If we are testing for the difference between two population means and assume that the two populations have equal and unknown standard deviations, the degrees of freedom are computed as (n1)(n2) - 1.
The above statement is False.
In statistics, the number of degrees of freedom is the number of values with independent variables at the end of the statistical calculation. Estimates of statistical data may be based on different data or information. The amount of independent information that goes into the parameter estimation is called the degree of freedom. In general, the degrees of freedom for parameter estimation are equal to the number of independent components involved in the estimation minus the number of parameters used as intermediate steps in the estimation minus the tower of the scale.
When testing for the difference between two population means with equal and unknown standard deviations, the degrees of freedom are computed using the formula:
df = (n1 - 1) + (n2 - 1)
Here, n1 and n2 are the sample sizes of the two populations. This formula sums the degrees of freedom from each population and adjusts for the fact that one degree of freedom is used up when estimating the common standard deviation.
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a contractor estimates he will need 19 sheets of drywall and 85 square feet of tile to remodel a bathroom. he actually needs 16 sheets of drywall and 67 feet of tile. to the nearest percent, what is the difference in the percent errors of the estimates?
The percentage difference in the percent errors of the estimates is approximately 35.6%.
Let's start with the drywall estimate. The estimated value is 19 sheets, while the actual value is 16 sheets. Using the formula, we get:
Percent Error = (|19 - 16| / 16) x 100%
Percent Error = (3 / 16) x 100%
Percent Error = 18.75%
Therefore, the percent error in the drywall estimate is 18.75%.
Now, let's calculate the percent error in the tile estimate. The estimated value is 85 square feet, while the actual value is 67 square feet. Using the formula, we get:
Percent Error = (|85 - 67| / 67) x 100%
Percent Error = (18 / 67) x 100%
Percent Error = 26.87%
Therefore, the percent error in the tile estimate is 26.87%.
To find the difference in the percent errors, we need to subtract the percent error in the drywall estimate from the percent error in the tile estimate and take the absolute value. We then divide the result by the average of the percent errors and multiply by 100 to get the percentage difference. The formula is as follows:
Percentage Difference = |(Percent Error Tile - Percent Error Drywall) / ((Percent Error Tile + Percent Error Drywall) / 2)| x 100%
Plugging in the values, we get:
Percentage Difference = |(26.87% - 18.75%) / ((26.87% + 18.75%) / 2)| x 100%
Percentage Difference = |8.12% / 22.81%| x 100%
Percentage Difference = 35.6%
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Where do erasers go for vacation? missing lengths
Answer: ''pencil veinya'' (Pennsylvania)
Step-by-step explanation:
Han has 410000 in a retirement account that earns 15785 each year. Find the simplest interest
Han's retirement account earns $247,163.25 in simple interest.
To find the simplest interest, we need to use the formula:
Simple Interest = Principal × Rate × Time
In this case, the Principal is $410,000 and the Rate is $15,785 per year. We don't know the time period, but we can solve for it using the formula:
Time = Simple Interest ÷ (Principal × Rate)
Plugging in the values, we get:
Time = $15,785 ÷ ($410,000 × 1) = 0.0385 years
Therefore, the simplest interest is:
Simple Interest = $410,000 × $15,785 × 0.0385 = $247,163.25
So Han's retirement account earns $247,163.25 in simple interest.
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The line plots represent data collected on the travel times to school from two groups of 15 students.
A horizontal line starting at 0, with tick marks every two units up to 28. The line is labeled Minutes Traveled. There is one dot above 10, 16, 20, and 28. There are two dots above 8 and 14. There are three dots above 18. There are four dots above 12. The graph is titled Bus 14 Travel Times.
A horizontal line starting at 0, with tick marks every two units up to 28. The line is labeled Minutes Traveled. There is one dot above 8, 9, 18, 20, and 22. There are two dots above 6, 10, 12, 14, and 16. The graph is titled Bus 18 Travel Times.
Compare the data and use the correct measure of center to determine which bus typically has the faster travel time. Round your answer to the nearest whole number, if necessary, and explain your answer.
Based on the information, we can see from the line plots that Bus 14 tends to have longer travel times than Bus 18 for most of the data points, except for a few outliers.
How to explain the dataIn terms of travel time, Bus 14 and Bus 18 each have a median of 16 minutes. As such, it cannot be inferred from this information alone which mode of transportation tends to arrive more rapidly.
Nevertheless, the line plots reveal that Bus 14's journey takes slightly longer than Bus 18's for most of the data points, except for a few outliers.
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The graph below shows a household’s budget. What angle measure was used to construct the section representing insurance?
43.2°
46.8°
36°
72°
Answer:
[tex].12 \times 360 \: degrees = 43.2 \: degrees[/tex]
Draw random variables X1, X2,..., XN, all independently from
p(X). Suppose you have scalars, a, b, c. What is E[aX1 + bX2 +
cX3]?
What is Var[aX1 + bX2 + cX3]?
The value of the expectation E[aX1 + bX2 + cX3] is aE[X1] + bE[X2] + cE[X3]
The value of the variance Var[aX1 + bX2 + cX3] is a² Var[X1] + b² Var[X2] + c² Var[X3]
We have,
Using the linearity of expectation and the fact that the variables are independent, we have:
E[aX1 + bX2 + cX3]
= aE[X1] + bE[X2] + cE[X3]
And for the variance, using the fact that the variables are independent and using the property Var[aX] = a^2 Var[X], we have:
Var[aX1 + bX2 + cX3]
= Var[aX1] + Var[bX2] + Var[cX3]
= a^2 Var[X1] + b^2 Var[X2] + c^2 Var[X3]
Note that we have used the fact that the covariance between any two distinct X_i, X_j is zero since they are independent,
i.e., Cov[X_i, X_j] = E[X_iX_j] - E[X_i]E[X_j] = E[X_i]E[X_j] - E[X_i]E[X_j] = 0.
Thus,
The value of the expectation E[aX1 + bX2 + cX3] is aE[X1] + bE[X2] + cE[X3]
The value of the variance Var[aX1 + bX2 + cX3] is a² Var[X1] + b² Var[X2] + c² Var[X3]
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What is the least common multiple (LCM) of xy, x^2, and xy-? X Xy^2
Ax
bxy
cx^2y^2
dx^4y^3
The answer is option [tex](cx^2y^2).[/tex]
What is least common multiple (LCM) of xy, x^2, and xy-? X Xy^2To find the least common multiple (LCM) of [tex]xy, x^2,[/tex] and xy^2, we need to factor each term into its prime factors and then take the highest power of each factor.
xy = (x) * (y)
x^2 = (x) * (x)
xy^2 = (x) * [tex](y^2)[/tex]
The prime factorization of the given terms are:
xy = (x) * (y)
x^2 = (x) * (x)
xy^2 = (x) * [tex](y^2)[/tex]
So, the LCM can be found by taking the highest power of each factor, which gives us:
LCM = [tex](x^2)[/tex] * [tex](y^2)[/tex] =[tex]x^2y^2[/tex]
Therefore, the answer is option [tex](cx^2y^2).[/tex]
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From question 1, recall the following definition. Definition. An integer n leaves a remainder of 3 upon division by 7 if there exists an integer k such that n = 7k + 3. (a) Show that the integer n = 45 leaves a remainder of 3 upon division by 7 by verifying the definition above. (b) Show that the integer n = -32 leaves a remainder of 3 upon division by 7 by verifying the definition 3 above. (c) Show that the integer n = 3 leaves a remainder of 3 upon division by 7 by verifying the definition (d) Show that the integer n= -4 leaves a remainder of 3 upon division by 7 by verifying the definition а (e) Use a proof by contradiction to prove the following theorem: Theorem. The integer n = 40 does not leave a remainder of 3 upon division by 7.
This contradicts our assumption, so we conclude that 40 does not leave a remainder of 3 upon division by 7.
(a) To show that 45 leaves a remainder of 3 upon division by 7, we need to find an integer k such that 45 = 7k + 3. We can write 45 as 42 + 3, which gives us 45 = 7(6) + 3. Thus, n = 45 satisfies the definition and leaves a remainder of 3 upon division by 7.
(b) To show that -32 leaves a remainder of 3 upon division by 7, we need to find an integer k such that -32 = 7k + 3. We can write -32 as -35 + 3, which gives us -32 = 7(-5) + 3. Thus, n = -32 satisfies the definition and leaves a remainder of 3 upon division by 7.
(c) To show that 3 leaves a remainder of 3 upon division by 7, we need to find an integer k such that 3 = 7k + 3. We can write 3 as 0 + 3, which gives us 3 = 7(0) + 3. Thus, n = 3 satisfies the definition and leaves a remainder of 3 upon division by 7.
(d) To show that -4 leaves a remainder of 3 upon division by 7, we need to find an integer k such that -4 = 7k + 3. We can write -4 as -7 + 3, which gives us -4 = 7(-1) + 3. Thus, n = -4 satisfies the definition and leaves a remainder of 3 upon division by 7.
(e) To prove that 40 does not leave a remainder of 3 upon division by 7, we assume the opposite, that is, we assume that 40 does leave a remainder of 3 upon division by 7. This means that there exists an integer k such that 40 = 7k + 3. Rearranging this equation gives us 37 = 7k, which means that k is not an integer, since 37 is not divisible by 7. This contradicts our assumption, so we conclude that 40 does not leave a remainder of 3 upon division by 7.
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What is the best way to display data if there is a narrow range, and we want to see the shape of the data?
Multiple Choice
A. frequency table with intervals
B. frequency table
C. stem-and-leaf plot
D. line plot
Answer:
When data has a narrow range and we want to see the shape of the data, the best way to display the data is through a line plot. A line plot is a graphical display of data that uses dots placed above a number line to show the frequency of values in a set of data. It is useful for showing the distribution of a small set of data, especially when the data has a narrow range of values. The line plot allows us to see how many times each value occurs and to identify the mode(s) of the data.
When data has a narrow range and we want to see its shape, a stem-and-leaf plot is the best way to display it. In a stem-and-leaf plot, the data is divided into two parts: the stem and the leaf. The stem is the leftmost digit(s) of each data point, and the leaf is the rightmost digit. This plot allows us to quickly see the distribution of the data and identify any outliers or patterns.
Given the logistic function 3 x(t) = e-1.08 t +0.09 The time needed to reach x(t)= 98 is t=3. Select one: a. True b. False
The statement "Given the logistic function 3 x(t) = e-1.08 t +0.09 The time needed to reach x(t)= 98 is t=3." is :
(b) False
The logistic function is a mathematical function that is used to model growth processes that are limited by saturation. It is often used in the field of biology to model population growth, as well as in economics to model the growth of markets and the adoption of new technologies.
Given the logistic function x(t) = 3e^(-1.08t) + 0.09, you want to determine if x(t) = 98 when t = 3.
Step 1: Plug in t = 3 into the function
x(3) = 3e^(-1.08*3) + 0.09
Step 2: Calculate the result
x(3) ≈ 3e^(-3.24) + 0.09 ≈ 0.0705
Since x(3) ≈ 0.0705 and not 98, the statement "The time needed to reach x(t) = 98 is t = 3" is false. Therefore, the correct answer is:
b. False
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A coin is tossed 4 times. What are the odds against the coin showing heads all 4 times?
The odds against the coin showing heads all 4 times its tossed is 15:1.
Explaining how to get the odd of a tossed coinProbability of getting heads on one toss of a fair coin is 1/2
Since the coin is tossed four times, the probability of getting heads all four times is:
P(H) = (1/2) x (1/2) x (1/2) x (1/2) = 1/16.
Recall that the odds against an event happening are the ratio of the number of ways it can't happen to the number of ways it can happen.
In this case, the number of ways the coin won't show heads all four times is:
P(T) = 15 (there are 16 possible outcomes and only one of them is all heads). Therefore, the odds against the coin showing heads all four times are 15 to 1.
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Select the table of values where the quadratic function changes direction at a different value of x than the others. A. x -3 -2 -1 0 1 2 3 y 4 3 4 7 12 19 28 B. x -3 -2 -1 0 1 2 3 y 1 -1 1 7 17 31 49 C. x -3 -2 -1 0 1 2 3 y 2 3 2 -1 -6 -13 -22 D. x -3 -2 -1 0 1 2 3 y 28 19 12 7 4 3 4 Reset
The solution to the given quadratic equation is x= -3 -2 -1 0 1 2 3 y= 2 3 2 -1 -6 -13 -22.
This table of values contains a quadratic function that changes direction at the value of x = 0. This is different from the other tables of values which all have the quadratic function changing direction at the value of x = -2. The y values in this table of values can be described as an upside-down parabola. At x = 0, the y value is -1 and it decreases as x increases to positive values, and it increases as x decreases to negative values.
Therefore correct answer is C. x -3 -2 -1 0 1 2 3 y 2 3 2 -1 -6 -13 -22.
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A man is twice as his son and ten times as old as his grandson. Their combined age amount to 96 years. How old are they?
The age of the man , his son, and his grandson is equal to 60 years, 30 years, and 6 years old.
Let x be the age of the son
2x be the age of the man since he is twice as old as his son.
let y be the age of the grandson .
The sum of their ages is 96.
x + 2x + y = 96
Simplifying this equation, we get
⇒3x + y = 96
The man is ten times as old as his grandson,
⇒2x = 10y
Simplifying this equation, we get,
⇒x = 5y
Now substitute x = 5y into the first equation,
⇒3x + y = 96
⇒3(5y) + y = 96
⇒15y + y = 96
⇒16y = 96
⇒y = 6
So the grandson is 6 years old.
Using x = 5y
⇒The son is 30 years old.
Finally, the man is 2x = 2(30)
= 60 years old.
Therefore, the man is 60 years old, his son is 30 years old, and his grandson is 6 years old.
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Find the linear approximation of the given function at ( Pi, 0). F(x,y)= square root y +(cos(x))^2 F(x,y)=
The linear approximation of F at (Pi, 0) is [tex]-Pi^2cos^2(Pi).[/tex]
To discover the linear approximation of the given function at (Pi, 0), we need to first discover the partial derivatives of the function with respect to x and y evaluated at (Pi, zero).
Partial derivative of F with recognize to x:
∂F/∂x = -2sin(x)cos(x)
evaluated at (Pi, 0):
∂F/∂x(Pi, 0) = -2sin(Pi)cos(Pi) = 0
Partial derivative of F with recognize to y:
∂F/∂y = 1/(2√y)
evaluated at (Pi, 0):
∂F/∂y(Pi, 0) = 1/(2√0) = undefined
For the reason that partial derivative of F with respect to y is undefined at (Pi, 0), we can't use the multivariable Taylor collection to discover the linear approximation. as an alternative, we will use the formula for the linear approximation:
[tex]L(x,y) = f(a,b) + ∂f/∂x(a,b)(x-a) + ∂f/∂y(a,b)(y-b)[/tex]
Wherein (a,b) is the factor at which we want to find the linear approximation.
In this case, a = Pi and b = 0. So, the linear approximation is:
[tex]L(x,y) = F(Pi, 0) + ∂F/∂x(Pi, 0)(x - Pi)[/tex]
[tex]L(x,y) = sqrt(0) + (cos(Pi))^2(0 - Pi)[/tex]
[tex]L(x,y) = -Pi^2cos^2(Pi)[/tex]
Consequently, the linear approximation of F at (Pi, 0) is [tex]-Pi^2cos^2(Pi).[/tex]
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Question 2 0/1 pt 100 99 Suppose y = anx" on an open interval I that contains the origin. Express the following as a simplified power series in 2 on I. n=0 (5+ – 4x)y" + (2x)y' + 3y M8 an +2 + 10 an +1 + an."
The expression can be expressed as a simplified power series in 2 on interval I as:
n=0 2^n*t^n [an+2 + 10an+1 + an]
To express the given expression as a simplified power series in 2 on interval I, we need to find the derivatives of y and substitute them into the expression.
First, we find the derivatives of y:
y' = an(nx^(n-1)) = nanx^(n-1)
y" = nan(n-1)x^(n-2)
Substituting y', y", and y into the given expression, we get:
(5 - 4x)(nan(n-1)x^(n-2)) + (2x)(nanx^(n-1)) + 3(anx^n)
= 5nan(n-1)x^n - 4nan(n-1)x^(n+1) + 2nanx^(n+1) + 3anx^n
Now we can express this as a power series in 2 by substituting x = 2t:
= 5nan(n-1)(2t)^n - 4nan(n-1)(2t)^(n+1) + 2nan(2t)^(n+1) + 3an(2t)^n
= 5nan(n-1)2^n*t^n - 8nan(n-1)2^(n+1)t^(n+1) + 2nan2^(n+1)t^(n+1) + 3an2^n*t^n
= 2^n*t^n [5nan(n-1) - 8nan(n-1)2t + 2nan(2t) + 3an]
= 2^n*t^n [an+2 + 10an+1 + an]
Therefore, the given expression can be expressed as a simplified power series in 2 on interval I as:
n=0 2^n*t^n [an+2 + 10an+1 + an]
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In a survey of 2728 adults, 1446 say they have started paying bills online in the last year.
Construct a 99% confidence interval for the population proportion. Interpret the results.
Question content area bottom
Part 1
A 99% confidence interval for the population proportion is enter your response here,enter your response here.
(Round to three decimal places as needed.)
Part 2
Interpret your results. Choose the correct answer below.
A.With 99% confidence, it can be said that the population proportion of adults who say they have started paying bills online in the last year is between the endpoints of the given confidence interval.
B.With 99% confidence, it can be said that the sample proportion of adults who say they have started paying bills online in the last year is between the endpoints of the given confidence interval.
C.The endpoints of the given confidence interval show that adults pay bills online 99% of the time.
With 99% confidence, it can be said that the population proportion of adults who say they have started paying bills online in the last year is between the endpoints of the given confidence interval.
Part 1:
To construct a 99% confidence interval for the population proportion, we can use the following formula:
CI = P ± z*√(P(1-P)/n)
where P is the sample proportion, z is the z-score corresponding to the desired level of confidence (in this case, 99%), and n is the sample size.
In this case, P = 1446/2728 = 0.5298, z = 2.576 (from a standard normal distribution table), and n = 2728. Plugging these values into the formula, we get:
CI = 0.5298 ± 2.576√(0.5298(1-0.5298)/2728)
CI = (0.5085, 0.5511)
So the 99% confidence interval for the population proportion is (0.5085, 0.5511).
Part 2:
The correct interpretation is A. With 99% confidence, it can be said that the population proportion of adults who say they have started paying bills online in the last year is between the endpoints of the given confidence interval.
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(a) Find the values of det(M21), det(M22), and det(M23). (M21, M22, M23 are minors)
(b) Find the values of A21, A22, and A23. (A21, A22, A23 are cofactors)
(c) Use your answers from part (b) to compute det(A)
For a matrix, [tex]A = \begin{bmatrix} 3 & 2& 4 \\ 1& -2& 3\\ 2 &3 &2 \end{bmatrix}\\[/tex]
a) The value of det(M₂₁), det(M₂₂), and det(M₂₃) are -8, -2 and 5 respectively.
b) The values of cofactors of matrix A, A₂₁, A₂₂ and A₂₃ are 8, -2 and -5 respectively.
c) The computed value of determinant, det(A) is equals to -3.
Matrix is a set of elements arranged in rows and columns in order to form a rectangular array. We have a matrix A, defined as [tex]A = \begin{bmatrix} 3 & 2& 4 \\ 1& -2& 3\\ 2 &3 &2 \end{bmatrix}\\[/tex]
We have to determine the following values :
a) The minor of matrix is exist for each element of matrix and is equal to the part of the matrix remained after removing the row and the column containing. First we determine the value Minors and then their determinant. [tex]M_{21} = \begin{bmatrix} 2& 4 \\ 3& 2\\ \end{bmatrix}\\[/tex]
det(M₂₁ ) = | M₂₁ | = 2× 2 - 4× 3 = - 8
[tex]M_{22} = \begin{bmatrix} 3& 4 \\ 2& 2\\ \end{bmatrix}\\[/tex]
det(M₂₂) = | M₂₂| = 2× 3 - 4× 2 = - 2
[tex]M_{23} = \begin{bmatrix} 3& 2 \\ 2& 3\\ \end{bmatrix}\\[/tex]
det(M₂₃ ) = | M₂₃ | = 3×3 - 2×2= 5
b) The value of cofactors of matrix A are A₂₁ = (-1)²⁺¹ M₂₁
= -(-8) = 8
A₂₂ = (-1)²⁺² M₂₂ = -2
A₂₃ = (-)²⁺³ M₂₃ = -5
c) Now, we determine the value of determinant of matrix A from part (b).
det(A) = a₂₁ A₂₁ + a₂₂ A₂₂ + a₂₃ A₂₃
= 1× 8 - 2 (-2) + 3( -5)
= -3
Hence, required value is -3.
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The surface area for this composite figure (rounded to the nearest hundredth if needed).
The surface area of the composite figure is 1474 square feet.
In the composite figure, there are two shapes rectangular prism and triangular prism.
Surface area of rectangular prism = 2(lb+bh+hl)
= 2(19×9+9×11+11×19)
= 958 square feet
Surface area of triangular prism = (Perimeter of the base × Length of the prism) + (2 × Base Area)
= (S1 +S2 + S3)L + bh
= (13+13+10)×11+10×12
= 516 square feet
Total surface area = 958+516
= 1474 square feet
Therefore, the surface area of the composite figure is 1474 square feet.
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Help need answers!!! 100 POINTS!!! what does x equal, and what does angle m
Answer:
x = 10.1, AXY = 71.7 degrees
Step-by-step explanation:
There are two ways to solve this problem. You could either do 7x+1+108.3=180 or 180-108.3, then take that number and set it equal to 7x+1.
I will be using the latter. (You can do this because angle YXB is a linear pair with angle AXY. This means they add up to 180. So to find angle AXY, you subtract 180 from 108.3)
[tex]180-108.3=71.7\\\\7x+1=71.7\\\\[/tex]
Subtract one from each side to move variables to the left and constants to the right.
[tex]7x+1-1=71.7-1\\\\7x=70.7[/tex]
Divide seven by both sides to isolate the variable.
[tex]\frac{7x}{7}=\frac{70.7}{7} \\\\x=10.1[/tex]
So now we know what x is. So to find AXY, you substitute it back into the equation.
[tex]7(10.1)+1=71.7\\\\70.1+1=71.7?\\\\71.1=71.7?[/tex]
According to a study on the effects of smoking by pregnant women on rates of asthma in their children, for expectant mothers who smoke 20 cigarettes per day, 22.1% of their children developed asthma by the age of two in the US. A biology professor at a university would like to test if the percentage is lower in another country. She randomly selects 336 women who only deliver one child and smoke 20 cigarettes per day during pregnancy in that country and finds that 70 of the children developed asthma by the age of two. In this hypothesis test, the test statistic, z = and the p-value = (Round your answers to four decimal places.)
the biology professor cannot conclude that the percentage of children who develop asthma in the new country is lower than the percentage observed in the US study.
The biology professor can use hypothesis testing to determine if the percentage of children who develop asthma in the new country is significantly different from the percentage observed in the US study.
Here are the steps she can take:
1. Define the null and alternative hypotheses:
- Null hypothesis (H0): The percentage of children who develop asthma in the new country is the same as the percentage observed in the US study (i.e., 22.1%).
- Alternative hypothesis (Ha): The percentage of children who develop asthma in the new country is lower than the percentage observed in the US study.
2. Determine the test statistic to use:
- The appropriate test statistic for this scenario is the one-sample proportion z-test.
3. Set the significance level (alpha):
- Let's assume a significance level of 0.05.
4. Calculate the test statistic:
- The sample proportion of children who developed asthma in the new country is p = 70/336 = 0.2083.
- The standard error of the sample proportion is SE = sqrt[(p*(1-p))/n] = sqrt[(0.2083*(1-0.2083))/336] = 0.027.
- The test statistic is z = (p - P) / SE, where P is the proportion observed in the US study. So, z = (0.2083 - 0.221) / 0.027 = -0.463.
5. Determine the p-value and make a decision:
- The p-value is the probability of obtaining a test statistic as extreme or more extreme than the observed value, assuming the null hypothesis is true. Using a standard normal distribution table or calculator, we find that the p-value is 0.3212.
- Since the p-value is greater than the significance level of 0.05, we fail to reject the null hypothesis. There is not enough evidence to conclude that the percentage of children who develop asthma in the new country is significantly different from the percentage observed in the US study.
Therefore, the biology professor cannot conclude that the percentage of children who develop asthma in the new country is lower than the percentage observed in the US study.
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In ΔNOP,
m
∠
N
=
(
5
x
−
8
)
∘
m∠N=(5x−8)
∘
,
m
∠
O
=
(
x
−
5
)
∘
m∠O=(x−5)
∘
, and
m
∠
P
=
(
6
x
+
1
)
∘
m∠P=(6x+1)
∘
. Find
m
∠
O
.
m∠O.
The value of angle O is 11 degrees
How to determine the valueIt is important to note that the properties of a triangle are;
A triangle has 3 sidesA triangle has 3 verticesA triangle has 3 anglesFrom the information given, we have the angles;
m<N = 5x - 8
m<O = x - 5
m<P = 6x + 1
Also, the sum of the angles in a triangle is 180 degrees
Now, substitute the angles
m<O + m<P + m<O = 180
5x - 8 + x - 5 + 6x + 1 = 180
collect the like terms
5x + x + 6x = 180 + 12
add the terms
12x = 192
x = 16
For the angle, m<O = x - 5 = 16 -5 = 11 degrees
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You are legally allowed to contribute up to $19,500 (or $1625/mo) to your 401(k). Your company will match up to 6%. It’s time to fill out question 1 on your 401(k) form. Complete below, making sure to consider the rest of your monthly budget from up above:
Question 7
What is the volume of the pyramid? (Round to the nearest tenth)
11.2 m
11 m
8m
Answer:
V = 58.7 m^3
Step-by-step explanation:
The formula is V = 1/3 *b*h
where b is the base area
h is the height
From the diagram,
h= 11m
Now we need to find the area of the base.
The base is made of an equilateral triangle, so we know that one of the sides is 8m.
The area of the base is found: 1/2 * a * l
Where a = 8m
l = a/2 = 8m/2 = 4m
So the area of the base is:
b = 1/2 * 8 m* 4m
b = 16m^2
Now plug this into the volume formula:
V = 1/3 b * h
V = 1/3 * 16m^2 * 11m
V = 58.7 m^3
When Landon moved into a new house, he planted two trees in his backyard. At the time of planting, Tree A was 24 inches tall and Tree B was 40 inches tall. Each year thereafter, Tree A grew by 9 inches per year and Tree B grew by 5 inches per year. Let
�
A represent the height of Tree A
�
t years after being planted and let
�
B represent the height of Tree B
�
t years after being planted. Write an equation for each situation, in terms of
�
,
t, and determine the height of both trees at the time when they have an equal height.
The equations are;
H = 24 + 9x
H = 40 + 5x
How do you convert word equations to mathematical equations?In a word problem, there are usually one or more unknown quantities that you need to find. Identify these unknowns and assign them a variable.
We have to know that Tree A was 24 inches tall and Tree B was 40 inches tall. Each year thereafter, Tree A grew by 9 inches per year and Tree B grew by 5 inches per year.
Then for tree A;
H = 24 + 9x
For tree B
H = 40 + 5x
Where x is the number of years that the trees stay.
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allison's small business earns $10,000 in january. she expects income to increase by 5 percent per month until the end of the year. to use excel to calculate monthly income from february to december, allison can fill a series with a trend
Answer:
Original Money Earned: $10,000
To increase this by 5 percent, we need to multiply $10,000 by 0.05 (5%).
$10,000 x 0.05 = $500
Allison makes $500 (5% of $10,000) per month, so you would add that to the sum of your answer after every previous month.
Now, let's add that.
Feb : $10,000 + 500 = $10,500
Mar : $10,500 + 500 = $11,000
Apr : $11,000 + 500 = $11,500
May : $11,500 + 500 = $12,000
Jun : $12,000 + 500 = $12,500
Jul : $12,500 + 500 = $13,000
Aug : $13,000 + 500 = $13,500
Sep : $13,500 + 500 = $14,000
Oct : $14,000 + 500 = $14,500
Nov : $14,500 + 500 = $15,000
Dec : $15,000 + 500 = $15,500
Allison can fill a series with a trend function in excel to calculate monthly income.
To calculate Allison's monthly income from February to December using Excel, you can use the fill series with a trend function.
1. Open a new Excel spreadsheet.
2. In cell A1, type "January" and in cell B1, type "$10,000" (without quotes) as Allison's January income.
3. In cell A2, type "February".
4. In cell B2, type the formula "=B1*1.05" (without quotes). This formula calculates the income for February by increasing January's income by 5 percent.
5. Click on cell B2 to select it, then move your cursor to the bottom right corner of the cell until the cursor changes into a small black cross.
6. Click and hold the left mouse button, then drag the cursor down to cell B12, which corresponds to December.
7. Release the left mouse button. Excel will fill the series with a trend, calculating the income for each month from February to December.
Hence, Excel is used to calculate Allison's monthly income from February to December, taking into account the expected 5 percent increase per month.
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The manager of a laptop computer dealership is considering a new bonus plan in order to increase sales. Currently, the mean sales rate per salesperson is five laptops per week. The correct set of hypotheses for testing the effect of the bonus plan is a. H0: μ < 5 Ha: μ ≥ 5. b. H0: μ > 5 Ha: μ 5. c. H0: μ 5 Ha: μ > 5. d. H0: μ 5 Ha: μ < 5.
The manager of a laptop computer dealership is considering a new bonus plan in order to increase sales. Currently, the mean sales rate per salesperson is five laptops per week.H0 (null hypothesis) represents the current situation, which is the mean sales rate per salesperson being 5 laptops per week. Ha (alternative hypothesis) represents the expected change, which is an increase in the mean sales rate due to the bonus plan.
The correct set of hypotheses for testing the effect of the bonus plan in this scenario is option c: H0: μ ≤ 5 Ha: μ > 5.
This is because the manager wants to increase sales, which means they are hoping for a higher mean sales rate per salesperson. Therefore, the null hypothesis (H0) is that the mean sales rate is less than or equal to 5 (the current rate), while the alternative hypothesis (Ha) is that the mean sales rate is greater than 5.
Option a (H0: μ < 5 Ha: μ ≥ 5) and option d (H0: μ > 5 Ha: μ < 5) both assume that the manager wants to maintain the current sales rate or decrease it, which is not the case. Option b (H0: μ > 5 Ha: μ < 5) assumes that the manager wants to decrease the sales rate, which is also not the case.
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A random sample of 100 customers at a local ice cream shop were asked what their favorite topping was. The following data was collected from the customers.
Topping Sprinkles Nuts Hot Fudge Chocolate Chips
Number of Customers 12 17 44 27
Which of the following graphs correctly displays the data?
a bar graph titled favorite topping with the x axis labeled topping and the y axis labeled number of customers, with the first bar labeled sprinkles going to a value of 17, the second bar labeled nuts going to a value of 12, the third bar labeled hot fudge going to a value of 27, and the fourth bar labeled chocolate chips going to a value of 44
a bar graph titled favorite topping with the x axis labeled topping and the y axis labeled number of customers, with the first bar labeled nuts going to a value of 17, the second bar labeled sprinkles going to a value of 12, the third bar labeled chocolate chips going to a value of 27, and the fourth bar labeled hot fudge going to a value of 44
a histogram titled favorite topping with the x axis labeled topping and the y axis labeled number of customers, with the first bar labeled sprinkles going to a value of 17, the second bar labeled nuts going to a value of 12, the third bar labeled hot fudge going to a value of 27 ,and the fourth bar labeled chocolate chips going to a value of 44
a histogram titled favorite topping with the x axis labeled topping and the y axis labeled number of customers, with the first bar labeled nuts going to a value of 17, the second bar labeled sprinkles going to a value of 12, the third bar labeled chocolate chips going to a value of 27, and the fourth bar labeled hot fudge going to a value of 44
Assuming that the conditions for inference have been met, identify the correct test statistic for amanda's significance test.
a. z = 180 - 300 / â300 (49)(51)
b. z = 0.49 - 0.60 / â0.49(0.51)/300
c. z = 0.49 - 0.60/ â0.600(0.40)/300
The correct test statistic for Amanda's significance test would be option B:
z = (0.49 - 0.60) / sqrt(0.49(0.51)/300)
This is because option B includes the sample proportion and the sample size, which are necessary for calculating the test statistic for a significance test involving proportions. The formula for the test statistic for a two-tailed test of a population proportion is:
z = (p - P) / sqrt(P(1 - P) / n)
where p is the sample proportion, P is the hypothesized population proportion, and n is the sample size.
In this case, we are not given the hypothesized population proportion, so we use the sample proportion as an estimate. The formula becomes:
z = (p - P) / sqrt(P(1 - P) / n) = (p - 0.5) / sqrt(0.5(0.5) / n) = (0.49 - 0.5) / sqrt(0.5(0.5) / 300)
Simplifying this expression gives us the test statistic in option B.
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the ratio of students who prefer pineapple to students who prefer kiwi is 12 to 5. which pair of equivalent ratios could be used to find how many students prefer kiwi if there are 357 total students
To find out how many students prefer Kiwi when there are 357 total students, we can use the equivalent ratios of 5:12 or 12:5.
The ratio of students who prefer pineapple to students who prefer kiwi is given as 12 to 5, which means that for every 12 students who prefer pineapple, 5 students prefer kiwi. We can represent this ratio as 12:5.
To find out how many students prefer kiwi, we need to determine the proportion of the total number of students that prefer kiwi. Since the total number of students is 357, we can set up a proportion with the ratio of students who prefer Kiwi to the total number of students. Using the equivalent ratio of 5:12, we can set up the proportion as follows:
5/12 = x/357
Here, x represents the number of students who prefer Kiwi. To solve for x, we can cross-multiply and simplify the proportion as follows:
5 * 357 = 12 * x
1785 = 12x
x = 1785/12
x = 148.75
Since we cannot have a fractional number of students, we need to round our answer to the nearest whole number. Therefore, we can conclude that approximately 149 students prefer Kiwi out of a total of 357 students.
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Draw the Voronoi tile for the following data set (-1,-1), (-1,1), (1,-1), (1,1),(0,0) around the Assume that the point(0,0) has a classification and all the other points have a + classification. If we use 1-nearest neighbors, what will be probability of a point chosen uniformly at random in the region -1 5xs1,-15 y s 1 to be classified as '+'? [5 Marks)
The probability of a point chosen uniformly at random in the region [tex]-1\leq x\leq1[/tex] and [tex]-1\leq y\leq1[/tex] to be classified as '+' is [tex](\frac{4 - A_{minus}}{4})[/tex].
To draw the Voronoi tile for the given data set and find the probability of a point being classified as '+', follow these steps:
1. Plot the data points: Plot the points (-1,-1), (-1,1), (1,-1), (1,1), and (0,0) on a graph. Label (0,0) as '-' and the other points as '+'.
2. Construct the Voronoi diagram:
For each pair of neighboring '+' points, draw a line that is equidistant from both points and bisects the line connecting them. These lines will divide the space into regions called Voronoi tiles, where each tile contains one data point, and any point within that tile is closer to the data point it contains than to any other data point.
3. Identify the tile containing the '-' point:
In this case, the Voronoi tile surrounding (0,0) will be the region that is closer to the '-' point than to any '+' point.
4. Calculate the area of the Voronoi tile containing the '-' point:
Since we are considering the region [tex]-1\leq x\leq1[/tex] and [tex]-1\leq y\leq1[/tex], find the area of the intersection of this region with the Voronoi tile containing the '-' point.
5. Calculate the total area of the considered region: The total area of the considered region is
(-1 to 1)(-1 to 1) = 2(2) = 4 square units.
6. Determine the probability of a point being classified as '+':
The probability of a point chosen uniformly at random in the considered region being classified as '+' is equal to the ratio of the area of the region not covered by the '-' Voronoi tile to the total area of the considered region.
Let's say the area of the '-' Voronoi tile is [tex]A_{minus}[/tex]. Then, the probability of a point being classified as '+' is [tex](\frac{4 - A_{minus}}{4})[/tex].
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