Make a box plot of the data. Average daily temperatures in Tucson, Arizona, in December:
58, 60, 59, 50, 67, 53, 57, 62, 58, 57, 56, 63, 57, 53, 58, 58, 59, 49, 64, 58
Find and label the 5 critical values

a. The cylindrical coordinates for point (5, -5, 3) are (√(50), 7π/4, 3).

b. The cylindrical coordinates for point (-4, -4√(3), 1) are (8, 5π/3, 1).

To convert from rectangular coordinates (x, y, z) to cylindrical coordinates (r, θ, z), you can use the following formulas:

r = √(x² + y²)
θ = atan2(y, x)
z = z

(a) For the point (5, -5, 3):

r = √(5² + (-5)²) = √(25 + 25) = √(50)
θ = atan2(-5, 5) = -π/4 (since 0 ≤ θ ≤ 2π, add 2π to get θ) = 7π/4
z = 3

So, the cylindrical coordinates for point (5, -5, 3) are (√(50), 7π/4, 3).

(b) For the point (-4, -4√(3), 1):

r = √((-4)² + (-4√(3))²) = √(16 + 48) = √(64) = 8
θ = atan2(-4√(3), -4) = 5π/3
z = 1

So, the cylindrical coordinates for point (-4, -4√(3), 1) are (8, 5π/3, 1).

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a. The cylindrical coordinates for point (5, -5, 3) are (√(50), 7π/4, 3).

b. The cylindrical coordinates for point (-4, -4√(3), 1) are (8, 5π/3, 1).

To convert from rectangular coordinates (x, y, z) to cylindrical coordinates (r, θ, z), you can use the following formulas:

r = √(x² + y²)
θ = atan2(y, x)
z = z

(a) For the point (5, -5, 3):

r = √(5² + (-5)²) = √(25 + 25) = √(50)
θ = atan2(-5, 5) = -π/4 (since 0 ≤ θ ≤ 2π, add 2π to get θ) = 7π/4
z = 3

So, the cylindrical coordinates for point (5, -5, 3) are (√(50), 7π/4, 3).

(b) For the point (-4, -4√(3), 1):

r = √((-4)² + (-4√(3))²) = √(16 + 48) = √(64) = 8
θ = atan2(-4√(3), -4) = 5π/3
z = 1

So, the cylindrical coordinates for point (-4, -4√(3), 1) are (8, 5π/3, 1).

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To prove that the improper Riemann integral of e^((-x^2)/2) from 0 to infinity exists, we can compare it to another integral that converges. We will use the hint provided: for large x, e^((-x^2)/2) can be estimated by e^(-x).

First, note that 0 ≤ e^((-x^2)/2) ≤ e^(-x) for all x ≥ 0, since the exponent -x^2/2 is always less than or equal to -x when x is non-negative.

Now, we will evaluate the improper integral of e^(-x) from 0 to infinity:

∫(e^(-x)dx) from 0 to infinity

We can evaluate this integral by finding the antiderivative:

-∫(e^(-x)dx) = -e^(-x) + C

Now we evaluate the limits:

Lim(a→∞) [-e^(-x)] from 0 to a

= Lim(a→∞) [-e^(-a) + e^(0)]

As a approaches infinity, e^(-a) approaches 0, so the limit becomes:

= -0 + 1 = 1

Since the improper integral of e^(-x) from 0 to infinity converges to a finite value (1), and we have 0 ≤ e^((-x^2)/2) ≤ e^(-x) for all x ≥ 0, we can conclude that the improper Riemann integral of e^((-x^2)/2) from 0 to infinity also converges, according to the comparison test for improper integrals.

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The form of the partial fraction decomposition of the rational expression 7x - 5x/(x²+ 8)² is: (7x - 5) / (x² + 8)² = (Ax + B) / (x²+ 8) + (Cx + D) / (x² + 8)² where A, B, C, and D are constants to be determined.

The expression is:
(7x - 5) / (x² + 8)²

To write the partial fraction decomposition of this expression, we will have two fractions with denominators being the powers of the irreducible quadratic factors. The numerators will have a degree less than the degree of the quadratic factors. In this case, the numerators will be linear expressions.

So, the partial fraction decomposition form for this expression will be:

(7x - 5) / (x² + 8)² = (Ax + B) / (x²+ 8) + (Cx + D) / (x² + 8)²

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The temperature of the solution at any given time while it's being heated at the constant rate of 4.5°C per minute.

The temperature of the chemical solution can be modeled as a linear function of time, given that the solution is heated at a constant rate.

This means that the temperature increases by the same amount for each unit of time.

To find this rate of change, we can use the formula for slope:
slope = (change in temperature)/(change in time)
We are given two points on the line:

(0, 21) and (12, 75).

Using these points, we can find the slope:
slope = (75 - 21)/(12 - 0)

= 4.5
Therefore, the temperature of the solution as a function of time is:
T(x) = 4.5x + 21
Where x is the time in minutes that the solution has been heated.

This equation tells us that the temperature of the solution will increase by 4.5 degrees Celsius for every minute of heating.

This function can be used to predict the temperature of the solution at any point during the heating process.

The temperature of a chemical solution is originally 21°C, and after 12 minutes of heating, it reaches 75°C.

The temperature, T, is a function of x, the heating time in minutes.
To answer this question, let's first find the rate at which the temperature increases.

The difference in temperature is,

75°C - 21°C = 54°C.

Since this change occurs over 12 minutes, the rate of temperature increase is 54°C / 12 minutes = 4.5°C per minute.
Now, we can express the temperature, T, as a function of the heating time, x, using the rate of temperature increase:
T(x) = 21°C + 4.5°C/minute × x
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The following parts can be answered by the concept of critical numbers.

a. The critical numbers: x = (-1, 3)

b.  The intervals between critical numbers.
- f'(x) > 0 for (-∞, -1) and (3, ∞), so the function is decreasing on those intervals: (-∞, -1), (3, ∞).
- f'(x) < 0 for (-1, 3), so the function is increasing on that interval: (-1, 3)

c.  - f'(-1) changes from negative to positive, so there is a relative minimum at x = -1, f(-1) = 0. Hence, relative minimum (x,       ,     y)  = (-1, 0).
- f'(3) changes from positive to negative, so there is a relative maximum at x = 3, f(3) = 75. Hence, relative maximum (x,              y )   = (3, 75).

Given the function f(x) = (5 - x)(x + 1)², we will find the critical numbers, intervals of increasing or decreasing, and apply the First Derivative Test to identify the relative extremum.

(a) The critical numbers are found by setting the first derivative equal to zero.
f'(x) = (-1)(x + 1)² + 2(x + 1)(5 - x) = 0
Solving for x, we find the critical numbers: x = (-1, 3)

(b) To determine intervals of increase or decrease, we examine the sign of f'(x) in the intervals between critical numbers.
- f'(x) > 0 for (-∞, -1) and (3, ∞), so the function is decreasing on those intervals: (-∞, -1), (3, ∞).
- f'(x) < 0 for (-1, 3), so the function is increasing on that interval: (-1, 3)

(c) Applying the First Derivative Test:
- f'(-1) changes from negative to positive, so there is a relative minimum at x = -1, f(-1) = 0. Hence, relative minimum (x, y) = (-1, 0).
- f'(3) changes from positive to negative, so there is a relative maximum at x = 3, f(3) = 75. Hence, relative maximum (x, y) = (3, 75).

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The following parts can be answered by the concept of variable cost.

a. The answer is A. $6.

b. The answer is not one of the options given, but the closest one is C. $13.50.

1. To find the total variable cost of producing 5 units, we need to calculate the difference between the total cost of producing 5 units and the total cost of producing 4 units, which is the last level of output where we have cost data.

Total cost of producing 5 units = $54

Total cost of producing 4 units = $48

Total variable cost of producing 5 units = $54 - $48 = $6

Therefore, the answer is A. $6.

2. To find the average total cost of producing 3 units of output, we need to divide the total cost of producing 3 units by 3.

Total cost of producing 3 units = $41

Average total cost of producing 3 units = $41 / 3 = $13.67 (rounded to the nearest cent)

Therefore, the answer is not one of the options given, but the closest one is C. $13.50.

Therefore, a. The answer is A. $6.

b. The answer is not one of the options given, but the closest one is C. $13.50.

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The smallest positive integer that is not exactly represented as a Float64 is the smallest positive integer larger than 2⁵³.

a) Between an adjacent pair of nonzero Float32 floating point numbers, there are typically many more than just one Float64 number. In fact, there are infinitely many Float64 numbers between any two adjacent Float32 numbers, because Float64 has a much higher precision than Float32. Specifically, the distance between adjacent Float64 numbers is much smaller than the distance between adjacent Float32 numbers, so there is plenty of room for many Float64 numbers to exist in between.

b) The smallest positive integer that is not exactly represented as a Float64 is 2⁵³ + 1. This is because Float64 uses 53 bits to represent the mantissa (i.e. the significant digits), which allows for a maximum of 2⁵³ distinct integers to be represented exactly. Any larger integer will necessarily have some bits that are rounded off or truncated, resulting in an approximation rather than an exact representation.

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The range of scores between the upper and lower quartiles of a distribution is called the interquartile range. The median is the score that divides a distribution into two equal halves, while quartiles divide a distribution into quarters.

The range of scores between the upper and lower quartiles of a distribution is called the interquartile range. The interquartile range (IQR) is the difference between the 75th percentile (upper quartile) and the 25th percentile (lower quartile). It is used to measure the spread of the middle 50% of the data, providing a sense of the distribution's variability. Percentiles are a way of dividing a distribution into hundredths, often used to describe a student's performance relative to their peers.
Quartiles are three values ​​that divide the statistical data into four parts, each containing the same observation. A quarter is a type of quantity. First quartile: Also called Q1 or lower quartile. Second quartile: Also called Q2 or median. Third quarter: Also called Q3 or upper quarter.

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All intermediate P^-1P terms equal the identity matrix (I), and they cancel each other out: A^100 = PD^100P^-1 So, the statement is true.

To determine if this statement is true or false. Let's proceed step by step:

1. We are given A = PDP^-1, where A, P, and D are square matrices, and D is a diagonal matrix.

2. We need to find A^100, which means A multiplied by itself 100 times. Using the given equation, we can compute A^100 as follows: A^100 = (PDP^-1)^100

Now, we can use the property (AB)^n = A^nB^n for diagonalizable matrices: A^100 = (PDP^-1)^100 = PD^100P^-100

Since D is a diagonal matrix, it is easy to compute its power:

D^100 = diag(d1^100, d2^100, ..., dn^100)

We know that the product of inverse matrices equals the identity matrix: P^-1P = I

Therefore, we can rewrite the expression for A^100: A^100

= PD^100P^-100

= PD^100(P^-1P)P^-99

= PD^100IP^-99

= PD^100P^-1P^-98 ... P^-1

Notice that all intermediate P^-1P terms equal the identity matrix (I), and they cancel each other out: A^100 = PD^100P^-1 So, the statement is true.

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In Mrs. Harmon's class of 30 students at Northwest Middle School, approximately 21 students most likely ride the bus, 6 students most likely ride in a car, and 3 students most likely walk to school based on the given percentages.

Based on the given information, we can determine the most likely number of students in Mrs. Harmon's class who ride a bus, ride in a car, and walk to school by applying the percentages to the total number of students in the class.

70% of 30 students = 21 students most likely ride a bus to school

20% of 30 students = 6 students most likely ride in a car to school

10% of 30 students = 3 students most likely walk to school

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(a) P(X > 3) = 0.049

(b) P(3 < X < 5) = 0.115

(c) P(X = 45) = 0

(d) P(X > 5) = 0.286

The given probability density function is f(x) = 2e^(-x/2) for 0 ≤ x < ∞. Since f(x) is a probability density function, it satisfies the following properties:

f(x) is non-negative for all x.

The area under the curve of f(x) over its entire range is equal to 1.

Using these properties, we can find the probabilities as follows:

(a) P(X > 3) = ∫3∞ 2e^(-x/2) dx

= e^(-3/2)

= 0.049 (rounded to three decimal places)

(b) P(3 < X < 5) = ∫3^5 2e^(-x/2) dx

= e^(-3/2) - e^(-5/2)

= 0.115 (rounded to three decimal places)

(c) P(X = 45) = 0, since the probability of a continuous random variable taking any specific value is zero.

(d) P(X > 5) = ∫5∞ 2e^(-x/2) dx

= e^(-5/2)

= 0.286 (rounded to three decimal places)

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The answer for the given probability is none of the above.

The distribution of sample means follows a normal distribution with a mean equal to the population mean and a standard deviation equal to the population standard deviation divided by the square root of the sample size.

Therefore:

mean = 12 ounces

standard deviation = 0.12 ounces

sample size = 625 cans

sample mean = 11.994 ounces

The z-score for a sample mean of 11.994 ounces is:

z = (sample mean - population mean) / (population standard deviation / sqrt(sample size))

z = (11.994 - 12) / (0.12 / sqrt(625))

z = -2.5

We want to find the probability that the sample mean is less than 11.994 ounces, which is equivalent to finding the area under the standard normal distribution to the left of z = -2.5.

Using a standard normal distribution table or calculator, we find that this probability is approximately 0.0062.

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If z = √xy + y, x=cost, and y = sint, then by using the chain rule, when t = π/2, the derivative dz/dt is equal to -1/2.

Here's a step-by-step explanation:

Step 1: Differentiate z with respect to x and y.
Given z = √xy + y, first find the partial derivatives:
∂z/∂x = (1/2)(xy)^(-1/2) * y = y/(2√xy)
∂z/∂y = (1/2)(xy)^(-1/2) * x + 1 = x/(2√xy) + 1

Step 2: Differentiate x and y with respect to t.
Given x = cos(t) and y = sin(t), find their derivatives with respect to t:
dx/dt = -sin(t)
dy/dt = cos(t)

Step 3: Apply the chain rule to find dz/dt.
Using the chain rule, dz/dt = (∂z/∂x) (dx/dt) + (∂z/∂y) (dy/dt)
Substitute the expressions from Steps 1 and 2:
dz/dt = (y/(2√xy))(-sin(t)) + (x/(2√xy) + 1)(cos(t))

Step 4: Evaluate at t = π/2.
At t = π/2, x = cos(π/2) = 0 and y = sin(π/2) = 1
Substitute these values into the expression for dz/dt:
dz/dt = (1/(2√(0)(1)))(-sin(π/2)) + (0/(2√(0)(1)) + 1)(cos(π/2))
dz/dt = (1/2)(-1) + (1)(0)
dz/dt = -1/2

So, when t = π/2, the derivative dz/dt is equal to -1/2.

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A.  Yes, personnel team believe that the mean number is about 10. Based on sample data.

B. Alternate hypothesis is rejected. As the personnel department does not believe that the mean number of sick days is about 10.

C.  Random variable X represents value depends on the particular individuals included in the sample.

D. The distribution to use for the test is t7.

E. The p-value is 0.4659. It represents the probability of getting a sample mean as extreme or more extreme than observed, assuming H0 is true.

A. To determine whether the personnel team should believe that the mean number of sick days per year is about 10, we can conduct a hypothesis test at a significance level of 0.05.

The null hypothesis (H0) is that the true population mean of sick days per year is equal to 10. The alternative hypothesis (Ha) is that the true population mean is not equal to 10.

Using the given data, we can calculate the sample mean as 9.375 and the sample standard deviation as 2.755.

With a sample size of 8, we can use a t-distribution with 7 degrees of freedom to calculate the test statistic.

The calculated t-value is 0.789 and the corresponding two-tailed p-value is 0.449.

Since the p-value is greater than the significance level of 0.05, we fail to reject the null hypothesis.

Therefore, based on the given sample data, we do not have sufficient evidence to suggest that the true population mean of sick days per year is different from 10.

The personnel team should continue to believe that the mean number of sick days per year is about 10.

B. The alternative hypothesis, denoted by Ha, is that the true population mean of the number of sick days taken by employees per year is not equal to 10.

In other words, the personnel department does not believe that the mean number of sick days is about 10.

C. X represents the sample mean of the number of sick days taken by the 8 employees surveyed.

It is a random variable because the 8 employees selected for the survey are a random sample of the population of all employees, and the sample mean will vary if a different sample of 8 employees is selected.

D.  The distribution to use for the test is t7.

E. To calculate the p-value on a TI-84 Plus, you can use the T-Test function.

First, enter the sample data into a list, then press STAT and scroll right to TESTS. Select T-Test and enter the list name and the null hypothesis mean (10 in this case).

For the alternative hypothesis, choose "not equal." Leave the other options as default, and press Calculate.

To manually calculate the p-value for a two-tailed t-test, you would first find the degrees of freedom (df = n-1 = 8-1 = 7).

Then, you would use a t-distribution table or calculator to find the area to the left of -0.789 and to the right of 0.789 (since the test is two-tailed).

Adding these two areas gives the p-value, which in this case is approximately 0.4561.

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Answer:

Pretty sure its B

Step-by-step explanation:

Trust me

A. the gradient of f is[tex]∇f = (ln(yz), x/z, x/y).[/tex]
B. direction in which the maximum rate of change occurs is given by the normalized gradient vector:
∇f_normalized = [tex](∇f(1, 2, 42))/||∇f(1, 2, 42)||.[/tex]

a) To find the gradient of f(x, y, z) = x ln(yz), we need to compute the partial derivatives with respect to x, y, and z. These partial derivatives form the gradient vector (∇f):

[tex]∂f/∂x = ln(yz)∂f/∂y = (x/z)∂f/∂z = (x/y)[/tex]

So, the gradient of f is ∇f = (ln(yz), x/z, x/y).

b) To find the maximum rate of change of f at the point (1, 2, 42) and the direction in which it occurs, we first evaluate the gradient at this point:

∇f(1, 2, 42) = (ln(2*42), 1/42, 1/2) = (ln(84), 1/42, 1/2).

The maximum rate of change is the magnitude of the gradient vector at this point:

||∇f(1, 2, 42)|| = √((ln(84))^2 + (1/42)^2 + (1/2)^2).

The direction in which the maximum rate of change occurs is given by the normalized gradient vector:

∇f_normalized = (∇f(1, 2, 42))/||∇f(1, 2, 42)||.

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Answer: The length of the other diagonal is approximately 5.83 cm (rounded to two decimal places).

Step-by-step explanation:

Label the diagonals of the rhombus as d1 and d2. Since the diagonals of a rhombus intersect at a 90-degree angle, we can use the Pythagorean theorem to relate the diagonals and the side length:

d1^2 = (6/2)^2 + (d2/2)^2

d1^2 = 9 + (d2/2)^2

We also know that the length of one diagonal is 10cm:

d2 = 10

We can substitute this value into the equation for d1:

d1^2 = 9 + (10/2)^2

d1^2 = 9 + 25

d1^2 = 34

Taking the square root of both sides, we get:

d1 = sqrt(34)

In your study to test a new drug with a significance level of 0.01, the Type I error rate will be 1%.



In statistical hypothesis testing, a result has statistical significance when a result at least as "extreme" would be very infrequent if the null hypothesis were true.

The level of significance is defined as the fixed probability of wrong elimination of the null hypothesis when in fact, it is true. The level of significance is stated to be the probability of type I error and is preset by the researcher with the outcomes of the error.

A Type I error occurs when you reject a true null hypothesis. In this case, the null hypothesis is that the drug is ineffective.

The significance level (alpha) is the probability of committing a Type I error.

In your study, the significance level is 0.01.

To express this as a percentage, multiply the significance level by 100:

0.01 × 100 = 1%.

So, the Type I error rate for your study is 1%.

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Answer:

27m^6n^12

Step-by-step explanation:

You can solve this by looking at the exponent (3) outside of the parenthesis. Then you multiply the exponent and all of the numbers inside of the parenthesis and get your answer.

The best method would be exponential smoothing if a data set fluctuates quarterly.

This is because exponential smoothing is a forecasting method that takes into account the previous values in the time series, giving more weight to the more recent data points.

It is particularly effective in dealing with fluctuating data sets where there is no clear pattern or trend.

Simple moving averages may also be effective, but they do not account for the recent changes in the data as much as exponential smoothing does

Autoregressive models and random walk methods are not ideal for fluctuating data sets because they assume a linear trend or random variation respectively.

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In this case, the independent groups t-test helps determine if there is a significant difference in the means of the dependent variable between the two independent groups.

The independent groups t-test may be used to analyze the relationship between two variables when:
1. The two variables consist of one continuous dependent variable and one categorical independent variable with two independent groups (levels).
2. The independent groups are not related or matched in any way, meaning that the data in one group does not influence the data in the other group.
3. The assumption of normality and homogeneity of variances for the continuous dependent variable are met within each group.

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In this case, the independent groups t-test helps determine if there is a significant difference in the means of the dependent variable between the two independent groups.

The independent groups t-test may be used to analyze the relationship between two variables when:
1. The two variables consist of one continuous dependent variable and one categorical independent variable with two independent groups (levels).
2. The independent groups are not related or matched in any way, meaning that the data in one group does not influence the data in the other group.
3. The assumption of normality and homogeneity of variances for the continuous dependent variable are met within each group.

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Standard deviation of X is 9.28 and the expected value of the X^2 is 92.5.
Explanation: - given probability distribution where x is -2,3,5 and f(x) is 0.3, 0.2, 0.5 respectively to the standard deviation we follow the below steps.

(a) Find the standard deviation of X.

Step 1: Find the expected value of X (E[X]).
E[X] = Σ[x * f(x)] = (-2 * 0.3) + (3 * 0.2) + (5 * 0.5) = -0.6 + 0.6 + 2.5 = 2.5

Step 2: Find the expected value of X^2 (E[X^2]).
E[X^2] = Σ[x^2 * f(x)] = (-2^2 * 0.3) + (3^2 * 0.2) + (5^2 * 0.5) = 12 + 18 + 62.5 = 92.5

Step 3: Calculate the variance of X (Var[X]).
Var[X] = E[X^2] - (E[X])^2 = 92.5 - (2.5)^2 = 92.5 - 6.25 = 86.25

Step 4: Find the standard deviation of X (SD[X]).
SD[X] = √Var[X] = √86.25 ≈ 9.28

Thus, standard deviation of X is approximately 9.28.

(b) Find the expected value of X^2.

We have already calculated this value in Step 2 while finding the standard deviation.

The expected value of X^2 is 92.5, rounded off to four decimal places.

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Answer:

A = £5,306.04 (rounded to the nearest penny)Therefore, the value of the investment at the end of 3 years, with compound interest at a rate of 2% per year, is £5,306.04.

Step-by-step explanation:

We can use the formula for compound interest to calculate the value of the investment at the end of 3 years:A = P(1 + r/n)^(nt)where:

A = the amount after 3 years

P = the principal amount (the initial investment)

r = the annual interest rate (as a decimal)

n = the number of times the interest is compounded per year

t = the number of yearsIn this case:

P = £5000

r = 0.02 (2% as a decimal)

n = 1 (compounded annually)

t = 3Plugging these values into the formula, we get:A = 5000(1 + 0.02/1)^(1*3)

A = 5000(1.02)^3

A = 5000(1.061208)

A = £5,306.04 (rounded to the nearest penny)Therefore, the value of the investment at the end of 3 years, with compound interest at a rate of 2% per year, is £5,306.04.

(a)  For a sample size of 105 with a known standard deviation (1.1), Z = -1.87

(b) For a sample size of 17 with an unknown standard deviation, t = -0.75

For scenario (a), since the population is not normally distributed but the standard deviation is known, we should use a one-sample z-test. The formula for the test statistic is:

Z = (sample mean - hypothesized population mean) / (standard deviation / square root of sample size)

Plugging in the given values, we get:

Z = (17 - 17.2) / (1.1 / sqrt(105)) = -1.64

For scenario (b), since the population is normally distributed but the standard deviation is unknown, we should use a one-sample t-test. The formula for the test statistic is:

t = (sample mean - hypothesized population mean) / (sample standard deviation / square root of sample size)

Plugging in the given values, we get:

t = (17 - 17.2) / (1.1 / sqrt(17)) = -1.46

(a) For a sample size of 105 with a known standard deviation (1.1), you should use the Z-test statistic. To calculate the Z-test statistic, use the formula:

Z = (sample mean - population mean) / (standard deviation / sqrt(sample size))

Z = (17 - 17.2) / (1.1 / sqrt(105))
Z = -0.2 / (1.1 / 10.25)
Z = -0.2 / 0.107
Z = -1.87

Your answer for (a): Z = -1.87

(b) For a sample size of 17 with an unknown standard deviation, you should use the t-test statistic. To calculate the t-test statistic, use the formula:

t = (sample mean - population mean) / (sample standard deviation / sqrt(sample size))

t = (17 - 17.2) / (1.1 / sqrt(17))
t = -0.2 / (1.1 / 4.12)
t = -0.2 / 0.267
t = -0.75

Your answer for (b): t = -0.75

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The coefficient of x¹⁴ in this expression gives us the number of ways to distribute the dodgeballs. Therefore, there are 6 ways to clean up the dodgeballs.

This problem can be solved using generating functions. We can represent the number of ways to distribute the dodgeballs using the generating function:

(1 + x + x² + x³ + x⁴ + x⁵)³

The exponent 3 is used because we have 3 bins. Expanding the product, we get:

(1 + x + x² + x³ + x⁴ + x⁵)³

= (1 + x + x² + x³ + x⁴ + x⁵)(1 + x + x² + x³ + x⁴ + x⁵)(1 + x + x² + x³ + x⁴ + x⁵)

= (1 + x + x² + x³ + x⁴ + x⁵)²(1 + x + x² + x³ + x⁴ + x⁵)

We can then use the Binomial Theorem to expand the cube of the binomial:

(1 + x + x² + x³ + x⁴ + x⁵)²

= (1 + x + x² + x³ + x⁴ + x⁵)(1 + x + x² + x³ + x⁴ + x⁵)

= 1 + 2x + 3x² + 4x³ + 5x⁴ + 6x⁵ + 5x⁶ + 4x⁷ + 3x⁸ + 2x⁹ + x¹⁰

Then, we can multiply this expression by the third factor:

(1 + 2x + 3x² + 4x³ + 5x⁴ + 6x⁵ + 5x⁶ + 4x⁷ + 3x⁸ + 2x⁹ + x¹⁰)(1 + x + x² + x³ + x⁴ + x⁵)

= 1 + 3x + 6x² + 10x³ + 15x⁴ + 21x⁵ + 25x⁶ + 27x⁷ + 27x⁸ + 25x⁹ + 21x¹⁰ + 15x¹¹ + 10x¹² + 6x¹³ + 3x¹⁴ + x¹⁵

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Answer:

(-8,1) and (2,1).

Step-by-step explanation:

To find the possible coordinates of point A, we can use the distance formula:

d = √[(x2 - x1)^2 + (y2 - y1)^2]

We know that point B has coordinates (4,1), so we can substitute those values into the formula:

10 = √[(4 - (-2))^2 + (1 - y1)^2]

Simplifying:

10 = √[36 + (1 - y1)^2]

100 = 36 + (1 - y1)^2

64 = (1 - y1)^2

8 = 1 - y1 or -8 = 1 - y1

y1 = -7 or y1 = 9

So the possible coordinates of point A are (-2, -7) and (-2, 9). However, we can also express them as (-8,1) and (2,1) respectively since the x-coordinate of point A is given as -2.

The possible coordinates of A are (-2,-7) and (-2,9).

The coordinates of point B are (4,1).

And, the x-coordinate of point A is -2.

The given distance between points A and B is 10 units.

Let the y-coordinate of point A be y.

Now, A = (-2,y) and B = (4,1)

According to the Distance formula:

[tex]D = \sqrt{(x2-x1)^2 + (y2-y1)^2}[/tex]

The value of D is given as 10.

[tex]\sqrt{(4-(-2))^2 + (1-y)^2} = 10[/tex]

Squaring both sides, we get

[tex](6)^2 +(1-y)^2} = 100[/tex]

[tex](1-y)^{2} = 64[/tex]

[tex]1-y = +8[/tex] and   [tex]1-y = -8[/tex]

y = -7 and y = 9

Possible coordinates of A are (-2,-7) and (-2,9).

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Taking square root on both sides, we get

and

and

Therefore, the possible coordinates of point​ A are either (-4,-5) or (-4,7).

Answer:

Step-by-step explanation:

x equals to 20 because the 15 in subtract the 5 is equal to 15

Answer:

150℅ is 99 from 66

u can calculate as

99=66× X/100

99 = 0.66X

99/0.66 = X

X = 150℅

The following parts can be answered by the concept of Sequence.

1.  The sequence converges to: lim an = 3 + 4/5 = 19/5

2. The formula for the general term of the sequence is: an = 3/5 + 4/(5n) - 3/(5(15n + 1)), n ≥ 1.

For the first part of the question:

We can rewrite the sequence as:

an = 3 + (12n²)/(n + 15n²)

As n approaches infinity, the term (12n²)/(n + 15n²) approaches 12/15 = 4/5. Therefore, the sequence converges to:

lim an = 3 + 4/5 = 19/5

So the limit of the sequence is 19/5.

For the second part of the question:

If we look at the first few terms of the sequence, we can notice that:

a1 = 3 + (12×1)/(1 + 15×1) = 3.44

a2 = 3 + (12×2)/(2 + 15×2) = 3.69

a3 = 3 + (12×3)/(3 + 15×3) = 3.86

a4 = 3 + (12×4)/(4 + 15×4) = 3.98

We can observe that the denominator of each term is n + 15n², which can be factored as n(15n + 1). Therefore, we can rewrite the sequence as:

an = 3 + (12n)/(n(15n + 1))

Simplifying this expression, we get:

an = 3/5 + 4/(5n) - 3/(5(15n + 1))

Therefore, the formula for the general term of the sequence is:

an = 3/5 + 4/(5n) - 3/(5(15n + 1)), n ≥ 1.

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