Need help with number 2?

we should reject H0 if the standardized test statistic is greater than 1.645

Given a sample size of n = 48 and a level of significance of α = 0.1, we can use the z-test to test the claim μ ≤ 25.6.

Since the level of significance is α = 0.1, we need to find the critical value corresponding to a 90% confidence level (1 - α).

The critical value for a 90% confidence level is 1.645.

what is statistic?

A statistic is a numerical value or measure that summarizes a specific characteristic or property of a sample or population. It is commonly used in statistics and research to provide information about a data set or to make inferences about a larger population based on the observed sample.

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The tensions in each side of the rope will be the same when Nellie Newton hangs at rest in the middle of a clothesline and the lengths of each rope are the same.

When Nellie Newton is in equilibrium, meaning she is at rest and not experiencing any acceleration or movement, the forces acting on her must be balanced. In the case of a clothesline, the tension in each side of the rope contributes to the balancing of forces.

For the tensions to be the same in each side of the rope, the lengths of the ropes must also be the same. This ensures that the forces applied to each side are equal and balanced, resulting in Nellie Newton remaining in a stable position without any net force acting on her.


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The expression that most accurately describes the change in the patient's temperature is -2° (3).

Option 3 is the correct answer.

We have,

The expression that most accurately describes the change in the patient's temperature would be:

-2° + (-2°) + (-2°)

This expression represents the successive temperature drops of 2° each time.

By adding the negative values, we account for the decrease in temperature.

This can be written as,

= -2° x 3

= -2° (3)

Thus,

The expression that most accurately describes the change in the patient's temperature is -2° (3).

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Both investments have the same effective annual yield

To calculate the effective annual yield for different compounding periods, we can use the formula:

Effective Annual Yield = (1 + (interest rate / number of compounding periods))^number of compounding periods - 1

Using this formula, let's calculate the effective annual yields for each scenario:

Semiannually compounded:

Effective Annual Yield = (1 + (0.06 / 2))^2 - 1 ≈ 0.0609 or 6.1%

Quarterly compounded:

Effective Annual Yield = (1 + (0.06 / 4))^4 - 1 ≈ 0.0614 or 6.1%

Monthly compounded:

Effective Annual Yield = (1 + (0.06 / 12))^12 - 1 ≈ 0.0617 or 6.2%

Daily compounded:

Effective Annual Yield = (1 + (0.06 / 360))^360 - 1 ≈ 0.0618 or 6.2%

Compounded 1000 times per year:

Effective Annual Yield = (1 + (0.06 / 1000))^1000 - 1 ≈ 0.0618 or 6.2%

Compounded 100,000 times per year:

Effective Annual Yield = (1 + (0.06 / 100000))^100000 - 1 ≈ 0.0618 or 6.2%

For exercises 29-32, let's calculate the effective annual yields for each investment:

Investment 1: 8% compounded monthly

Investment 2: 8.25% compounded annually

Effective Annual Yield for Investment 1 = (1 + (0.08 / 12))^12 - 1 ≈ 0.0833 or 8.3%

Effective Annual Yield for Investment 2 = (1 + 0.0825)^1 - 1 = 0.0825 or 8.3%

Both investments have the same effective annual yield of 8.3%.

Investment 1: 5% compounded monthly

Investment 2: 5.25% compounded quarterly

Effective Annual Yield for Investment 1 = (1 + (0.05 / 12))^12 - 1 ≈ 0.0512 or 5.1%

Effective Annual Yield for Investment 2 = (1 + (0.0525 / 4))^4 - 1 ≈ 0.0524 or 5.2%

Investment 2 has a higher effective annual yield of 5.2%.

Investment 1: 5.5% compounded semiannually

Investment 2: 5.4% compounded daily

Effective Annual Yield for Investment 1 = (1 + (0.055 / 2))^2 - 1 ≈ 0.0552 or 5.5%

Effective Annual Yield for Investment 2 = (1 + (0.054 / 360))^360 - 1 ≈ 0.0547 or 5.5%

Both investments have the same effective annual yield of 5.5%.

Investment 1: 7% compounded annually

Investment 2: 6.85% compounded daily

Effective Annual Yield for Investment 1 = (1 + 0.07)^1 - 1 = 0.07 or 7.0%

Effective Annual Yield for Investment 2 = (1 + (0.0685 / 360))^360 - 1 ≈ 0.0696 or 7.0%

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The given statement "The measure adjusted R2 measures what percentage of the variation in the dependent variable is explained by the explanatory variables" is true as the adjusted R2 is a statistical measure that takes into account the number of explanatory variables in a regression model.

It represents the proportion of the total variation in the dependent variable that is explained by the independent variables. Unlike the regular R2, which can increase with the addition of more variables regardless of their significance, the adjusted R2 penalizes the inclusion of irrelevant variables.

Therefore, it provides a more accurate assessment of the explanatory power of the model by considering the trade-off between model complexity and goodness of fit. Hence, the statement is true as the adjusted R2 measures the percentage of variation explained by the explanatory variables.

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Answer:  A

Step-by-step explanation:

Center is the dot in the middle

Vertex is point where 2 lines meet

Answer A  the 2 lines meet at the center.

Using the provided algorithm and initial values x0 = 15, x1 = 10, and x2 = 12.5, we can estimate the values of x3, x4, x5, and x6 as follows:

x3 = 11.244, x4 = 10.401, x5 = 10.216, x6 = 10.202.

1. Given the initial values x0 = 15, x1 = 10, and x2 = 12.5, we need to find the parabola passing through the points (x0, f(x0)), (x1, f(x1)), and (x2, f(x2)). Evaluating f(x) at these points, we get:

f(x0) = (-2)(-5)(-20)(0) = 0,

f(x1) = (5)(-2)(-7)(-5) = -350,

f(x2) = (-2.5)(-2.5)(-17.5)(-2.5) = 506.25.

Using the determinant formula for the x-coordinate of the vertex of the parabola, we have:

x3 = |(0 0 1)(15 -350 506.25)(225 100 506.25)| / |(0 -350 506.25)(225 10 506.25)(225 12.5 506.25)|.

Evaluating the determinants, we find x3 = 11.244.

2. Now, we have x3 as the x-coordinate of the vertex. To obtain further approximations, we repeat the process by updating the initial values. We set x1 = x2, x2 = x3, and calculate the new value of x3 using the same determinant formula as before. This process is repeated iteratively.

Using this process, we find the following values:

x4 = 10.401,

x5 = 10.216,

x6 = 10.202.

By continuing this iterative process, we can further refine the estimation of the local extremum between x = 5 and x = 15.

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The approximate value of the integral S3* ln(x² + 5) dx using the Trapezoidal Rule with n = 3 is -0.145.

To approximate the integral of S3* ln(x² + 5) dx using the Trapezoidal Rule with n = 3, we divide the interval [3, 6] into three equal subintervals.

The formula for the Trapezoidal Rule is:

Approximation = [tex](h/2) * [f(x0) + 2f(x1) + 2f(x2) + f(x3)][/tex]

where h is the step size and f(xi) represents the function evaluated at each interval endpoint.

In this case, the step size h is calculated as:

h = (b - a) / n = (6 - 3) / 3 = 1

Using the Trapezoidal Rule formula, we can calculate the approximation:

Approximation = [tex](1/2) * [f(3) + 2f(4) + 2f(5) + f(6)][/tex]

Now, we substitute the function f(x) = ln(x² + 5) into the formula:

Approximation = [tex](1/2) * [ln(3^2 + 5) + 2ln(4^2 + 5) + 2ln(5^2 + 5) + ln(6^2 + 5)][/tex]

Evaluating the natural logarithm terms and performing the arithmetic, we find that the approximation using the Trapezoidal Rule with n = 3 is approximately -0.145 (rounded to the nearest hundredth).

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Answer:

14/15

Step-by-step explanation:

these are hard to read so i'm gonna make it short and simple. you start by changing the 3/5 to 9/15 so it can be added (all you do is multiply top and bottom by 3) then add and get 5/15+9/15 which is equal to 14/15

Answer:

14/15

Step-by-step explanation:

5/15 + 3/5 = 5/15 + (3 x 3)/(5 x 3)

5/15 + (3 x 3)/15

5/15 + 9/15

(5 + 9)/15

14/15

Decimal Form: 0.933

Hope you have a great day!

The probability distribution for rolling each number on the weighted die is : P(1) = 1/10, P(2) = 1/10, P(3) = 1/10, P(4) = 1/10, P(5) = 3/10, P(6) = 3/10

The probability distribution of a weighted die can be determined by assigning probabilities to each outcome based on their relative likelihood.

In this case, the numbers 5 and 6 are three times as likely to occur as the other numbers. The probability distribution will reflect this weighting, with higher probabilities assigned to 5 and 6.

Let's denote the probabilities of rolling each number as P(1), P(2), P(3), P(4), P(5), and P(6).

We know that the probabilities of rolling 5 and 6 are three times as likely as the other numbers.

This means that P(5) = 3P(1), P(6) = 3P(1), P(2) = P(1), P(3) = P(1), and P(4) = P(1).

To determine the value of P(1), we use the fact that the sum of all probabilities must equal 1.

Since there are six possible outcomes, we have:

P(1) + P(1) + P(1) + P(1) + 3P(1) + 3P(1) = 1

Simplifying the equation, we get:

10P(1) = 1

Therefore, P(1) = 1/10.

Using this value, we can calculate the probabilities for the other numbers:

P(1) = 1/10

P(2) = P(1) = 1/10

P(3) = P(1) = 1/10

P(4) = P(1) = 1/10

P(5) = 3P(1) = 3/10

P(6) = 3P(1) = 3/10

So, the probability distribution for rolling each number on the weighted die is as follows:

P(1) = 1/10

P(2) = 1/10

P(3) = 1/10

P(4) = 1/10

P(5) = 3/10

P(6) = 3/10

This distribution reflects the fact that 5 and 6 are three times as likely to come up as each of the other numbers.

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The limit is less than 1, the series ∑((-7)^n) / ((2n+1)!) is convergent according to the ratio test.

To determine whether the series ∑((-7)^n) / ((2n+1)!) is convergent or divergent, we can apply the ratio test. If the limit of the absolute value of the ratio of consecutive terms is less than 1, the series is convergent. If the limit is greater than 1 or does not exist, the series is divergent.

Using the ratio test, we compute the limit as n approaches infinity of the absolute value of the ratio of consecutive terms:

lim┬(n→∞)⁡〖|((-7)^(n+1)) / ((2(n+1)+1)!)| / |((-7)^n) / ((2n+1)!)| 〗

Simplifying this expression, we have:

lim┬(n→∞)⁡|(-7)^(n+1) / (-7)^n| / |(2(n+1)+1)! / (2n+1)!|

Using the properties of exponents and factorials, we can further simplify the expression:

lim┬(n→∞)⁡|-7 / 1| / |((2n+3)(2n+2)(2n+1)!)/(2n+1)!|

Simplifying the factorials, we get:

lim┬(n→∞)⁡|-7 / 1| / |(2n+3)(2n+2)|

Simplifying the expression inside the absolute value, we have:

lim┬(n→∞)⁡|-7 / 1| / |4n^2 + 10n + 6|

Taking the limit as n approaches infinity, we find:

lim┬(n→∞)⁡|-7 / 1| / ∞ = 7 / ∞ = 0

Since the limit is less than 1, the series ∑((-7)^n) / ((2n+1)!) is convergent according to the ratio test.

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(a) An example of a distribution for X could be the standard normal distribution, which has a continuous range from negative infinity to positive infinity. It satisfies the condition that the probability of X being within any interval (a, b) is greater than zero, regardless of the values of a and b.

On the other hand, an example of a distribution that X could not have is a discrete distribution, such as a uniform distribution on a finite set of values. In such a case, the probability of X being within an interval (a, b) would be zero if a and b do not include any of the discrete values.

(b) To show that the cumulative distribution function (CDF) F of X is strictly increasing, let's consider two points x1 and x2, where x1 < x2. Since X is a continuous random variable, there is a positive probability that X falls within the interval (x1, x2). Therefore, F(x2) - F(x1) is greater than zero. Now, let's consider x2 = x1 + e, where e is a positive value. In this case, F(x2) - F(x1) is equal to the probability that X falls within the interval (x1, x2), which is greater than zero. Therefore, F(x2) > F(x1), demonstrating that the CDF of X is strictly increasing.

This implies that F:R -> (0, 1) is invertible because a strictly increasing function has a unique inverse. Each value in the range (0, 1) corresponds to a unique value in the domain of X. Consequently, we can define the inverse function [tex]F^{(-1)[/tex]: (0, 1) -> R, allowing us to obtain the value of X by applying F^(-1) to a random sample from a uniform distribution on (0, 1).

(c) If U is a uniform random variable on (0, 1), then the distribution of [tex]F^{(-1)[/tex](U) is the same as the distribution of X. Applying the inverse function  [tex]F^{(-1)[/tex] to U effectively maps the uniform distribution (0, 1) onto the distribution of X. Therefore, [tex]F^{(-1)[/tex](U) generates random samples from the distribution of X.

(d) In the case of a discrete random variable X with finitely many values, we cannot use U to directly sample X. The reason is that a uniform distribution on (0, 1) provides continuous values, which may not correspond to the discrete values of X. To sample a discrete random variable, we would need a discrete distribution that matches the specific values and their corresponding probabilities of X. However, if we approximate the discrete distribution with a continuous distribution (such as a piecewise constant distribution), we could potentially use U to sample a continuous approximation of X.

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Answer:  x> -3

Hope this answer will help You!

Answer:

C. -8-i

Step-by-step explanation:

To find the sum of -8 and -i, you simply add the real parts and the imaginary parts separately.

The real part of -8 is -8, and the real part of -i is 0. Adding them together, we get -8 + 0 = -8.

The imaginary part of -8 is 0, and the imaginary part of -i is -1. Adding them together, we get 0 + (-1) = -1.

Therefore, the sum of -8 and -i is -8 - i.

So, the correct option is:

C. -8 - i

Hope this helps!

Answer:

5.125

Step-by-step explanation:

5 1/8 =(5*8+1)÷(8)

= 41/8

=.125

the y-intercept is 165.

The equation of the tangent line to the graph of f(x) at the point (2, 11) is:

y = -77x + 165

To find the equation of the tangent line to the graph of f(x) at the point (2, 11), we need to determine the slope of the tangent line and the y-intercept.

Find the slope of the tangent line:

The slope of the tangent line to the graph of f(x) at any point can be found by taking the derivative of f(x) with respect to x and evaluating it at the given point.

f(x) = 3x - 20x^2

f'(x) = 3 - 40x

To find the slope at x = 2, we substitute x = 2 into the derivative:

f'(2) = 3 - 40(2) = 3 - 80 = -77

Therefore, the slope of the tangent line is -77.

Find the y-intercept:

To find the y-intercept, we substitute the coordinates of the given point (2, 11) and the slope into the equation y = mx + b, and solve for b.

11 = -77(2) + b

11 = -154 + b

b = 165

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Answer:

Step-by-step explanation:

y=mx+b   is the standard form

m= slope

If the slopes are the same they are parallel

If the slopes are Opposite signed and reciprocals, then they are perpendicular

both of the slopes are 5, so the lines are parallel

The first 10 iterations of Newton's method for the function f(x) = x^2 - 7, with the initial approximation x_0 = 3, are as follows: 3, 2.857143, 2.645502, 2.641986, 2.641986, 2.641986, 2.641986, 2.641986, 2.641986, 2.641986.

f(x) = x^2 - 7

Initial approximation: x_0 = 3

Newton's method iteration formula: x_(n+1) = x_n - f(x_n) / f'(x_n)

Compute f'(x) = 2x, the derivative of f(x).

Using x_0 = 3, compute f(x_0) = 3^2 - 7 = 2.

Compute f'(x_0) = 2 * 3 = 6.

Plug in the values into the iteration formula to find x_1: x_1 = 3 - 2 / 6 = 2.666667.

Repeat the process: compute f(x_1) = 2.666667^2 - 7 = 0.444444 and f'(x_1) = 2 * 2.666667 = 5.333334.

Calculate x_2: x_2 = 2.666667 - 0.444444 / 5.333334 = 2.645502.

Continue the iterations until the 10th iteration, rounding each result to six decimal places:

x_3 = 2.641986, x_4 = 2.641986, x_5 = 2.641986, x_6 = 2.641986, x_7 = 2.641986, x_8 = 2.641986, x_9 = 2.641986, x_10 = 2.641986.

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The singular points of the differential equation xy''+y'+y(x+2)/(x-4)=0 are 0, -2, and 4.

To find the singular points of the given differential equation, we first need to write it in the standard form of a second-order linear differential equation.

Dividing both sides by x, we get:

y'' + (1/x)y' + (y(x+2))/(x(x-4)) = 0

Now, we can see that the coefficient of y'' is 1, and the coefficient of y' is (1/x), which is undefined at x=0. So, 0 is a singular point of the differential equation.

Next, we can factor out (x-4) from the denominator of the last term to get:

y'' + (1/x)y' + (y(x+2))/((x-4)x) = 0

Now, we can see that (x-4) is not a factor of the coefficient of y'' or y', so it does not affect the singular points. Therefore, we need to find the singular points of:

y'' + (1/x)y' + (y(x+2))/(x(x-4)) = 0

Setting the denominator equal to zero, we get:

x(x-4) = 0

which gives us the singular points x=0 and x=4.

To find any additional singular points, we need to examine the behavior of the coefficients as x approaches -2.

Substituting x=-2 into the differential equation, we get:

y'' - y'/2 - y/10 = 0

This equation has constant coefficients, and its characteristic equation is:

r^2 - r/2 - 1/10 = 0

Solving for r, we get:

r = (1/4) ± sqrt((1/16) + 1/10)

r ≈ 0.322, -1.947

Therefore, the general solution to this equation is:

y = c1e^(0.322x) + c2e^(-1.947x)

Since neither of these exponentials blow up as x approaches -2, -2 is not a singular point of the differential equation.

Thus, the singular points of the differential equation are 0, -2, and 4.

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The measure of length of the shorter side of trapezoid is 2x = 4 , and x = 2

Given data ,

Let the trapezoid be represented as ABCD

Now , the length of the longer side of the trapezium is AB = 10 units

And , the length of the shorter side = 2x

where the median of trapezium is EF = 7 units

And , the bases are parallel to each other.

The median is parallel to both the bases and its length will be the average of the length of the bases

On simplifying , we get

EF = ( AB + CD ) / 2

7 = ( 10 + 2x ) / 2

Multiply by 2 on both sides , we get

10 + 2x = 14

Subtracting 10 on both sides , we get

2x = 4

Divide by 2 on both sides , we get

x = 2 units

Hence , the measure of x = 2 units in trapezium

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Answer:

54843

Step-by-step explanation:

543 × 101

= 543 x ( 100 + 1 )
= 543 x 100 + 543 × 1
= 54300 + 543 = 54843

Hello!

543 x 101

= 543 x 100 + 543 x 1

= 54,300 + 543

= 54,843

If Chebyshev's Theorem asserts that P (34 < X < 54) > variable X, then its standard deviation is :

None of the above.

Chebyshev's Theorem asserts that P(34 < X < 54) > 1 - 1/k^2, where k is the standard deviation of the random variable X.

Therefore, we can write:

1 - 1/k^2 > variable X

As we are given that the standard deviation of the random variable X is 25, we can substitute k = 25 in the above inequality and solve for the minimum value of P(34 < X < 54).

1 - 1/25^2 > P(34 < X < 54)

1 - 1/625 > P(34 < X < 54)

624/625 > P(34 < X < 54)

Therefore, the minimum value of P(34 < X < 54) is 624/625.

We cannot determine the exact value of P(34 < X < 54) just from Chebyshev's Theorem alone, but we can find a lower bound.

None of the given options match this lower bound, so the answer is none of the above.

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The correct answer is d) all of the above. This is because:

a) The probability of exceeding the mean by more than 1.5 standard deviations is .067, which is given in the question.
b) Since the probability of being more than 1.5 standard deviations away from the mean is symmetrical, we can double the given probability (.067 * 2 = .134).
c) To find the percentage of scores less than 1.5 standard deviations from the mean, we subtract the probability of being more than 1.5 standard deviations away (.134) from 1 (1 - .134 = .866 or 86.6%).

First, it's important to understand that in statistics, we use standard deviations to measure how much variation there is in a set of data. The mean (or average) is used as a reference point, and we can calculate how far away each data point is from the mean in terms of standard deviations.

Now, let's look at the given probability of .067 for 2 > 1.5. This means that there is a .067 probability (or 6.7% chance) that a randomly selected data point from the set will be greater than 1.5 standard deviations away from the mean.

Using this information, we can rule out option c) as it does not directly relate to the given probability. Option b) states that the probability of being more than 1.5 standard deviations away from the mean is .134, which is incorrect. If we want to find the probability of being either more than 1.5 standard deviations above or below the mean, we need to double the given probability to get .134.

Therefore, the correct answer is d) all of the above. We can say that the probability of exceeding the mean by more than 1.5 standard deviations is .067, the probability of being more than 1.5 standard deviations away from the mean (either above or below) is .134, and that approximately 86.6% of the scores are less than 1.5 standard deviations from the mean.

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The percentage of adults who are overweight or obese in low-income countries is 39.6%.What percent of adults worldwide are overweight or obese? Obesity is a growing public health concern worldwide.

Adults with a body mass index (BMI) of 25 or greater are considered overweight or obese. The table shows the number of adults, in millions, who are overweight or obese in countries with different income levels, based on data from the World Health Organization and the United Nations. Income level High Upper middle Lower middle Low | All BMI > 25 549 612 288 63 1512 BMI < 25 414 1042 1083 357 2896 Total 963 1654 1371 420 4408 To calculate the percent of adults worldwide who are overweight or obese, we need to calculate the total number of adults who are overweight or obese and the total number of adults. The total number of adults worldwide is: Total = 963 + 1654 + 1371 + 420 = 4408The total number of adults worldwide who are overweight or obese is: Total BMI > 25 = 549 + 612 + 288 + 63 + 1512 = 3024The percent of adults worldwide who are overweight or obese is:percent = Total BMI > 25 / Total * 100percent = 3024 / 4408 * 100percent = 68.7%Therefore, the percent of adults worldwide who are overweight or obese is 68.7%.What percent of adults who are overweight or obese live in low-income countries?The percent of adults who are overweight or obese in low-income countries is 39.6%.To calculate the percent of adults who are overweight or obese in low-income countries, we need to calculate the total number of adults who are overweight or obese in low-income countries and the total number of adults who are overweight or obese.

The total number of adults who are overweight or obese in low-income countries is: BMI > 25 (Low) = 63 + 357 + 1512 = 1932The total number of adults who are overweight or obese is: Total BMI > 25 = 549 + 612 + 288 + 63 + 1512 = 3024The percent of adults who are overweight or obese in low-income countries is:percent = BMI > 25 (Low) / Total BMI > 25 * 100percent = 1932 / 3024 * 100percent = 63.8%Therefore, the percent of adults who are overweight or obese in low-income countries is 63.8%.

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Answer:

Step-by-step explanation:

Using the law of cosines and vector addition, given the magnitudes of the tension forces in the ropes (53 pounds and 71 pounds) and the angle between the ropes (26°), the magnitude of the resultant force is approximately 89 pounds (rounded to the nearest whole number).

The law of cosines states that in a triangle, the square of one side is equal to the sum of the squares of the other two sides minus twice the product of the magnitudes of those sides multiplied by the cosine of the included angle.

Let's denote the magnitude of the resultant force as R. Using the law of cosines, we have:

R^2 = (53^2 + 71^2) - 2(53)(71)cos(26°)

Now we can calculate the magnitude of the resultant force:

R = √[(53^2 + 71^2) - 2(53)(71)cos(26°)]

To calculate the magnitude of the resultant force, we applied the law of cosines, which relates the sides and angles of a triangle. By plugging in the given values into the equation R = √[(53^2 + 71^2) - 2(53)(71)cos(26°)], we obtained the result of approximately 89 pounds.

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The possible values of xy are 2 and 20. However, we know that x and y are positive integers, so y cannot be 1 (otherwise x would not be an integer). Therefore, the only possible value of xy is 20.
The answer is E. 20.

The first step to solve this problem is to prime factorize 2,000. 2,000 = 2^4 * 5^3.
Now we can write x^3*y^4 as (x^2*y^3) * (xy).
We know that x^3*y^4 = 2,000, so we can substitute and get:
(x^2*y^3) * (xy) = 2^4 * 5^3

We want to find the value of xy, so we need to isolate it. We can do this by dividing both sides by x^2*y^3:

(xy) = (2^4 * 5^3)/(x^2*y^3)

Now we can simplify the expression on the right by canceling out factors:

(xy) = (2^2 * 5)/(y)

We know that x and y are positive integers, so y must be a factor of 5. We also know that xy is a positive integer, so y cannot be 5 (otherwise xy would not be an integer). Therefore, y must be 1 or 25.

If y = 1, then xy = (2^2 * 5)/(1) = 20.

If y = 25, then xy = (2^2 * 5)/(25) = 2.

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The slope of the line in the given graph is -1

From the question, we are to calculate the slope of the line in the given graph

To calculate the slope, we will pick two points on the line

Picking the points (-3, 0) and (0, -3).

Using the formula for the slope of a line,

Slope = (y₂ - y₁) / (x₂ - x₁)

x₁ = -3

x₂ = 0

y₁ = 0

y₂ = -3

Slope = (-3 - 0) / (0 - (-3))

Slope = (-3) / (0 + 3)

Slope = -3 / 3

Slope = -1

Hence,

The slope of the line in the graph is -1

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A random variable is a numerical quantity resulting from a probability experiment. It assigns a numerical value to each possible outcome of the experiment. The correct answer is D.

The outcome of a probability experiment is often a count or a measure. When this occurs, the outcome is called a random variable.

Random variables can be classified into two types: discrete and continuous.

Discrete random variables have finite or countable outcomes, while continuous random variables have uncountable outcomes, making it essential to consider the probability density function to determine the probabilities associated with various intervals.

Hence,the answer of the question is D.

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The value of the variables are 12 and 54 respectively. Option C

From the information given, we have that the simultaneous equation;

y = 4x + 6

5x – y = 6

Substitute the value of y in the equation into equation 2, we get;

5x - (4x +6) = 6

expand the bracket, we get;

5x - 4x - 6 =6

Now, collect the like terms, we have;

x = 6 + 6

Add the values

x = 12

Substitute the value of x , we have;

5x - y = 6

5(12) - y = 6

-y = 6 - 60

y = 54

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