In hypothesis testing, making a decision that causes a false alarm is equivalent to committing a type-1 error.
In hypothesis testing, making a decision that causes a false alarm is equivalent to a Type-1 error. This occurs when we reject the null hypothesis even though it is actually true. It is important to control the probability of making type-1 errors, as this can lead to incorrect conclusions and wasted resources. The correct decision in hypothesis testing is to either accept or reject the null hypothesis based on the evidence presented. A type-2 error, on the other hand, occurs when we fail to reject the null hypothesis even though it is false.
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Assume that ⋅=8,u⋅v=8, ‖‖=6,‖u‖=6, and ‖‖=4.‖v‖=4.
Calculate the value of (6+)⋅(−10).(6u+v)⋅(u−10v).
The value of dot product (6+8)⋅(−10) is -140.
The value of (6u+v)⋅(u−10v) can be found using the distributive property and the dot product formula, which is (6u⋅u)+(v⋅u)-(60v⋅v). Substituting the given values, we get (6(6)²)+(8(6))-(60(4)²) = 92.
In the given problem, we are given the values of dot product, norms of two vectors u and v. We need to find the value of (6+8)⋅(−10) and (6u+v)⋅(u−10v). Using the formula for dot product, we get the value of the first expression as -140. For the second expression, we use the distributive property and the formula for dot product.
After substituting the given values, we simplify the expression to get the answer 92. The dot product is a useful tool in linear algebra and can be used to find angles between vectors, projections of vectors, and more.
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find the differential dy of the given function. y = csc 9x
To find the differential dy of the given function y = csc 9x, we can start by using the chain rule of differentiation, which states that the derivative of a composite function is the product of the derivative of the outer function and the derivative of the inner function.
A cosecant function is defined.The sine function has a reciprocal called the cosecant function. The cosecant function is the hypotenuse divided by the opposite side, just like the sine function is the opposite side divided by the hypotenuse. The hypotenuse and legs are terms for the two sides that are not the right angle.
In this case, the outer function is y = csc u, where u = 9x is the inner function. So we have:dy/dx = dy/du * du/dx
We can find the derivative of y = csc u using the formula for the derivative of the cosecant function:
d/dx (csc x) = -csc x cot x
So we have:
dy/du = d/dx (csc u) = -csc u cot u
To find the derivative of the inner function, we can use the chain rule again:
du/dx = 9
Putting it all together, we have:
dy/dx = dy/du * du/dx = -csc u cot u * 9
Substituting u = 9x, we get:
dy/dx = -csc (9x) cot (9x) * 9
Therefore, the differential dy of y = csc 9x is:
dy = -9csc (9x) cot (9x) dx
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Hassam buys two adult tickets and two child tickets.
The booking agency charges an extra 5% of the total cost as a booking fee.
Work out how much Hassam pays altogether.
Okay, here are the steps:
* Hassam buys 2 adult tickets and 2 child tickets
* Let's assume:
** Adult ticket price = $50
** Child ticket price = $25
* So total ticket price = 2 * $50 + 2 * $25 = $200
* The booking fee is 5% of the total cost
* 5% of $200 is $10
* So total payment = $200 + $10 = $210
Therefore, the total Hassam pays altogether is $210
The concentration C in milligrams per milliliter (mg/ml) of a certain drug in a person's blood-stream t hours after a pill is swallowed is modeled by 2t c(t) = 3+ -0.011 Estimate the change in concentration when t changes from 40 to 50 minutes. 1 + -e The change in concentration is about mg/ml. (Type an integer or decimal rounded to the nearest thousandth as needed.)
Change in concentration = c(5/6) - c(2/3). To estimate the change in concentration (C) in mg/ml of a certain drug in a person's bloodstream when t changes from 40 to 50 minutes,
we will use the given model: c(t) = 2t / (3 + e^(-0.01t)).
First, let's convert the time from minutes to hours since the model uses hours:
40 minutes = 40/60 = 2/3 hours
50 minutes = 50/60 = 5/6 hours
Next, we will calculate the concentration at these times using the model:
1. For t = 2/3 hours:
c(2/3) = 2(2/3) / (3 + e^(-0.01(2/3)))
2. For t = 5/6 hours:
c(5/6) = 2(5/6) / (3 + e^(-0.01(5/6)))
Now, estimate the change in concentration by subtracting the concentrations at these two times:
Change in concentration = c(5/6) - c(2/3)
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If X has a binomial distribution with n = 150 and the success probability p = 0.4 find the following probabilities approximately
a. P48 S X <66)
b. P(X> 69)
c. P(X 2 65)
d. P(X < 60)
The probabilities for:
a. P(48 <X <66) = 0.978.
b. P(X> 69) = 0.0618.
c. P(X <= 65) = 0.8051
d. P(X < 60) = 0.5
a. P(48 < X < 66) can be approximated using the normal distribution as follows:
mean, μ = np = 150 × 0.4 = 60
standard deviation, σ = [tex]\sqrt{(np(1-p)) }[/tex]= [tex]\sqrt{(150 * 0.4 * 0.6)[/tex] = 5.81
We can standardize using the formula z = (x - μ) / σ to find the area under the standard normal distribution between the z-scores corresponding to x = 48 and x = 66:
z1 = (48 - 60) / 5.81 = -2.06
z2 = (66 - 60) / 5.81 = 1.03
Using a standard normal distribution table, we find the area between these z-scores to be approximately 0.978. Therefore, P(48 < X < 66) ≈ 0.978.
b. P(X > 69) can be approximated using the normal distribution as follows:
mean, μ = np = 150 × 0.4 = 60
standard deviation, σ = [tex]\sqrt{(np(1-p)) }[/tex]= [tex]\sqrt{(150 * 0.4 * 0.6)[/tex] = 5.81
We can standardize using the formula z = (x - μ) / σ to find the area under the standard normal distribution to the right of the z-score corresponding to x = 69:
z = (69 - 60) / 5.81 = 1.55
Using a standard normal distribution table, we find the area to the right of this z-score to be approximately 0.0618. Therefore, P(X > 69) ≈ 0.0618.
c. P(X <= 65) can be approximated using the normal distribution as follows:
mean, μ = np = 150 × 0.4 = 60
standard deviation, σ = [tex]\sqrt{(np(1-p)) }[/tex]= [tex]\sqrt{(150 * 0.4 * 0.6)[/tex]= 5.81
We can standardize using the formula z = (x - μ) / σ to find the area under the standard normal distribution to the left of the z-score corresponding to x = 65:
z = (65 - 60) / 5.81 = 0.86
Using a standard normal distribution table, we find the area to the left of this z-score to be approximately 0.8051. Therefore, P(X <= 65) ≈ 0.8051.
d. P(X < 60) can be approximated using the normal distribution as follows:
mean, μ = np = 150 × 0.4 = 60
standard deviation, σ = sqrt(np(1-p)) = sqrt(150 × 0.4 × 0.6) = 5.81
We can standardize using the formula z = (x - μ) / σ to find the area under the standard normal distribution to the left of the z-score corresponding to x = 60:
z = (60 - 60) / 5.81 = 0
Using a standard normal distribution table, we find the area to the left of this z-score to be 0.5. Therefore, P(X < 60) ≈ 0.5.
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for each sequence find the first 4 terms and the 10th term
a)10-n
b)6-2n
a) The first 4 terms of the sequence 10-n are:
- n=1: 10-1=9
- n=2: 10-2=8
- n=3: 10-3=7
- n=4: 10-4=6
The 10th term of the sequence 10-n is:
- n=10: 10-10=0
b) The first 4 terms of the sequence 6-2n are:
- n=1: 6-2(1)=4
- n=2: 6-2(2)=2
- n=3: 6-2(3)=0
- n=4: 6-2(4)=-2
The 10th term of the sequence 6-2n is:
- n=10: 6-2(10)=-14
Khalil is a waiter at a restaurant. Each day he works, Khalil will make a
guaranteed wage of $35, however the additional amount that Khalil
earns from tips depends on the number of tables he waits on that day.
From past experience, Khalil noticed that he will get about $10 in tips
for each table he waits on. How much would Khalil expect to earn in a
day on which he waits on 11 tables? How much would Khalil expect to
make in a day when waiting on t tables?
Total earnings with 11 tables:
Total Earnings with t tables:
Answer:
11 tables - $145
t tables - 35 + 10t
Step-by-step explanation:
11 tables: $35 + 10*11 tables = 145
Answer:
total earning with 11 tables: $145
Step-by-step explanation:
if he gets a $10 tip per table you would do 10×11=110
and since he gets a guaranteed $35 a day you would do 35+110=145
Solve the initial value problem for r as a vector function of t. Differential Equation: dr/dt = 9/2 (t + 1)^1/2 i + 6 e ^-t j + 1/t + 1 k Initial condition: r(0) = k. r(t) = ___ i + ___ j + ___ k
The solution of the given initial value problem for r as a vector function of t is [tex]r(t) = 3(t + 1)^{(3/2)} i + (-6 e^{-t} + 6) j + (ln(t + 1) + 1) k[/tex].
A differential equation is an equation that contains one or more terms and the derivatives of one variable (i.e., dependent variable) with respect to the other variable (i.e., independent variable).
To solve the given differential equation, we will integrate each component of the differential equation and apply the initial condition.
Differential Equation: dr/dt = [tex]9/2 (t + 1)^{1/2} i + 6 e^{-t} j + 1/(t + 1) k[/tex]
Initial condition: r(0) = k
Step 1: Integrate each component of the differential equation with respect to t:
[tex]r(t) = \int(9/2 (t + 1)^{1/2}) dt \ i + \int(6 e^{-t}) dt \ j + \int(1/(t + 1)) dt \ k[/tex]
Step 2: Solve the integrals:
[tex]r(t) = [3(t + 1)^{(3/2)}] i - [6 e^{-t}] j + [ln(t + 1)] k + C[/tex]
Step 3: Apply the initial condition r(0) = k:
[tex]k = [3(0 + 1)^{(3/2)}] i - [6 e^0] j + [ln(0 + 1)] k + C[/tex]
k = 0 i - 6 j + 0 k + C
C = 6j + k
Step 4: Substitute C back into the expression for r(t):
[tex]r(t) = [3(t + 1)^{(3/2)}] i - [6 e^{-t}] j + [ln(t + 1)] k + (6j + k)[/tex]
So, the vector function r(t) is:
[tex]r(t) = 3(t + 1)^{(3/2)} i + (-6 e^{-t} + 6) j + (ln(t + 1) + 1) k[/tex].
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create an explicit function to model the growth after N weeks
since it starts at 135 and doubles every week f(n)=135*2^n-1
so for example after 4 weeks it would be f(4)=135*2^4-1=135*2^3=135*2*2*2=1080
Which of the following statements is true when using the Excel Regression tool?
a. The range for the independent variable values must be specified in the box for the Input Y Range.
b. The Regression tool can be found in the Tools tab under Insert group.
c. Adding an intercept term reduces the analysis' fit to the data.
d. Checking the option Constant is Zero forces the intercept to zero.
The correct statement when using the Excel Regression tool is:
d. Checking the option Constant is Zero forces the intercept to zero.
Explanation: The Excel Regression tool is used to perform linear regression analysis on a set of data. The independent variable values are specified in the Input X Range, while the dependent variable values are specified in the Input Y Range. The Regression tool can be found in the Data Analysis tab under the Analysis group.
When performing linear regression analysis, the intercept term represents the value of the dependent variable when the independent variable is equal to zero. Checking the option Constant is Zero in the Regression tool forces the intercept term to be zero, which can be useful in certain cases. However, it may also reduce the analysis' fit to the data and should be used with caution.
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Don's convertible sports car uses 9.1 L of gas every 100 km. How much gas would it use to travel 735 km?
Therefore, Don's car would use 67.035 L of gas to travel 735 km.
What is cross multiply?Cross multiplication is a method used to compare the relative sizes of two fractions. To cross-multiply two fractions, you multiply the numerator of one fraction by the denominator of the other fraction, and then do the same with the other numerator and denominator, putting the two products equal to each other. For example, if you have the fractions 2/3 and 3/4, you can cross-multiply as follows:
[tex]2/3 = x/4[/tex]
[tex]2 x 4 = 3 x x[/tex]
[tex]8 = 3x[/tex]
[tex]x = 8/3[/tex]
So, the two fractions are equivalent, and both are equal to 8/3. Cross-multiplication can also be used to solve equations that involve fractions, by isolating the variable on one side of the equation.
To find out how much gas Don's car would use to travel 735 km, we can use the fact that the car uses 9.1 L of gas every 100 km. We can set up a proportion to solve for the amount of gas used:
9.1 L / 100 km = x L / 735 km
To solve for x, we can cross-multiply and simplify:
[tex]9.1 L * 735 km = 100 km * x L[/tex]
[tex]6703.5 Lkm = 100 km * x L[/tex]
[tex]6703.5 Lkm / 100 km = x L[/tex]
[tex]67.035 L = x L[/tex]
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Which description best fits the distribution of the data shown in the histogram?
Responses
skewed right
uniform
skewed left
approximately bell-shaped
A sample of subjects randomly selected for an Italian study on the relation between income and whether one possesses a travel credit card (such as American Express or Diners Club) is analyzed. At each level of annual income in millions of lira, the data indicates the number of subjects sampled and the number of them possessing at least one travel credit card. (Note: one million lira at the time of the study is currently worth about 500 euros.) Software provides the following results of using logistic regression to relate the probability of having a travel credit card to income, treating these as independent binomial samples. Parameter Estimate Standard error Intercept -3.5561 0.7169
Income 0.0532 0.0131
(a) (2 marks) Report the estimated model equation. (b) (2 marks) Interpret the sign of ß. 2 (c) (3 marks) According to the estimated model equation, for which income is the probability 0.5 to have a travel credit card?
The probability of having a travel credit card is 0.5 is about 66.76 million lira or 33,380 euros.
(a) The estimated model equation is:
log(p/1-p) = -3.5561 + 0.0532*income
where p is the probability of having a travel credit card.
(b) The sign of ß (0.0532) is positive, which means that there is a positive relationship between income and the probability of having a travel credit card. As income increases, the probability of having a travel credit card also increases.
(c) To find the income level at which the probability of having a travel credit card is 0.5, we can set p = 0.5 in the model equation and solve for income:
log(0.5/1-0.5) = -3.5561 + 0.0532*income
0 = -3.5561 + 0.0532*income
income = 3.5561/0.0532
income = 66.76
Therefore, according to the estimated model equation, the income level at which the probability of having a travel credit card is 0.5 is about 66.76 million lira or 33,380 euros.
(a) The estimated model equation is given by:
log(p / (1 - p)) = -3.5561 + 0.0532 * Income
where p is the probability of having a travel credit card and Income is the annual income in millions of lira.
(b) The sign of ß (the coefficient of Income) is positive, which indicates that as the annual income increases, the probability of having a travel credit card also increases.
(c) To find the income level where the probability is 0.5, we need to solve the equation:
log(0.5 / (1 - 0.5)) = -3.5561 + 0.0532 * Income
0 = -3.5561 + 0.0532 * Income
Income = 3.5561 / 0.0532 ≈ 66.86 million lira
So, the probability of having a travel credit card is 0.5 when the annual income is approximately 66.86 million lira.
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8. the set of all 2 × 2 invertible matrices with the standard matrix addition and scalar multiplication.
In linear algebra, matrix addition and scalar multiplication are fundamental operations that are used to manipulate matrices.
The set of all 2x2 invertible matrices can be expressed using standard matrix addition and scalar multiplication. An invertible matrix is one that has a non-zero determinant. For a 2x2 matrix A, with elements a, b, c, and d:
A = | a b |
| c d |
The determinant of A is calculated as: det(A) = ad - bc. To be invertible, det(A) ≠ 0.
Standard matrix addition is the element-wise addition of two matrices of the same dimensions. If we have another 2x2 matrix B:
B = | e f |
| g h |
The standard matrix addition of A and B is:
A + B = | a+e b+f |
| c+g d+h |
Scalar multiplication involves multiplying every element of a matrix by a scalar value. If we have a scalar k, the scalar multiplication of matrix A is:
kA = | ka kb |
| kc kd |
By combining standard matrix addition and scalar multiplication, we can generate the set of all 2x2 invertible matrices that meet the condition of having a non-zero determinant (ad - bc ≠ 0).
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Peter bought a big pack of
360
360360 party balloons. The balloons come in
6
66 different colors which are supposed to be distributed evenly in the pack.
Peter wants to test whether the distribution is indeed even, but he doesn't want to go over the entire pack. So, he plans to take a sample and carry out a
χ
2
χ
2
\chi, squared goodness-of-fit test on the resulting data.
Which of these are conditions for carrying out this test?
To use the Chi Squared test on the resulting data we can use the following statements in order:
D. He takes a random sample of balloons.
B. He samples 36 balloons at most.
C. He expects each color to appear at least 5 times.
Define a Chi Square test?A statistical hypothesis test used to examine if a variable is likely to come from a specific distribution is the Chi-square goodness of fit test. To ascertain if sample data is representative of the total population, it is widely utilised.
To let you know if there is a correlation, the Chi-Square test provides a P-value. An assumption is being considered, which we can test later, that a specific condition or statement may be true. Consider this: The data collected and expected match each other quite closely, according to a very tiny Chi-Square test statistic. The data do not match very well, according to a very significant Chi-Square test statistic. The null hypothesis is disproved if the chi-square score is high.
Here in the question,
To use the Chi Squared test on the resulting data we can use the following statements in order:
D. He takes a random sample of balloons.
B. He samples 36 balloons at most.
C. He expects each color to appear at least 5 times.
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The complete question is:
Peter bought a big pack of
360
360360 party balloons. The balloons come in
6
66 different colors which are supposed to be distributed evenly in the pack.
Peter wants to test whether the distribution is indeed even, but he doesn't want to go over the entire pack. So, he plans to take a sample and carry out a
χ
2
χ
2
\chi, squared goodness-of-fit test on the resulting data.
Which of these are conditions for carrying out this test? Choose 3 options.
A. He observes each color at least 5 times.
B. He samples 36 balloons at most.
C. He expects each color to appear at least 5 times.
D. He takes a random sample of balloons.
Answer: the answer is A B D
Step-by-step explanation:
Ali surveys 100 randomly selected students in his high school and asks how many hours they spent studying last week, rounded to the nearest tenth. The sample mean of the data is 7.7 hours with a margin of error of ±0.8. What is a reasonable estimate for the number of hours a student at Ali’s high school studied last week?
Answer:6.9 and 8.5
Step-by-step explanation: 7.7-0.8=6.9 hours
7.7+0.8=8.5 hours
9. Graph the circle (x-3)² + (y+6)² = 16
Use the graphs to identify the following: axis of symmetry, x-intercept(s), y-intercept, & vertex.
Determine the range.
Question 2 options:
(-∞, ∞)
[-1 ∞)
[1, 3]
(-∞, -1]
The features of the quadratic function are given as follows:
Axis of symmetry: x = 1.5.x-intercept: (-1, 0) and (4,0).y-intercept: (0,4).vertex: (1.5, 6).The function is decreasing on the following interval:
(1.5, ∞).
How to obtain the features of the quadratic function?First we look at the vertex of the quadratic function, which is the turning point, with coordinates x = 1.5 and y = 6, hence it is given as follows:
(1.5, 6).
Hence the axis of symmetry is of x = 1.5, which is the x-coordinate of the vertex.
The function is concave down, hence the increasing and decreasing intervals are given as follows:
Increasing: (-∞, 1.5)Decreasing: (1.5, ∞)The x-intercepts are the values of x for which the graph crosses the x-axis, when the y-coordinate is of 0, hence they are given as follows:
(-1, 0) and (4,0).
The y-intercept is the value of y when the graph crosses the y-axis, when the x-coordinate is of zero, hence it is given as follows:
(0,4).
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a mattress store is having a sale. All mattresses are 30% off. Nate wants to know the sale price of a mattress that is regularly $1,000
Answer:700
Step-by-step explanation:
QUESTION 1 On average, what value is expected for the t-statistic when the null hypothesis is true? A.t> 1.96 .B.O C. 1.96 D.1 QUESTION 2 -80, and a treatment is administered to the sample. Which set of sample characteristics is most likely to lead to a decision that there is a significant treatment effect? A sample of n-25 individuals is selected from a population with A. m = 85 and a small sample variance B.m=85 and a large sample variance .C.m= 90 and a small sample variance D.m=90 and a large sample variance
On average, the value expected for the t-statistic when the null hypothesis is B. 0.
What is the expected value of the t-statistic when the null hypothesis is true?When the null hypothesis is true, the expected value of the t-statistic is zero (0). This is because the t-statistic is calculated by taking the difference between the sample mean and the hypothesized population mean (under the null hypothesis), and dividing it by the standard error.
If the null hypothesis is true, there should be no difference between the sample mean and the hypothesized population mean, resulting in a t-statistic of zero on average. Therefore, the correct answer is option B, "O", which represents zero.
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If using the method of completing the square to solve the quadratic equation x^2-14x-40=0, which number would have to be added to "complete the square"?
The correct value of the number would have to be added to "complete the square" is, 89
We have to given that;
The expression is,
⇒ x²- 14x - 40 = 0
Now, We can formulate;
⇒ x² - 14x - 40 = 0
Add 89 to complete square as;
⇒ x² - 14x + 89 - 40 = 0
⇒ x² - 14x + 49 = 0
⇒ (x - 7)² = 0
Hence, The correct value of the number would have to be added to "complete the square" is, 89
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Suppose Deidre, a quality assurance specialist at a lab equipment company, wants to determine whether or not the company's two primary manufacturing centers produce test tubes with the same defect rate. She suspects that the proportion of defective test tubes produced at Center A is less than the proportion at Center B.
Deidre plans to run a -
test of the difference of two proportions to test the null hypothesis, 0:=
, against the alternative hypothesis, :<
, where
represents the proportion of defective test tubes produced by Center A and
represents the proportion of defective test tubes produced by Center B. Deidre sets the significance level for her test at =0.05
. She randomly selects 535 test tubes from Center A and 466 test tubes from Center B. She has a quality control inspector examine the items for defects and finds that 14 items from Center A are defective and 22 items from Center B are defective.
Compute the -
statistic for Deidre's -
test of the difference of two proportions, −
.
SPRING BREAK GEOMETRY HW
The two lines are neither parallel nor perpendicular.
What is parallel line?Parallel lines are two lines that are always the same distance apart and never intersect. In Euclidean geometry, parallel lines are denoted by an arrow symbol or by two vertical lines.
What is perpendicular line?A perpendicular line is a line that intersects another line at a right angle (90 degrees).
To determine if the two lines 2x-7y=-14 and y=(-2/7)x-1 are parallel, perpendicular or neither, we need to compare their slopes.
The given equation 2x-7y=-14 can be rearranged into slope-intercept form:
2x - 7y = -14
-7y = -2x - 14
y = (2/7)x + 2
So the slope of the first line is 2/7.
The second equation y=(-2/7)x-1 is already in slope-intercept form, so the slope of the second line is -2/7.
If two lines have slopes that are the same, they are parallel. If the product of their slopes is -1, then they are perpendicular. Otherwise, they are neither parallel nor perpendicular.
In this case, the product of the slopes is:
(2/7) * (-2/7) = -4/49
Since the product of the slopes is not -1 and it is not equal to each other, the two lines are neither parallel nor perpendicular.
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Please help!
I attempted this question myself (second attachment) but got the answer wrong, can someone help me identify where I failed? Was it simply a calculation slip-up or an actual fault in how I tackled the question?
Answer:
Step-by-step explanation:
The issue with your answer is that on line AD, you forgot to account for the left triangle when adding 10 cm + 14 cm = 24 cm. To answer this question, I would recommend solving for the AB triangle with 7.5 cm and 6 cm (using pythagorean theorem). Afterwards, you can use that answer, add it to the length of BC and subtract both from AD (24 cm) to solve for MD. Then, you can solve for the angle. Hope that helps.
State whether or not the normal approximation to the binomial is appropriate in
each of the following situations.
(a) n = 500, p = 0.33
(b) n = 400, p = 0.01
(c) n = 100, p = 0.61
To determine if the normal approximation to the binomial is appropriate, we need to check if both np and n(1-p) are greater than or equal to 10.
(a) For n = 500 and p = 0.33, np = 165 and n(1-p) = 335, both of which are greater than 10. Therefore, the normal approximation to the binomial is appropriate.
(b) For n = 400 and p = 0.01, np = 4 and n(1-p) = 396, which are not both greater than 10. Therefore, the normal approximation to the binomial is not appropriate.
(c) For n = 100 and p = 0.61, np = 61 and n(1-p) = 39, both of which are greater than 10. Therefore, the normal approximation to the binomial is appropriate.
To determine if the normal approximation to the binomial is appropriate in each situation, we can use the following rule of thumb: the normal approximation is suitable when both np and n(1-p) are greater than or equal to 10.
A binomial is a polynomial that is the sum of two terms, each of which is a monomial .It is the simplest kind of a sparse polynomial after the monomials.
(a) n = 500, p = 0.33
np = 500 * 0.33 = 165
n(1-p) = 500 * (1 - 0.33) = 500 * 0.67 = 335
Since both values are greater than 10, the normal approximation is appropriate.
Normal distributions are important in statistics and are often used in the natural to represent real-valued random variables whose distributions are not known. Their importance is partly due to the central limit theorem.
(b) n = 400, p = 0.01
np = 400 * 0.01 = 4
n(1-p) = 400 * (1 - 0.01) = 400 * 0.99 = 396
Since np is less than 10, the normal approximation is not appropriate.
(c) n = 100, p = 0.61
np = 100 * 0.61 = 61
n(1-p) = 100 * (1 - 0.61) = 100 * 0.39 = 39
Since both values are greater than 10, the normal approximation is appropriate.
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count the number of binary strings of length 10 subject to each of the following restrictions. (a) the string has at least one 1. (b) the string has at least one 1 and at least one 0.
(a) The number of binary strings of length 10 with at least one 1 is 1023.
(b) The number of binary strings of length 10 with at least one 1 and at least one 0 is 2045.
(a) To count the number of binary strings of length 10 with at least one 1, we can subtract the number of strings with all 0's from the total number of binary strings of length 10.
The total number of binary strings of length 10 is 2^10 = 1024, and the number of strings with all 0's is 1 (namely, 0000000000). Therefore, the number of binary strings of length 10 with at least one 1 is:
1024 - 1 = 1023
(b) To count the number of binary strings of length 10 with at least one 1 and at least one 0, we can use the principle of inclusion-exclusion.
The number of strings with at least one 1 is 1023 (as we calculated in part (a)), and the number of strings with at least one 0 is also 1023 (since the complement of a string with at least one 0 is a string with all 1's, and we calculated the number of strings with all 0's in part (a)).
However, some strings have both no 0's and no 1's, so we need to subtract those from the total count. There is only one such string, namely 1111111111. Therefore, the number of binary strings of length 10 with at least one 1 and at least one 0 is:
1023 + 1023 - 1 = 2045.
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Find y as a function of x if y'''-6y''-y'+6y=0,y(0)=0, y'(0)=-8, y''(0)=35.
y(x)=
The final solution to the differential equation is:
[tex]y(x) = (-35/2) e^x + (35/2) e^{(2x)} - 9xe^{(2x)[/tex]
To find y as a function of x, we can use the characteristic equation:
[tex]r^3 - 6r^2 - r + 6 = 0[/tex]
We can try factoring it using rational roots theorem:
Possible rational roots are ±1, ±2, ±3, ±6
Trying them out, we find that r = 1 and r = 2 are roots:
[tex](r - 1)(r - 2)^2 = 0[/tex]
Expanding and solving for r, we get:
r = 1, 2, 2
So the general solution to the differential equation is:
[tex]y(x) = c1 e^x + c2 e^{(2x) }+ c3 xe^{(2x)}[/tex]
To find the values of the constants c1, c2, and c3, we can use the initial conditions:
y(0) = c1 + c2 = 0
y'(0) = c1 + 2c2 + 2c3 = -8
y''(0) = c2 + 4c3 = 35
Solving these equations simultaneously, we get:
c1 = -35/2
c2 = 35/2
c3 = -9
So the final solution to the differential equation is:
[tex]y(x) = (-35/2) e^x + (35/2) e^{(2x) }- 9xe^{(2x)[/tex]
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prove by strong induction that the following statement holds true for all n>1. it will require exactly n -1 steps to assemble an n piece jigsaw puzzle from start to finish
The given statement "for all n>1. it will require exactly n -1 steps to assemble an n piece jigsaw puzzle from start to finish" is true by strong induction.
To prove that the statement holds true for all n > 1, we will use strong induction.
For n = 2, it takes exactly 1 step to assemble a 2-piece jigsaw puzzle, which satisfies the statement.
Inductive hypothesis, Assume that for some k > 1, it takes exactly k - 1 steps to assemble a k-piece jigsaw puzzle from start to finish. That is, the statement is true for all n = 2, 3, ..., k.
Inductive step, We need to show that the statement is also true for n = k + 1. To assemble a (k + 1)-piece jigsaw puzzle, we can first separate one piece from the puzzle. This leaves us with a k-piece puzzle. By the inductive hypothesis, it takes exactly k - 1 steps to assemble the k-piece puzzle. We can then attach the remaining piece to the completed k-piece puzzle, which takes 1 additional step. Therefore, it takes exactly (k - 1) + 1 = k steps to assemble a (k + 1)-piece jigsaw puzzle.
Since the statement is true for n = 2 and the statement is true for n = k implies that the statement is true for n = k + 1, the statement is true for all n > 1 by strong induction.
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simplify (a+b)/(a^2+b^2)*a/(a-b)*(a^4-b^4)/(a+b)^2
We can start by simplifying each factor separately and then combine them.
(a + b)/(a^2 + b^2) can be simplified by multiplying both the numerator and denominator by (a - b):
(a + b)/(a^2 + b^2) * (a - b)/(a - b) = (a^2 - b^2)/(a^3 - b^3)
Next, we simplify a/(a - b) by multiplying both the numerator and denominator by (a + b):
a/(a - b) * (a + b)/(a + b) = a(a + b)/(a^2 - b^2)
Lastly, we simplify (a^4 - b^4)/(a + b)^2 by factoring the numerator and expanding the denominator:
(a^4 - b^4)/(a + b)^2 = [(a^2)^2 - (b^2)^2]/(a + b)^2 = [(a^2 + b^2)(a^2 - b^2)]/(a + b)^2
Now we can combine all three simplified factors:
(a + b)/(a^2 + b^2) * a/(a - b) * (a^4 - b^4)/(a + b)^2 = [(a^2 - b^2)/(a^3 - b^3)] * [a(a + b)/(a^2 - b^2)] * [(a^2 + b^2)(a^2 - b^2)]/(a + b)^2
Simplifying further, we can cancel out the (a^2 - b^2) terms and the (a + b) terms:
= [a(a + b)/(a^3 - b^3)] * [(a^2 + b^2)/(a + b)]
= a(a + b)(a^2 + b^2)/(a + b)(a^3 - b^3)
= a(a^2 + b^2)/(a^3 - b^3)
Therefore, the simplified expression is a(a^2 + b^2)/(a^3 - b^3)
In a lottery, the top cash prize was $634 million, going to three lucky winners. Players pick four different numbers from 1 to 58 and one number from 1 to 44. A player wins a minimum award of $350 by correctly matching two numbers drawn from the white balls (1 through 58) and matching the number on the gold ball (1 through 44). What is the probability of winning the minimum award? The probability of winning the minimum award is (Type an integer or a simplified fraction.)
The probability of winning the minimum award is 1/16,448.
To calculate this probability, follow these steps:
1. Find the total number of ways to pick two white balls from 58: C(58,2) = 58!/(2!(58-2)!) = 1,653.
2. Find the total number of ways to pick one gold ball from 44: C(44,1) = 44!/(1!(44-1)!) = 44.
3. Multiply the number of ways to pick two white balls and one gold ball: 1,653 * 44 = 72,732.
4. Calculate the total number of possible combinations: 58 * 57 * 56 * 55 * 44 = 1,195,084,680.
5. Divide the number of successful combinations by the total number of combinations: 72,732 / 1,195,084,680 = 1/16,448.
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