The line segment HG of the quadrilateral EFGH is similar to UT, hence HG is congruent to UT which makes the option C correct.
What are similar shapesSimilar shapes are two or more shapes that have the same shape, but different sizes. In other words, they have the same angles, but their sides are proportional to each other. When two shapes are similar, one can be obtained from the other by uniformly scaling (enlarging or reducing) the shape.
Given that the quadrilateral RSTU ≅ quadrilateral EFGH, thus we can say that their corresponding sides are congruent
Therefore, since the quadrilateral RSTU is similar to EFGH, then HG segment corresponds with UT and HG is congruent to UT.
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If the sum of deviations of 100 observations from 20 is 5, whatwould be the maximum total number of them such that each of whichis at least 5?If the sum of deviations of 100 observations from 20 is 5, what would be the maximum total number of them such that each of which is at least 5? Answer:
The maximum total number of observations that could meet this criteria would be 20/0.05 = 400. However, it's important to note that this assumes that there are no negative deviations, which may not be the case in real-world situations.
To answer your question, let's break it down. We have 100 observations with a sum of deviations from 20 equal to 5. We need to find the maximum number of observations that have a deviation of at least 5.
Since the sum of deviations is 5, this means that there are some observations with positive deviations (greater than 20) and some with negative deviations (less than 20). To maximize the number of observations with a deviation of at least 5, we need to minimize the deviations for the observations less than 20.
Assume x observations have a deviation of -1 (19), then the remaining (100 - x) observations must have a deviation of 5 or more to balance the sum of deviations to 5.
x*(-1) + (100 - x)*5 = 5
-1x + 500 - 5x = 5
-6x = -495
x = 82.5
Since the number of observations must be a whole number, we round down to 82. Therefore, the maximum total number of observations with a deviation of at least 5 would be (100 - 82) = 18.
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2. 4.1-4. Select an (even) integer randomly from the set {12, 14, 16, 18, 20, 22}. Then select an integer randomly from the set {12, 13, 14, 15, 16, 17). Let X equal the integer that is selected from the first set and let y equal the sum of the two integers. (a) Show the joint pmf of X and Y on the space of X and Y. (b) Compute the marginal pmfs. (c) Are X and Y independent?Why or why not?
P(X=14, Y=24) is not equal to P(X=14) *P(Y=24) so X and Y are not independent.
(a-b)There are 6 numbers in first set so probability of selecting any number from first set is 1/6. That is
P(X=x) = 1/6
Let X2 shows the number selected from second set. Since there are 6 numbers in 2nd set so probability of selecting any number from second set is 1/6. That is
P(X2=x2) = 1/6
The probability of selecting x from set one and x2 from set 2 is
P(X=x, X2=x2) = P(X=x)P(X2=x2) = (1/6) * (1/6) = 1/36
Since Y = x+x2 so
P(Y=y) = P(X=x, X2=x2) = P(X=x)P(X2=x2) = (1/6) * (1/6) = 1/36
Following table shows all possible values of X, X2 and Y:
(Check attachments 1, 2)
Following table shows the above joint pdf in other form and also marginal pdfs: (Check attachments 3)
The marginal pmf of X is
X P(X=x)
12 1/6
14 1/6
16 1/6
18 1/6
20 1/6
22 1/6
The marginals pmfs of Y:
Y P(Y=y)
24 1/36
25 1/36
26 2/36
27 2/36
28 3/36
29 3/36
30 3/36
31 3/36
32 3/36
33 3/36
34 3/36
35 3/36
36 2/36
37 2/36
38 1/36
39 1/36
(c) If X and Y are independent the following must be true for each X and Y :
P(X=x, Y=y) = P(X=x)P(Y=y)
From tables we have
P(X=14, Y=24) = 0, P(X=14) = 1/6, P(Y=24) = 1/36
Since, P(X=14, Y=24) is not equal to P(X=14) *P(Y=24) so X and Y are not independent.
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Put all of these rates of increase in the correct order, from slowest rate of increase to fastest rate of increase: - O(n^2)- O(2^n)- O(n*log(n))- O(n) - O(log(n))- O(n!)
Rates of increase from slowest to fastest.
Here's the correct order: 1. O(log(n)) 2. O(n) 3. O(n*log(n)) 4. O(n^2) 5. O(2^n) 6. O(n!)
The complexity of an algorithm refers to the amount of time and space resources required to execute it. In other words, it describes how efficient an algorithm is in solving a particular problem.
This order represents the increasing complexity and runtime of the algorithms, starting with the slowest rate of increase and ending with the fastest rate of increase.
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There are two independent samples. The first sample is drawn from a population with normal distribution N(m1, 6.22), and the sample mean is 11.2 and the sample size is 45. The second sample is also drawn from a normal distribution N(m2, 8.12), and the sample mean is 12.0 and the sample size is 66.If you hypothesize that the two samples’ populations have the same population mean, choose an appropriate method and evaluate the hypothesis.If you hypothesize that the first sample has a lower population mean than the second sample, choose an appropriate method and evaluate the hypothesis.
The critical value for a one-tailed test is -1.661.
(a) Hypothesis testing for equal population means:
Null hypothesis: The population mean of the first sample is equal to the population mean of the second sample.
Alternative hypothesis: The population mean of the first sample is not equal to the population mean of the second sample.
Since the sample sizes are large and the population standard deviations are unknown, we can use the two-sample t-test to evaluate this hypothesis. The test statistic is calculated as:
t = (x1 - x2) / sqrt((s1^2 / n1) + (s2^2 / n2))
where x1 and x2 are the sample means, s1 and s2 are the sample standard deviations, and n1 and n2 are the sample sizes.
Substituting the values given in the question, we have:
t = (11.2 - 12.0) / sqrt((6.22² / 45) + (8.12² / 66)) = -1.387
Using a significance level of 0.05 and degrees of freedom of 107, the critical value for a two-tailed test is ±1.984. Since the calculated t-value (-1.387) does not exceed the critical value, we fail to reject the null hypothesis. There is not enough evidence to conclude that the population means of the two samples are different.
(b) Hypothesis testing for a lower population mean:
Null hypothesis: The population mean of the first sample is greater than or equal to the population mean of the second sample.
Alternative hypothesis: The population mean of the first sample is less than the population mean of the second sample.
Since we are hypothesizing a directional difference between the two populations, we can use a one-tailed t-test. The test statistic is calculated as:
t = (x1 - x2) / sqrt((s1² / n1) + (s2² / n2))
Substituting the values given in the question, we have:
t = (11.2 - 12.0) / sqrt((6.22² / 45) + (8.12² / 66)) = -1.387
Using a significance level of 0.05 and degrees of freedom of 107, the critical value for a one-tailed test is -1.661. Since the calculated t-value (-1.387) does not exceed the critical value, we fail to reject the null hypothesis.
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What are congruent triangles?
A
triangles with the same length sides, but different size angles
B
triangles with the same length sides and same size angles
C
triangles with different length sides, but identical angles
D
four triangles that fit inside a square perfectly
Answer:
B
Step-by-step explanation:
In class, we considered binary trees and ternary trees. We may define a k-ary tree in a similar fashion. In such a tree, each vertex has k upward branches, any of which may be empty. Find the number of k-ary trees on n vertices.
The number of k-ary trees on n vertices is k^(n-1), as stated earlier.
To count the number of k-ary trees on n vertices, we can use the recursive formula:
[tex]T(n) = k^{(n-1)} for n > 0, and T(0) = 1.[/tex]
The reasoning behind this formula is that if we start with a single vertex, we can add k-1 branches coming out of it to create a tree with 2 vertices. Then, for each subsequent vertex we add, we can attach k branches to it, and there are n-1 vertices left to add branches to.
The total number of k-ary trees on n vertices is the product of [tex]k^{(n-1)}[/tex] for each vertex added.
If k = 2 and n = 3, we can build the following trees:
/ / \ / \
| |
* *
There are [tex]2^{(3-1)} = 4[/tex] binary trees on 3 vertices, and we can confirm this by counting them in the diagram above.
If k = 3 and n = 2, there are [tex]3^{(2-1)} = 3[/tex] ternary trees on 2 vertices:
/|\ /|\ /|\
Again, we can count them in the diagram above.
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[4T] The function y = x^4 – 2kx^3 - 10x^2 + k^2x has a local extrema when x = 1. Determine the possible value(s) of the constant k, if any. Check a derivative: -0.2 marks Buy a derivative: -1.0 marks
The possible values of the constant k that give the function y = x^4 – 2kx^3 - 10x^2 + k^2x a local extrema at x = 1 are k = 8 and k = -2.
To find the possible value(s) of the constant k that give the function y = x^4 – 2kx^3 - 10x^2 + k^2x a local extrema at x = 1, we need to take the derivative of the function and set it equal to 0:
y' = 4x^3 - 6kx^2 - 20x + k^2
At x = 1, this becomes:
4 - 6k - 20 + k^2 = 0
Simplifying:
k^2 - 6k - 16 = 0
Using the quadratic formula, we get:
k = 3 ± √25
So the possible values of k are k = 8 and k = -2.
To check that these values give a local extrema at x = 1, we can use the second derivative test. Taking the second derivative of the function:
y'' = 12x^2 - 12kx - 20
At x = 1, this becomes:
12 - 12k - 20 = -12k - 8
For k = 8, we have y''(1) = -104, which is negative, so x = 1 is a local maximum. For k = -2, we have y''(1) = 8, which is positive, so x = 1 is a local minimum.
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Find equations for the horizontal tangent lines to the curve y=x−3x−2. Also, find equations for the lines that are perpendicular to these tangent lines at the points of tangency.
The equations for the horizontal tangent lines to the curve y = x³ − 3x − 2 are y = -4 and y = 0. The equations for the lines that are perpendicular to these tangent lines at the points of tangency are x = 1 and x = -1, respectively.
To find the horizontal tangent lines to the curve y = x³ − 3x − 2, we need to first find the points where the derivative of the function equals zero.
Derivative of y with respect to x: y' = 3x² - 3
Set y' to 0 to find the points of tangency:
0 = 3x² - 3
x² = 1
x = ±1
Now, plug these x-values back into the original equation to find the corresponding y-values:
y(1) = (1)³ - 3(1) - 2 = -4
y(-1) = (-1)³ - 3(-1) - 2 = 0
So, the points of tangency are (1, -4) and (-1, 0). Since the tangent lines are horizontal, their slopes are 0, and their equations are:
y = -4 (for the point (1, -4))
y = 0 (for the point (-1, 0))
Now, to find the equations of the lines perpendicular to these tangent lines, we need to use the negative reciprocal of their slopes. Since the tangent lines have a slope of 0, the perpendicular lines have undefined slopes, which means they are vertical lines. The equations of these vertical lines are:
x = 1 (perpendicular to the tangent at the point (1, -4))
x = -1 (perpendicular to the tangent at the point (-1, 0))
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Find an equation of the tangent plane to the surface at the given point. f(x, y) = = (1, 3, 3) X 10 z 10 5 5 x X 10 Use Lagrange multipliers to find the minimum distance from the curve or surface to
To find an equation of the tangent plane to the surface f(x, y) = x^10z + 10y^5x at the point (1, 3, 3), we first need to find the partial derivatives of the function with respect to x, y, and z:
fx = 10x^9z + 10y^5
fy = 50y^4x
fz = x^10
At the point (1, 3, 3), these partial derivatives are:
fx(1, 3, 3) = 10(1)^9(3) + 10(3)^5 = 3640
fy(1, 3, 3) = 50(3)^4(1) = 1350
fz(1, 3, 3) = (1)^10 = 1
So the equation of the tangent plane is:
3640(x-1) + 1350(y-3) + 1(z-3) = 0
To use Lagrange multipliers to find the minimum distance from the curve or surface to a point, we need to set up the following system of equations:
f(x,y,z) = distance^2 = (x-a)^2 + (y-b)^2 + (z-c)^2
g(x,y,z) = constraint = equation of curve or surface
We then set up the Lagrangian:
L(x,y,z,λ) = f(x,y,z) - λ(g(x,y,z))
and find the critical points by setting the partial derivatives equal to zero:
∂L/∂x = 2(x-a) - λ(∂g/∂x) = 0
∂L/∂y = 2(y-b) - λ(∂g/∂y) = 0
∂L/∂z = 2(z-c) - λ(∂g/∂z) = 0
∂L/∂λ = g(x,y,z) = 0
Solving this system of equations will give us the minimum distance from the curve or surface to the point (a,b,c). However, since you did not specify the curve or surface, I cannot provide a specific answer to this part of the question.
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A physician wanted to estimate the mean length of time that a patient had to wait to see him after arriving at the office. A random sample of 50 patients showed a mean waiting time of 36 minutes and a standard deviation of 10 minutes. The 95% confidence interval for the mean waiting time is closest to
a. (34.19, 37.81)
b. (33.23, 38.77)
c. (32.36, 39.64)
d. (33.67.38.32)
e. (32.93, 39.07)
The 95% confidence interval for the mean waiting time is closest to (33.23, 38.77). The correct answer is option b.
To calculate the 95% confidence interval for the mean waiting time, we will use the following formula:
CI = X ± (Z * (σ/√n))
where X is the sample mean, Z is the Z-score for a 95% confidence interval, σ is the standard deviation, and n is the sample size.
In this case, X = 36 minutes, σ = 10 minutes, and n = 50 patients.
First, we need to find the Z-score for a 95% confidence interval, which is 1.96.
Next, we'll calculate the standard error (σ/√n): 10/√50 ≈ 1.414
Now, we can calculate the margin of error: 1.96 * 1.414 ≈ 2.77
Finally, we can determine the confidence interval:
Lower limit: 36 - 2.77 = 33.23
Upper limit: 36 + 2.77 = 38.77
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- The parametric curve x(t) = 4.sin(2.t), y(t) = -4. (cos(2.t) + 1), z(t) = 8.cos(t) lies on the following surfaces: 1. The sphere of equation A 2. The cone of equation 3. The circular cylinder of equetion
1. The equation of the sphere is [tex]x^2 + (y + 4)^2 + z^2 = 64[/tex].
2. The equation of the cone is [tex]x^2 + (y + 4)^2 = z^2[/tex].
3. The equation of the circular cylinder is [tex]x^2 + (y + 4)^2 = 0[/tex].
We have,
The given parametric curve is:
x(t) = 4 sin(2t)
y(t) = -4 (cos(2t) + 1)
z(t) = 8 cos(t)
1)
The sphere of equation A:
A sphere equation in general form is given by:
[tex](x - a)^2 + (y - b)^2 + (z - c)^2 = r^2[/tex]
where (a, b, c) is the center of the sphere, and r is the radius.
Comparing the given parametric equations with the general form of the sphere equation, we have:
[tex](x - 0)^2 + (y - (-4))^2 + (z - 0)^2 = (8)^2[/tex]
Simplifying and rearranging, we get:
[tex]x^2 + (y + 4)^2 + z^2 = 64[/tex]
This is the equation of a sphere centered at the origin with a radius of 8.
2)
The cone of equation B:
A cone equation in general form is given by:
[tex](x - a)^2 + (y - b)^2 = c^2(z - h)^2[/tex]
where (a, b, h) is the vertex of the cone, and c is a constant that determines the slope of the cone.
Comparing the given parametric equations with the general form of the cone equation, we have:
[tex](x - 0)^2 + (y - (-4))^2 = (z - 0)^2[/tex]
Simplifying and rearranging, we get:
[tex]x^2 + (y + 4)^2 = z^2[/tex]
This is the equation of a cone with a vertex at the origin and slope 1.
3)
The circular cylinder of equation C:
A circular cylinder equation in general form is given by:
[tex](x - a)^2 + (y - b)^2 = r^2[/tex]
where (a, b) is the center of the base circle of the cylinder, and r is the radius of the base circle.
Comparing the given parametric equations with the general form of the cylinder equation, we have:
[tex](x - 0)^2 + (y - (-4))^2 = 0[/tex]
This simplifies to:
[tex]x^2 + (y + 4)^2 = 0[/tex]
This equation has no real solutions, which means the given parametric curve does not lie on a circular cylinder with a non-zero radius.
Thus,
1. The equation of the sphere is [tex]x^2 + (y + 4)^2 + z^2 = 64[/tex].
2. The equation of the cone is [tex]x^2 + (y + 4)^2 = z^2[/tex].
3. The equation of the circular cylinder is [tex]x^2 + (y + 4)^2 = 0[/tex].
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pls help me with this. this assignment is due tomorrow morning
Answer:
64
Step-by-step explanation:
I just know
Complete each nuclear fission reaction.
239/94 Pu + 1/0 n → B/C Ba + 91/38 Sr + 3 1/0 n
What is B and C?
The value of B and C for barium(Ba) is 146 and 56 respectively .
Given,
239/94 Pu + 1/0 n ⇒ B/C Ba + 91/38 Sr + 3 1/0 n
Sum of mass number in reactant side is 239+1=240
Sum of atomic number in reactant side is 94+0=94
so the product side sum of mass number should also be 240 and that of atomic number should be 94 .
So to calculate the mass number of barium,
B + 91 + 3*1 = 240
B = 146
Next to calculate the atomic number,
C + 38 + 3*0 = 94
C = 56
Thus the value of atomic number (C) and mass number (B) is 56 and 146 respectively .
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I NEED HELP ASAP IT'S DUE IN 20MIN
Question 2
The box plot represents the number of tickets sold for a school dance.
A horizontal line labeled Number of Tickets sold that starts at 8, with tick marks every one unit up to 30. The graph is titled Tickets Sold for A Dance. The box extends from 17 to 21 on the number line. A line in the box is at 19. The lines outside the box end at 10 and 27.
Which of the following is the appropriate measure of center for the data, and what is its value?
The mean is the best measure of center, and it equals 19.
The median is the best measure of center, and it equals 4.
The median is the best measure of center, and it equals 19.
The mean is the best measure of center, and it equals 4.
Question 5
A recent conference had 900 people in attendance. In one exhibit room of 80 people, there were 65 teachers and 15 principals. What prediction can you make about the number of principals in attendance at the conference?
There were about 820 principals in attendance.
There were about 731 principals in attendance.
There were about 208 principals in attendance.
There were about 169 principals in attendance.
Question 6
A teacher was interested in the subject that students preferred in a particular school. He gathered data from a random sample of 100 students in the school and wanted to create an appropriate graphical representation for the data.
Which graphical representation would be best for his data?
Stem-and-leaf plot
Histogram
Circle graph
Box plot
Question 7
A random sample of 100 middle schoolers were asked about their favorite sport. The following data was collected from the students.
Sports Basketball Baseball Soccer Tennis
Number of Students 17 12 27 44
Which of the following graphs correctly displays the data?
histogram with the title favorite sport and the x axis labeled sport and the y axis labeled number of students, with the first bar labeled basketball going to a value of 17, the second bar labeled baseball going to a value of 12, the third bar labeled soccer going to a value of 27, and the fourth bar labeled tennis going to a value of 44
histogram with the title favorite sport and the x axis labeled sport and the y axis labeled number of students, with the first bar labeled baseball going to a value of 17, the second bar labeled basketball going to a value of 12, the third bar labeled tennis going to a value of 27, and the fourth bar labeled soccer going to a value of 44
bar graph with the title favorite sport and the x axis labeled sport and the y axis labeled number of students, with the first bar labeled basketball going to a value of 17, the second bar labeled baseball going to a value of 12, the third bar labeled soccer going to a value of 27, and the fourth bar labeled tennis going to a value of 44
bar graph with the title favorite sport and the x axis labeled sport and the y axis labeled number of students, with the first bar labeled baseball going to a value of 17, the second bar labeled basketball going to a value of 12, the third bar labeled tennis going to a value of 27, and the fourth bar labeled soccer going to a value of 44
Question 8
A New York City hotel surveyed its visitors to determine which type of transportation they used to get around the city. The hotel created a table of the data it gathered.
Type of Transportation Number of Visitors
Walk 120
Bicycle 24
Car Service 45
Bus 30
Subway 81
Which of the following circle graphs correctly represents the data in the table?
circle graph titled New York City visitor's transportation, with five sections labeled walk 80 percent, bus 16 percent, car service 30 percent, bicycle 20 percent, and subway 54 percent
circle graph titled New York City visitor's transportation, with five sections labeled walk 40 percent, bicycle 8 percent, car service 15 percent, bus 10 percent, and subway 27 percent
circle graph titled New York City visitor's transportation, with five sections labeled subway 40 percent, bus 8 percent, car service 15 percent, bicycle 10 percent, and walk 27 percent
circle graph titled New York City visitor's transportation, with five sections labeled subway 80 percent, bicycle 20 percent, car service 30 percent, bus 16 percent, and walk 54 percent
Question 9
A college cafeteria is looking for a new dessert to offer its 4,000 students. The table shows the preference of 225 students.
Ice Cream Candy Cake Pie Cookies
81 9 72 36 27
Which statement is the best prediction about the scoops of ice cream the college will need?
The college will have about 480 students who prefer ice cream.
The college will have about 640 students who prefer ice cream.
The college will have about 1,280 students who prefer ice cream.
The college will have about 1,440 students who prefer ice cream.
Answer 2: The correct answer is: "The median is the best measure of center, and it equals 19."
Answer 6: The correct answer is: "Circle graph."
Answer 9: The correct answer is: "The college will have about 1,440 students who prefer ice cream."
What is median?
Median is a measure of central tendency that represents the middle value in a dataset when the values are arranged in order of magnitude
Answer 2:
Based on the given box plot, the appropriate measure of center for the data is the median, as it is less sensitive to extreme values. The median can be estimated by finding the middle value of the data, which corresponds to the vertical line in the box. In this case, the line in the box is at 19, so the median is 19. Therefore, the correct answer is: "The median is the best measure of center, and it equals 19."
Answer 5:
Since there were 900 people in attendance and 80 of them were in the exhibit room, the fraction of the attendees in the exhibit room is 80/900. If we assume that this fraction is representative of the entire conference, we can estimate the number of principals in attendance by multiplying the total number of attendees by this fraction and then multiplying by the fraction of principals in the exhibit room.
Thus, the estimated number of principals in attendance is: 900 * (80/900) * (15/80) = 15. Therefore, the correct answer is: "There were about 15 principals in attendance."
Answer 6:
The best graphical representation for the data on the subject preferences of 100 students in a particular school would be a bar graph or a pie chart. These graphs are suitable for displaying categorical data, where each category (in this case, the different subjects) is represented by a bar or a sector of the pie, and the frequency or percentage of the category is shown on the y-axis or as labels on the pie. Stem-and-leaf plots and histograms are more suitable for displaying quantitative data. Therefore, the correct answer is: "Circle graph."
Answer 7:
The best graph to display this categorical data is a bar graph. Each category of sport can be represented by a bar, with the height of the bar corresponding to the number of students who prefer that sport. Therefore, the correct answer is: "bar graph with the title favorite sport and the x axis labeled sport and the y axis labeled number of students, with the first bar labeled basketball going to a value of 17, the second bar labeled baseball going to a value of 12, the third bar labeled soccer going to a value of 27, and the fourth bar labeled tennis going to a value of 44."
Answer 8:
The best graph to represent this data is a circle graph or a pie chart, as it shows the proportion of visitors who used each type of transportation. The size of each sector in the pie corresponds to the percentage of visitors who used that type of transportation. Therefore, the correct answer is: "circle graph titled New York City visitor's transportation, with five sections labeled walk 40 percent, bicycle 8 percent, car service 15 percent, bus 10 percent, and subway 27 percent."
Answer 9:
To estimate the number of students who prefer ice cream, we can use the proportion of students in the sample who prefer ice cream and assume that it is representative of the entire population of 4,000 students. The proportion of students who prefer ice cream in the sample is 81/225, or 0.36.
Therefore, the estimated number of students who prefer ice cream is: 0.36 * 4,000 = 1,440. Thus, the correct answer is: "The college will have about 1,440 students who prefer ice cream."
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Show all steps and I will make you brainlist.
3 answers and show all steps
Answer:
1) tan(A) = 12/5
2) tan(39°) = 30/x
3) hypotenuse is the side opposite the right angle; opposite side (the leg opposite the 70° angle) is x; adjacent side (the leg adjacent to the 70° angle) is 3.
tan(70°) = x/3, so x = 3tan(70°) = about 8.2
Exhibit 7-3The following information was collected from a simple random sample of a population.
16 ; 19 ; 18 ; 17 ; 20 ; 18
Refer to Exhibit 7-3. The point estimate of the mean of the population is _____.
Select one:
a. 18.0
b. 16, since 16 is the smallest value in the sample
c. 19.6
d. 108
The point estimate of the mean of the population is 18.0.
The point estimate of the mean of a population is the sample mean, which is calculated by adding up the values in the sample and dividing by the sample size.
In this case, the sample consists of six values: 16, 19, 18, 17, 20, and 18. To find the sample mean, we add up these values and divide by 6, giving:
Sample mean = [tex](16 + 19 + 18 + 17 + 20 + 18) / 6 = 18[/tex]
Therefore, the point estimate of the mean of the population is 18.0. This means that based on this sample, we estimate that the true population mean is 18.0.
However, we must be careful not to generalize this estimate beyond the population that was sampled.
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In the 1992 presidential election, Alaska's 40 election districts averaged 2044 votes per district for President Clinton. The standard deviation was 565. (There are only 40 election districts in Alaska.) The distribution of the votes per district for President Clinton was bell-shaped. Let X = number of votes for President Clinton for an election district. (Source: The World Almanac and Book of Facts) Round all answers except part e. to 4 decimal places
The probability that an election district in Alaska had fewer than 1500 votes for President Clinton is 0.1664.
The probability that an election district in Alaska had between 2000 and 2500 votes for President Clinton is 0.7910 - 0.2190 = 0.5720.
Rounding to the nearest whole number, the minimum number of votes needed for an election district in Alaska to be in the top 10% of districts is 2875.
Rounding to the nearest whole number, the range of values that contains the middle 95% of the number of votes for President Clinton in an election district is from 931 to 3157.
The probability that the average number of votes per district for President Clinton in Alaska in the 1992 presidential election was less than 2100 is 0.7340.
Based on the information provided, we know that the average number of votes per district for President Clinton in the 1992 presidential election in Alaska was 2044, with a standard deviation of 565. We also know that the distribution of the votes per district was bell-shaped.
a) To find the probability that an election district in Alaska had fewer than 1500 votes for President Clinton, we need to standardize the value using the formula z = (x - μ) / σ, where x is the value we're interested in, μ is the mean, and σ is the standard deviation. In this case, we have x = 1500, μ = 2044, and σ = 565. So,
z = (1500 - 2044) / 565 = -0.965
Using a standard normal table or calculator, we can find that the probability of getting a z-score less than -0.965 is 0.1664.
b) To find the probability that an election district in Alaska had between 2000 and 2500 votes for President Clinton, we need to standardize both values and find the area between them. So,
z1 = (2000 - 2044) / 565 = -0.780
z2 = (2500 - 2044) / 565 = 0.808
Using a standard normal table or calculator, we can find that the probability of getting a z-score less than -0.780 is 0.2190, and the probability of getting a z-score less than 0.808 is 0.7910.
c) To find the minimum number of votes needed for an election district in Alaska to be in the top 10% of districts, we need to find the z-score that corresponds to the 90th percentile (since the top 10% corresponds to the 90th to 100th percentile). Using a standard normal table or calculator, we can find that the z-score that corresponds to the 90th percentile is approximately 1.28. So,
1.28 = (x - 2044) / 565
Solving for x, we get:
x = 2044 + 1.28 * 565 = 2875.2
d) To find the range of values that contains the middle 95% of the number of votes for President Clinton in an election district, we need to find the z-scores that correspond to the 2.5th and 97.5th percentiles (since the middle 95% corresponds to the 2.5th to 97.5th percentiles). Using a standard normal table or calculator, we can find that the z-score that corresponds to the 2.5th percentile is approximately -1.96, and the z-score that corresponds to the 97.5th percentile is approximately 1.96. So,
-1.96 = (x - 2044) / 565
1.96 = (x - 2044) / 565
Solving for x in both equations, we get:
x1 = 2044 - 1.96 * 565 = 931.4
x2 = 2044 + 1.96 * 565 = 3156.6
e) To find the probability that the average number of votes per district for President Clinton in Alaska in the 1992 presidential election was less than 2100, we need to use the central limit theorem, which states that the sampling distribution of the mean approaches a normal distribution as the sample size increases, regardless of the shape of the population distribution, as long as the sample size is sufficiently large (usually greater than 30). Since we have 40 election districts in Alaska, and we're assuming that they're independent and identically distributed, we can use the normal distribution to approximate the sampling distribution of the mean. The mean of the sampling distribution is equal to the population mean, which is 2044, and the standard deviation of the sampling distribution is equal to the population standard deviation divided by the square root of the sample size, which is 565 / sqrt(40) = 89.216. So,
z = (2100 - 2044) / 89.216 = 0.626
Using a standard normal table or calculator, we can find that the probability of getting a z-score less than 0.626 is 0.7340.
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In the 1992 presidential election, Alaska's 40 election districts averaged 2044 votes per district for President Clinton. The standard deviation was 565. (There are only 40 election districts in Alaska.) The distribution of the votes per district for President Clinton was bell-shaped. Let X = number of votes for President Clinton for an election district. (Source: The World Almanac and Book of Facts) Round all answers except part e. to 4 decimal places
Find the direction angles of each vector. Round to the nearest degree, if necessary. α = = v= i- j + 2 k 69°, B = 111°, y = 45° a = 80°, B = 100°, y = 71° a = 63°, ß = 117°, y = 26° - 66°,
Using a calculator, we can find the direction angles:
α ≈ 66°, β ≈ 246°, γ ≈ 94°
For the vector v = i - j + 2k, we can use the direction angle formulas:
cos α = v1 / ||v||,
cos β = v2 / ||v||,
cos γ = v3 / ||v||
where v1, v2, and v3 are the components of the vector v and ||v|| is its magnitude.
Plugging in the values for v, we get:
cos α = 1 / √6, cos β = -1 / √6, cos γ = 2 / √6
Using a calculator, we can find the direction angles:
α ≈ 69°, β ≈ 231°, γ ≈ 25°
(Note that we subtract β from 360° to get it in the range 0° to 360°.)
For the other vectors, we can use the same formulas:
a) cos α = sin y sin B, cos β = sin y cos B, cos γ = cos a
Plugging in the values, we get:
cos α ≈ 0.474, cos β ≈ 0.582, cos γ ≈ 0.660
Using a calculator, we can find the direction angles:
α ≈ 63°, β ≈ 53°, γ ≈ 48°
b) cos α = sin y cos B, cos β = sin y sin B, cos γ = cos a
Plugging in the values, we get:
cos α ≈ 0.443, cos β ≈ 0.898, cos γ ≈ -0.052
Using a calculator, we can find the direction angles:
α ≈ 64°, β ≈ 26°, γ ≈ 94°
c) cos α = sin y cos ß, cos β = sin y sin ß, cos γ = cos a
Plugging in the values, we get:
cos α ≈ 0.414, cos β ≈ -0.908, cos γ ≈ -0.051
Using a calculator, we can find the direction angles:
α ≈ 66°, β ≈ 246°, γ ≈ 94°
I hope that helps! Let me know if you have any more questions.
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suppose that a data set consisting of the lengths (in millimeters) of hummingbirds' beaks is left skewed (possibly because of the inclusion of young hummingbirds in the sample). after these lengths are standardized, which best describes their unit of measurement? group of answer choices millimeters centimeters meters inches standard deviations above the mean none of the other answers
The unit of measurement after standardization of a left-skewed data set of hummingbirds' beaks lengths would be "standard deviations above the mean".
To answer your question, after standardizing the lengths of hummingbirds' beaks in a left-skewed data set, the best unit of measurement to describe their lengths would be "standard deviations above the mean."
This is because standardization involves subtracting the mean of the data set from each value and dividing the result by the standard deviation. This process results in a new set of values that are expressed in terms of standard deviations from the mean. Therefore, the unit of measurement is no longer in millimeters or any other physical unit, but in standardized units.
Standardizing the data allows for easier comparison by converting the original measurements to units of standard deviations from the mean.
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pls pls help due in an hour
Answer:
B
Step-by-step explanation:
So notice that X(4,-5) turns into X'(4,5)
On the coordinate plane, (x,-y) is in Q.IV and (x,y) is in Q.(I)
So it is a reflection in the x-axis.
ou are given that the probability of event A is 0.203, the probability of event B is 0.343, and the probability of either event A or event B is 0.4851.Enter three correct decimal places in your response. That is, calculate the answer to at least four decimals and report only the first three. For example, if the calculated answer is 0.123456 enter 0.123.What is the probability of both event A and event B? ____________What is the probability that event A doesn't occur? ____________
The probability of both event A and event B is 0.061.
The probability that event A doesn't occur is 0.797.
The probability of both event A and event B can be calculated using the formula for the probability of the union of two events: P(A ∪ B) = P(A) + P(B) - P(A ∩ B).
We are given P(A) = 0.203, P(B) = 0.343, and P(A ∪ B) = 0.485.
Using the formula, we can find the probability of both events A and B (P(A ∩ B)): 0.485 = 0.203 + 0.343 - P(A ∩ B)
P(A ∩ B) = 0.061
The probability of both event A and event B is 0.061.
To find the probability that event A doesn't occur, we can use the complement rule: P(A') = 1 - P(A).
P(A') = 1 - 0.203 = 0.797
The probability that event A doesn't occur is 0.797.
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At Hopewell Electronics, all 140 employees were asked about their political affiliations: Democrat, Republican or Independent. The employees were grouped by type of work, as executives or production workers. The results with row and column totals are shown in the following table. Suppose an employee is selected at random from the 140 Hopewell employees.
Democrat Republican Indepencedent Total
Executive 5 34 9 48
Production Worker 63 21 8 92
Total 68 55 17 140
The probability that this employee is a production worker and is a Republican is about ______.
a. =92/140
b. =34/140
c. =21/92
d. =21/55
e. =21/140
The results with row and column totals are shown in the following table. Suppose an employee is selected at random from the 140 Hopewell employees.Your answer: e. =21/140
To find the probability that the randomly selected employee is a production worker and a Republican, you can follow these steps:
Finding the probability:
1. Identify the number of employees that meet the criteria: 21 production workers are Republican.
2. Divide this number by the total number of employees: 21/140.
Probability = Republic Number of Production Workers / Total Workers
From the table we see that there are 21 Republicans among the production workers, 140 workers total, so:
Probability = 21/140
Simplify the number here, dividing we get both the numerator and the denominator by 7. :
probability = 3/20
So, the probability that the person will do this job is a productive worker and the Republic so 3/20 or about 0.15 so the answer is (e).
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(1 point) A rectangular storage container with an open cop is to have a volume of 10 m. The length of its base is twice the width. Material for the base costs $12 per m². Material for the sides costs $1.6 per m'. Find the dimensions of the container which will minimize cost and the minimum cost. base length =_______base width =________height =_______minimum cost = $
To minimize the cost of the container, we need to find the dimensions that will give us the smallest surface area, since the cost is based on the surface area of the container.
Let's start by using the formula for the volume of a rectangular box:
V = lwh
We know that the volume should be 10 m³, and that the length of the base is twice the width, so we can write:
10 = 2w * w * h
Simplifying:
10 = 2w²h
w²h = 5
Now we need to find an expression for the surface area of the container. Since it has an open top, we don't need to include the cost of any material for the top of the box. The surface area is just the sum of the areas of the four sides and the base:
A = 2lw + 2lh + wh
Substituting l = 2w and h = 5/w² from the volume equation:
A = 4w² + 20/w
To find the minimum cost, we need to take the derivative of this expression and set it equal to zero:
A' = 8w - 20/w² = 0
Multiplying both sides by w²:
8w³ - 20 = 0
w³ = 2.5
w ≈ 1.4 m
Using the volume equation to find the height:
h = 5/w² ≈ 1.8 m
And the length:
l = 2w ≈ 2.8 m
So the dimensions of the container that will minimize cost are:
base length ≈ 2.8 m
base width ≈ 1.4 m
height ≈ 1.8 m
To find the minimum cost, we can substitute these values into the surface area expression:
A = 4w² + 20/w ≈ 25.6 m²
The cost of the base material is $12 per m², so the cost of the base is:
$12 * 2.8m * 1.4m ≈ $47
The cost of the side material is $1.6 per m², so the cost of the sides is:
$1.6 * 25.6m² ≈ $41
The total cost is:
$47 + $41 ≈ $88
So the minimum cost of the container is approximately $88.
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Indicate whether each statement is true or false by circle T for true or F for false. (No justification or explanation required ) Every continuous function on [. has local maximum. (b) If f"(c) 0, then (€ f(c))is an inflection point IC f(4) then critical point: (d) Ifv = 4 then / IF $"() then f() is an local maximum:
The given statement "Every continuous function has local maximum. (b) If f"(c) 0, then (€ f(c))is an inflection point IC f(4) then critical point: (d) Ifv = 4 then / IF $"() then f() is an local maximum" is true because their veracity by analyzing the behavior of the function at critical points and inflection points.
Firstly, a function is a mathematical rule that maps every input value to a unique output value. In simpler terms, a function takes in a number, performs some operations on it, and gives out another number.
Moving on to the second statement, it states that if f"(c) = 0, then (€ f(c)) is an inflection point. This statement is false. An inflection point is a point on the function where the curvature changes from concave up to concave down or vice versa. However, having f"(c) = 0 only means that the function's curvature is neither concave up nor concave down at that specific point. It doesn't necessarily mean that the function has an inflection point.
The third statement states that if f'(x) = 0 and f''(x) < 0, then f(x) is a local maximum. This statement is true. If a function has a critical point (where f'(x) = 0) and f''(x) < 0 at that point, it means that the function is concave down at that point. This concavity indicates that the point is a local maximum.
Lastly, the fourth statement states that if v = 4 and f"(x) < 0, then f(x) is a local maximum. This statement is false. The variable v is not relevant to the statement since it is not a part of the function.
Furthermore, having f"(x) < 0 only means that the function is concave down, but it doesn't necessarily mean that it has a local maximum. The function may have a local minimum or no local extrema at all.
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Determine whether the given conditions justify testing a claim about a population mean μ. If so, what is formula for test statistic? The sample size is n = 25,σ = 5.93, and the original population is normally distributed.
The given conditions justify testing a claim about a population mean μ, and the formula for the test statistic is the z-test formula, Z = (x - μ) / (σ / √n).
To determine whether the given conditions justify testing a claim about a population mean μ, we need to consider the sample size, standard deviation, and the distribution of the original population.
In this case, the sample size is n = 25, the standard deviation (σ) is 5.93, and the original population is normally distributed. Given these conditions, we can proceed with the hypothesis test for the population mean μ.
Since the population standard deviation (σ) is known and the original population is normally distributed, we can use the z-test formula for the test statistic. The formula for the z-test statistic is:
Z = (x - μ) / (σ / √n)
Where:
- Z is the test statistic
- x is the sample mean
- μ is the population mean
- σ is the population standard deviation
- n is the sample size
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Evaluate the integral: S1 -1 x¹⁰⁰dx
The value of the definite integral ∫(-1)¹ x¹⁰⁰ dx is 2/101.
To evaluate the integral S(-1)¹ x¹⁰⁰ dx, we can use the power rule of integration, which states that:
∫ [tex]x^n dx = (x^(n+1)) / (n+1) + C[/tex], where C is the constant of integration.
Applying this formula, we get:
∫ x¹⁰⁰ dx = (x[tex]^(100+1)[/tex]) / (100+1) + C
[tex]= (x^101) / 101 + C[/tex]
To evaluate the definite integral from -1 to 1, we can substitute the limits of integration into the antiderivative and then subtract the result evaluated at the lower limit from the result evaluated at the upper limit:
∫(-1)¹ x¹⁰⁰ dx =[tex][(1^101)/101[/tex] - [tex]((-1)^101)/101][/tex]
= (1/101) - (-1/101)
= 2/101
Therefore, the value of the definite integral ∫(-1)¹ x¹⁰⁰ dx is 2/101.
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The derivative of the function f is given by
f'(x)=e^-xcos(x^2)
What is the minimum value of f(x) for -1
To get the minimum value of f(x), we need to get the critical points of the function.
First, we need to set f'(x) equal to zero: e^-xcos(x^2) = 0
The exponential term e^-x can never be zero, so we can ignore it. This means that cos(x^2) = 0.
The solutions to this equation are x = sqrt((2n+1)pi/2) or x = sqrt(npi), where n is any integer. However, we are only interested in the solutions that lie between -1 and 1, since that is the domain of the function.
The only solution in this range is x = sqrt(pi/2), which is approximately 1.2533.
Next, we need to check whether this critical point is a minimum or a maximum. To do this, we can use the second derivative test. f''(x) = -e^-x(cos(x^2) + 2x^2sin(x^2))
At x = sqrt(pi/2), f''(x) is negative, which means that the critical point is a local maximum. Since there are no other critical points in the domain of the function, this is also the global maximum.
Therefore, there is no minimum value of f(x) for -1
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Which story problem can be answered using this equation?
A.
Liza organizes of her book collection onto 12 different shelves. Two of the shelves are full. How many books are on the remaining shelves?
B.
Kyle has a piece of wood that is of a meter long. He divides it into 12 equal parts and uses 2 parts for a project. How many meters of wood does he use for his project?
C.
There is of a gallon of lemonade. Pat equally pours this lemonade into 3 cups. Two of the cups spill. How much lemonade remains in the cups?
D.
Korey divides off a box of cereal into 3 equal piles. She gives away 2 of the piles, and keeps the rest for herself. How much
Option B. B. Kyle has a piece of wood that is ⅓ of a meter long. He divides it into 12 equal parts and uses 2 parts for a project. How many meters of wood does he use for his project?
How to solve for the equationThe equation referred to in the question is not given, but based on the information provided in the problem, it seems like it may be:
Length of each part = (Total length of wood)/(Number of parts)
Using this equation, we can find the length of each part:
Length of each part = (1/3 m) / 12 = 0.0278 m
Kyle uses 2 parts for his project, so the total length of wood he uses is:
Total length used = 2 * 0.0278 m = 0.0556 m
Therefore, Kyle uses 0.0556 meters of wood for his project.
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A sample of10 households was asked about their monthly income (X) and the number of hours they spend connected to the internet each month (Y). The data yield the following statistics: = 324, = 393, = 15210, = 17150, = 2599. What is the value of the coefficient of determination?
The coefficient of determination is approximately 0.7167.
To calculate the coefficient of determination (R²), we first need to find the correlation coefficient (r). The given statistics are not clearly labeled, so I will assume the following:
- ΣX = 324
- ΣY = 393
- ΣX² = 15210
- ΣY² = 17150
- ΣXY = 2599
Now, let's find the correlation coefficient (r) using the formula:
r = (n * ΣXY - ΣX * ΣY) / sqrt((n * ΣX² - (ΣX)²) * (n * ΣY² - (ΣY)²))
Where n is the number of households (10 in this case).
Plugging the given values into the formula:
r = (10 * 2599 - 324 * 393) / sqrt((10 * 15210 - 324²) * (10 * 17150 - 393²))
After calculating, we get:
r ≈ 0.8468
Now, we can find the coefficient of determination (R²) by squaring the correlation coefficient (r):
R² = r² = (0.8468)²
R² ≈ 0.7167
Therefore, the coefficient of determination is approximately 0.7167.
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un automovil viaja de una ciudad a otra que esta a 163km y tarda 2 horas y media. ¿cual es su velocidad
The velocity of the car traveling from one city to another that is 163 km away and takes 2 and a half hours to reach can be calculated as 65.2 km/hour. This is determined by dividing the distance traveled by the time taken, or 163 km / 2.5 hours.
What is velocity?Velocity is a measure of an object's displacement over time. It specifies both the object's speed and direction of movement, and is expressed in units of distance per unit of time, such as meters per second or kilometers per hour.
What is distance?Distance is the measure of how far apart two points or objects are. It is typically measured in units such as kilometers, miles, meters, or feet.
According to the given information:
To find the velocity of the car, we need to use the formula:
Velocity = Distance / Time
In this case, the distance traveled by the car is 163km and the time taken to travel that distance is 2.5 hours.
Substituting the values into the formula, we get:
Velocity = 163 km / 2.5 hours
Simplifying, we get:
Velocity = 65.2 km/h
Therefore, the velocity of the car is 65.2 km/h.
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