, you need to find the four possible combinations:

1. ∂²h/∂x²
2. ∂²h/∂y²
3. ∂²h/(∂x∂y)
4. ∂²h/(∂y∂x)

Note: Since the mixed partial derivatives (∂²h/(∂x∂y) and ∂²h/(∂y∂x)) are usually equal, we will compute only three of them.

Your answer: The second-order partial derivatives of the function h(x, y) = x/y^25 are ∂²h/∂x², ∂²h/∂y², and ∂²h/(∂x∂y).

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The function's range is { -3, 1, 2, 14, 23 } for the given domain of the function { -3, -1, 2, 4, 5 }.

Given the domain of the function as {-3, -1, 2, 4, 5}, we are to find the function's range. In mathematics, the range of a function is the set of output values produced by the function for each input value.

The range of a function is denoted by the letter Y.The range of a function is given by finding the set of all possible output values. The range of a function is dependent on the domain of the function. It can be obtained by replacing the domain of the function in the function's rule and finding the output values.

Let's determine the range of the given function by considering each element of the domain of the function.i. When x = -3,-5 + 2 = -3ii. When x = -1,-1 + 2 = 1iii.

When x = 2,2² - 2 = 2iv. When x = 4,4² - 2 = 14v. When x = 5,5² - 2 = 23

Therefore, the function's range is { -3, 1, 2, 14, 23 } for the given domain of the function { -3, -1, 2, 4, 5 }.

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The coefficient of determination tells you the fraction of the total sum of squares that can be explained by using the estimated regression equation.

Coefficient of determination is marked at R².

It is the square of the correlation coefficient.

It is always positive.

It does not tell about the the sum of square error or the sum of square due to regression.

It basically tells about the fraction of the total sum of squares that can be explained by using the estimated regression equation.

Hence the correct option is D.

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