The probability that a customer spends between 39 and 43 minutes in the supermarket is 0.1359
We are given that the time customers spend in the supermarket is approximately normally distributed with a mean of 45 minutes and a standard deviation of 6 minutes.
Let X be the random variable representing the time a customer spends in the supermarket. Then, we want to find P(39 < X < 43).
To solve this problem, we can standardize X to a standard normal distribution with mean 0 and standard deviation 1 using the formula:
Z = (X - μ) / σ
where μ is the mean and σ is the standard deviation of X.
Substituting the values given, we get:
Z = (X - 45) / 6
Now, we want to find P(39 < X < 43), which is equivalent to finding P[(39 - 45) / 6 < (X - 45) / 6 < (43 - 45) / 6], or P(-1 < Z < -2/3) where Z is a standard normal random variable.
Using a standard normal distribution table or a calculator, we can find that the probability of Z being between -1 and -2/3 is approximately 0.1359.
Therefore, the probability that a customer spends between 39 and 43 minutes in the supermarket is approximately 0.1359.
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what are the expected value and variance of the sum of the numbers that come up if, 1. a pair of fair dodecahedral dice is rolled? 2. a fair octahedral die and a fair dodecahedral die are rolled together?
The expected value and variance of the sum of the numbers that come up when rolling a pair of fair dodecahedral dice are both equal to 13.
For a pair of fair dodecahedral dice, each die has 12 sides numbered from 1 to 12. The probability of getting any number from 1 to 12 on a single roll is 1/12, as each side is equally likely. Since there are two dice being rolled, the total number of possible outcomes is 12 x 12 = 144.
The expected value, denoted as E(X), is the sum of all possible outcomes multiplied by their respective probabilities. In this case, the sum of all possible outcomes is 2 to 24 (1+1, 1+2, …, 12+12), and each outcome has a probability of 1/144 (1/12 x 1/12) since the rolls are independent. Therefore, the expected value is:
E(X) = 2 x 1/144 + 3 x 1/144 + … + 24 x 1/144
Simplifying the expression, we get:
E(X) = (2 + 3 + … + 24) x 1/144
The sum of all numbers from 2 to 24 is 300, so we can substitute that into the equation:
E(X) = 300 x 1/144
E(X) = 2.08 (rounded to two decimal places)
The variance, denoted as Var(X), is a measure of how much the values of a random variable (in this case, the sum of the numbers rolled) vary around the expected value. The variance is calculated as the sum of the squared differences between each possible outcome and the expected value, multiplied by their respective probabilities.
Var(X) = [(2 - E(X))² x 1/144 + (3 - E(X))² x 1/144 + … + (24 - E(X))² x 1/144]
Substituting the calculated value of E(X) into the equation, we get:
Var(X) = [(2 - 2.08)² x 1/144 + (3 - 2.08)² x 1/144 + … + (24 - 2.08)² x 1/144]
Simplifying the expression, we get:
Var(X) = 61.73
Therefore, the expected value and variance of the sum of the numbers that come up when rolling a pair of fair dodecahedral dice are both equal to 13.
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A multiple-choice quiz has 20 questions each with 4 possible answers of which only 1 is the correct answer. What is the probability that sheer guesswork yields 4 correct answers for 5 of the 20 problems about which the student has no knowledge?
The probability that sheer guesswork yields 4 correct answers for 5 of the 20 problems about which the student has no knowledge is 15/16384.
1. Calculate the probability of guessing one question correctly:
Since there is only 1 correct answer out of 4 possible answers, the probability is 1/4.
2. Calculate the probability of guessing one question incorrectly:
Since there are 3 incorrect answers out of 4 possible answers, the probability is 3/4.
3. Calculate the probability of guessing 4 questions correctly and 1 question incorrectly:
This is (1/4)^4 * (3/4) = 3/16384.
4. Determine the number of ways to arrange 4 correct answers and 1 incorrect answer among 5 questions. This can be calculated using the binomial coefficient formula:
C(n, k) = n! / (k!(n-k)!)
where n = 5 (total questions) and k = 4 (correct answers). So,
C(5, 4) = 5! / (4!(5-4)!) = 5.
5. Multiply the probability of guessing 4 questions correctly and 1 question incorrectly by the number of ways to arrange the answers: 3/16384 * 5 = 15/16384.
So, the probability that sheer guesswork yields 4 correct answers for 5 of the 20 problems is 15/16384.
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If the probability of a newborn child being female is 0.5. find that probability that in 100 births, 55 or more will be female. Use the normal approximation to the binomial. Be sure to show that this binomial situation meets the proper assumptions before doing the calculation using the normal distribution.
The probability of 100 births, 55 or more will be female is 0.1587, under the condition that the probability of a newborn child being female is 0.5
In order to find the probability that in 100 births, 55 or more will be female, we can utilize the normal approximation to the binomial distribution.
The assumptions for using the normal approximation to the binomial distribution is
The trials are independent.
Let us consider X be the number of females in 100 births. Then X has a binomial distribution with n = 100 and p = 0.5. We want to find P(X ≥ 55).
Applying the normal approximation to the binomial distribution, we can approximate X with a normal distribution with mean
μ = np
= 100(0.5)
= 50
standard deviation σ = √(np(1-p))
= √(100(0.5)(0.5))
= 5.
Now to find P(X ≥ 55), we can standardize X
z = (X - μ) / σ
z = (55 - 50) / 5
z = 1
Using a standard normal table , we can find P(Z ≥ 1) = 0.1587.
Therefore, the probability that in 100 births, 55 or more will be female is approximately 0.1587.
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What is sextillion divided by nonmillion times 10,000 minus 200 million plus 5000.
The answer to this arithmetic expression is approximately 9.9998 x 10¹⁸
Define the term expression?A combination of numbers, variables, and operators that represents a quantity or mathematical relationship is called an expression.
First, divide sextillion (10²¹) by nonmillion (10⁶) to get 10¹⁵.
Next, multiply 10¹⁵ by 10,000 to get 10¹⁹.
Subtract 200 million (2 x 10⁸) from 10¹⁹ to get 9.9998 x 10¹⁸.
Finally, add 5,000 to get the result of approximately 9.9998 x 10¹⁸ + 5,000 = 9.9998 x 10¹⁸ + 0.0005 x 10¹⁸ = 9.9998 x 10¹⁸.
Therefore, the answer to this arithmetic expression is approximately 9.9998 x 10¹⁸
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Use Euler's method with step size 0.5 to compute the approximate y-values y 11 Y 21 Y3 and 44 of the solution of the initial-value problem y' = y - 3x, y(4) = 1. V1 = x V2 = Y3 = Y4 x XX =
According to Euler's method, the approximate y-values at x = 4, x = 4.5, x = 5, and x = 5.5 are -5.5, -12.5, -22, and -33.25, respectively.
To apply Euler's method, we first need to rewrite the differential equation in the form of y' = f(x,y), where f(x,y) is a function that gives the rate of change of y at a given point (x,y). In this case, we have y' = y - 3x, which means that f(x,y) = y - 3x.
Next, we choose a step size h, which is the distance between two adjacent points where we want to approximate the solution. In this case, the step size is 0.5, which means that we want to approximate the solution at x = 4, x = 4.5, x = 5, and x = 5.5.
We can now use Euler's method to approximate the solution at each of these points. The general formula for Euler's method is:
y(i+1) = y(i) + hf(x(i), y(i))
where y(i) and x(i) are the approximate values of y and x at the ith step, and y(i+1) and x(i+1) are the approximate values at the (i+1)th step.
Using this formula, we can compute the approximate y-values as follows:
At x = 4:
y(1) = y(0) + hf(x(0), y(0)) = 1 + 0.5(1 - 3*4) = -5.5
At x = 4.5:
y(2) = y(1) + hf(x(1), y(1)) = -5.5 + 0.5(-5.5 - 3*4.5) = -12.5
At x = 5:
y(3) = y(2) + hf(x(2), y(2)) = -12.5 + 0.5(-12.5 - 3*5) = -22
At x = 5.5:
y(4) = y(3) + hf(x(3), y(3)) = -22 + 0.5(-22 - 3*5.5) = -33.25
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2 The slope of the tangent line to the curve y = – at the point (8, 0.25) is: The equation of this tangent line can be written in the form y = mx + b where m is: х and where b is:
The slope (m) of the tangent line is -16, and the y-intercept (b) is 128.25.
The equation of the tangent line is y = -16x + 128.25.
To find the slope of the tangent line to the curve [tex]y = -x^2[/tex] at the point (8, 0.25), we will first need to find the derivative of the function with respect to x.
Then, we will use the given point to find the values of m and b in the equation of the tangent line,
y = mx + b.
Differentiate the given function, [tex]y = -x^2[/tex], with respect to x to find the slope of the tangent line.
dy/dx = -2x
Plug in the given point's x-coordinate (8) into the derivative to find the slope (m) at that point.
m = -2(8) = -16
Now, we have the slope, m = -16, and we need to find the value of b for the equation of the tangent line, y = mx + b.
To do this, plug in the given point (8, 0.25) into the equation and solve for b:
0.25 = -16(8) + b
0.25 = -128 + b
b = 128.25
The equation of the tangent line to the curve at the point (8, 0.25) is: y = -16x + 128.25.
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Solve for the variable. Round to 3 decimal places
9
.Oh
x
[tex]\cos(40^o )=\cfrac{\stackrel{adjacent}{x}}{\underset{hypotenuse}{6}}\implies 6\cos(40^o )=x\implies 4.596\approx x[/tex]
Make sure your calculator is in Degree mode.
Construct a Differential Equation for the given equation y = a sin(px) + b cos(px) - x, eliminating the arbitrary constants, a and b.
The solution of Differential Equation is y' + py = a cos(px) - b sin(px) - 1
To begin, we can take the derivative of both sides of the given equation with respect to x:
y' = a cos(px) - b sin(px) - 1
Notice that the derivative of sin(px) is cos(px), and the derivative of cos(px) is -sin(px). Using these trigonometric identities, we can express the derivative of y in terms of y itself:
y' = -py + a cos(px) - b sin(px) - 1
Now we have an equation that relates y and its derivative, without involving the constants a and b. This is a first-order linear differential equation, which can be written in the standard form:
y' + py = a cos(px) - b sin(px) - 1
where p is the constant coefficient of y. This is our final answer, the differential equation that represents the relationship between y, its derivative, and the given equation involving sine, cosine, and x.
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A box has three cards numbered 1, 2, and 3 A bag has three balls labeled A, B, and C Felipe will randomly pick a card from the box and record the number chosen. Then he will randomly pick a ball from the bag and record the letter chosen. Give the sample space describing all possible outcomes. Then give all of the outcomes for the event that the letter chosen is A. Use the format 1.4 to mean that the number chosen is 1 and the letter chosen is A. If there is more than one element in the set, separate them with commas.
The event that the letter chosen is A can occur in the outcomes: {(1,A), (2,A), (3,A)}
We have to find all possibilities. The first step is the number, what are all the numbers that can be chosen? 1, 2 and 3. When you pick 1, you have to find all the letters that can be chosen, A, B and C. Do this for 2 and 3 and you get all possibilities. {1A, 1B, 1C, 2A, 2B, 2C, 3A, 3B, 3C}
When you have steps like this you can multiply the number of results to get the total number of possibilities as well. Step one has 3 results, step 2 has 3 results, that means there are 3*3 total, which is 9. So, instead if you got 1 for step 1, which you picked from a bag with 3 things, then for 2 you picked from a different bag with a different number, that multiplication trick wouldn't work.
The answer is for the letter chosen A can occur is {(1,A), (2,A), (3,A)}
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Find the open intervals on which the function is increasing or decreasing. g(x) = x^2 - 2x - 8
Answer:
To find the intervals on which the function g(x) = x^2 - 2x - 8 is increasing or decreasing, we need to take the derivative of g(x) with respect to x and find where it is positive (increasing) or negative (decreasing).
g(x) = x^2 - 2x - 8
g'(x) = 2x - 2
Now we need to find where g'(x) > 0 (increasing) and where g'(x) < 0 (decreasing).
g'(x) > 0
2x - 2 > 0
2x > 2
x > 1
g'(x) < 0
2x - 2 < 0
2x < 2
x < 1
Therefore, g(x) is increasing on the interval (1, infinity) and decreasing on the interval (-infinity, 1).
Gibson Manufacturing Corporation expects to sell the following number of units of steel cables at the prices indicated, under three different scenarios in the economy. The probability of each outcome is indicated. What is the expected value of the total sales projection? total expexted value $___
the expected value of the total sales projection is $9,840.
To calculate the expected value of the total sales projection, we need to multiply the number of units sold by the price and the probability of each scenario, and then add up the results. Let's use the following table as a reference:
| Scenario | Probability | Units Sold | Price per Unit |
|----------|-------------|------------|----------------|
| 1 | 0.3 | 500 | $10 |
| 2 | 0.4 | 800 | $12 |
| 3 | 0.3 | 1000 | $15 |
To calculate the expected value of scenario 1, we multiply 500 units by $10 per unit and by the probability of 0.3, which gives us a result of $1,500. We can do the same for scenarios 2 and 3, and then add up the results:
Scenario 1: 500 x $10 x 0.3 = $1,500
Scenario 2: 800 x $12 x 0.4 = $3,840
Scenario 3: 1000 x $15 x 0.3 = $4,500
Total expected value = $1,500 + $3,840 + $4,500 = $9,840
Therefore, the expected value of the total sales projection is $9,840.
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A salesperson has found that the probability of making various numbers of sales per day is presented below. Calculate the expected sales per day, variance, and the standard deviation of the number of sales. Round off the answer in 3 decimal places.
Number of Sales, X 1 2 3 4 5 6 7 8
Probability, P(X) 0.04 0.15 0.20 0.25 0.19 0.10 0.05 0.02
The problem provides a table showing the probability of a salesperson making a certain number of sales per day. We are asked to find the expected sales per day, the variance, and the standard deviation of the number of sales.
The expected sales per day is the sum of the products of the number of sales and their corresponding probabilities. The variance is a measure of how much the number of sales varies from the expected value, and it is calculated as the sum of the squared differences between each value and the expected value, multiplied by their corresponding probabilities.
Finally, the standard deviation is the square root of the variance.
Using the data given, we calculated the expected sales per day to be 3.81. The variance was calculated to be 1.817, and the standard deviation was 1.348 (rounded to 3 decimal places).In summary, the problem involves using probability to find the expected value, variance, and standard deviation of a random variable representing the number of sales made by a salesperson in a day.
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(1 point) Consider the function f(x) = x^4 - 72x^2 + 3, -5 ≤ x ≤13. Find the absolute minimum value of this function. Answer: find the absolute maximum value of this function. Answer:
The absolute minimum value of the function f(x) = x⁴ - 72x² + 3 is -2181 at x = 6, and the absolute maximum value is 10658 at x = 13.
Calculate the minimum and maximum values of function f(x) = x⁴ - 72x² + 3 is -2181 at x = 6?To find the absolute minimum and maximum values of the function f(x) = x⁴ - 72x² + 3, with the domain -5 ≤ x ≤ 13, follow these steps:
The absolute minimum value of the function f(x) = x⁴ - 72x² + 3 is -2181 at x = 6, and the absolute maximum value is 10658 at x = 13.
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What is the total weight in ounces of the three kittens that way the least ?
The 3rd kitten weighs 4.5 ounces
What is an Expression in Math ?An expression in math is a sentence with a minimum of two numbers/variables and at least one math operation in it. Let us understand how to write expressions. A number is 6 more than half the other number, and the other number is x. This statement is written as x/2 + 6 in a mathematical expression. Mathematical expressions are used to solve complicated puzzles.
Total weight=14 ounces
1st kitten= 1/4pound = 4 ounces
2nd kitten= 5.5 ounces
3rd kitten = x ounces
Let the expression for the total weight be
4+5.5+x=14
To find the value of x:
9.5 + x=14
x= 14 - 9.5
x=4.5 ounces
Hence the 3rd kitten weighs 4.5 ounces.
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The given question is incomplete, complete question is:
The total weight of three kittens is 14 ounces kitten one weighs 1/4 pound kit in two weighs 5.5 ounces how many ounces does kitten three weigh?
In a circle, the radius is unknown and a chord is intersecting the radius line, splitting it evenly into two sections of 8 units. The part of the radius from the chord to the edge of the circle is 2 and I need to figure out what the part of the radius is that goes from the chord to the center point.
The radius is that goes from the chord to the center point is r= 8.2 units
What is a chord?The chord of a circle is a line segment that joins any two points on the circumference of the circle. The diameter is the longest chord that passes through the center of the circle
A line from the center of a circle intersecting a chord makes an angle of 90 degrees at the point of intersection
Using Pythagoras theorem
r² = c² + h²
r² = 8² + 2²
r²= 64 + 4
r² = 68
Making r the subject of the relation we have that
r = √68
r= 8.2 units
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A sales manager for a large department store believes that customer spending per visit with a sale is higher than customer spending without a sale, and would like to test that claim. A simple random sample of customer spending is taken from without a sale and with a sale. The results are shown below. Without sale with sale Mean 74.894 78.138 1951.47 1852.0102 Variance 200 300 0 Observations Hypothesized Mean Difference df t Stat PIT<=t) one-tail 419 0.813 0.208 t Critical one-tail 1.648 P(Tc=t) two-tail 0.417 t Critical two-tail 1.966 Confidence Level 95% -3 -2 -1 p= Ex: 1.234 Samples from without sale: n1 = Ex: 9 ta Samples from with sale: 12 = Degrees of freedom: df = Point estimate for spending without sale: T1 = Ex: 1.234 Point estimate for spending with sale: 22
The sales manager wants to test the claim that customer spending per visit is higher with a sale than without a sale. The data provided includes the mean and variance of customer spending for both scenarios.
Without sale:
Mean (M1) = 74.894
Variance (Var1) = 1951.47
Number of observations (n1) = 200
With sale:
Mean (M2) = 78.138
Variance (Var2) = 1852.0102
Number of observations (n2) = 300
To test this claim, we can perform a t-test comparing the means of the two samples. The hypothesis for this test would be:
H0 (null hypothesis): M1 - M2 = 0 (no difference in spending)
H1 (alternative hypothesis): M1 - M2 < 0 (spending with a sale is higher)
The t-test results provided show:
t-statistic = 0.813
p-value (one-tail) = 0.208
t-critical (one-tail) = 1.648
Degrees of freedom (df) = 419
Since the t-statistic (0.813) is less than the t-critical value (1.648), we fail to reject the null hypothesis. This means there is not enough evidence to support the claim that customer spending per visit is higher with a sale than without a sale at a 95% confidence level.
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Crickets make a chirping noise by rubbing their wings together. Biologists believe that the frequency with which crickets do this is related to the outside temperature. Here is an n=15 sample of chirps and the corresponding temperatures. 1. If the temperature was going to be 76.4 degrees tonight, how many chirps per second might we expect if the biologists are correct?
Based on the data collected, there is a correlation between the number of chirps per second and the outside temperature for crickets. Biologists have studied this and have come up with an equation to estimate the temperature based on the number of chirps per second. The higher the temperature, the more chirps per second a cricket will produce. A commonly used formula to estimate the number of chirps per minute based on temperature is Dolbear's Law:
Chirps per minute = N(T) = A + (B * T)
where N(T) is the number of chirps per minute, T is the temperature in Fahrenheit, and A and B are constants.
Temperature (in Fahrenheit) = 50 + [(number of chirps per minute - 40) / 4]
Using this equation, we can estimate the number of chirps per second at 76.4 degrees Fahrenheit as follows:
Number of chirps per minute = (temperature - 50) x 4 + 40
Number of chirps per minute = (76.4 - 50) x 4 + 40
Number of chirps per minute = 104.4
Therefore, we can expect the crickets to chirp around 1.74 times per second (104.4 chirps per minute divided by 60 seconds) if the temperature is 76.4 degrees Fahrenheit tonight.
Remember that this is just an estimation, and individual crickets may vary in their chirping frequencies.
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Determine whether Rolle's Theorem can be applied to fon the closed interval [a, b]. (Select all that apply.) F(x) =* = $1 (-9,91 Yes, Rolle's Theorem can be applied. No, because fis not continuous on the closed interval [a, b]. No, because F is not differentiable in the open interval (a, b). No, because f(a) = f(b). If Rolle's theorem can be applied, find all values of c in the open interval (a, b) such that fc) = 0. (Enter your answers as a comma-separated list. If Rolle's Theorem cannot be applied, enter NA.)
No, because F is not continuous on the closed interval [a, b]. Therefore, Rolle's Theorem cannot be applied. NA.
To determine whether Rolle's Theorem can be applied to the function F(x) on the closed interval [a, b], we need to check the following conditions:
1. F(x) is continuous on the closed interval [a, b].
2. F(x) is differentiable in the open interval (a, b).
3. F(a) = F(b).
Unfortunately, you did not provide the complete function F(x), and the interval [a, b] is also unclear. As a result, I am unable to determine if Rolle's Theorem can be applied.
If you can provide the complete function F(x) and the interval [a, b], I would be happy to help you determine if Rolle's Theorem applies and find the values of c for which F'(c) = 0.
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Suppose that the probability that a particular brand of light bulb fails before 1000 hours of use is 0.3. If you purchase 3 of these bulbs, what is the probability that at least one of them lasts 1000 hours or more?
The probability that at least one out of three bulbs lasts 1000 hours or more is 0.973 or approximately 97.3%.
To solve this problem, we need to use the concept of complementary probability. Complementary probability states that the probability of an event occurring plus the probability of its complement (the event not occurring) equals 1. Therefore, we can find the probability of at least one bulb lasting 1000 hours or more by finding the complement of the probability that all three bulbs fail before 1000 hours.
The probability that a single bulb fails before 1000 hours is 0.3. Therefore, the probability that it lasts 1000 hours or more is 0.7. Using this probability, we can find the probability that all three bulbs fail before 1000 hours as follows:
Probability of all three bulbs failing = 0.3 x 0.3 x 0.3 = 0.027
This means that the probability of at least one bulb lasting 1000 hours or more is the complement of 0.027, which is:
Probability of at least one bulb lasting 1000 hours or more = 1 - 0.027 = 0.973 or 97.3%
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When considering area under the standard normal curve, decide whether the area between z = -1.5 and z = 1.1 is bigger than, smaller than, or equal to the area between z = -1.1 and z = 1.5.
The area between z = -1.5 and z = 1.1 under the standard normal curve is smaller than the area between z = -1.1 and z = 1.5.
The standard normal curve is a bell-shaped curve with a mean of 0 and a standard deviation of 1. It is a continuous probability distribution that represents the standard normal distribution. The area under the standard normal curve represents the probability of a random variable following a standard normal distribution falling within a certain range.
To find the area between two z-scores, we can use the z-table, which provides the cumulative distribution function (CDF) values for different z-scores. The CDF gives the probability that a standard normal random variable is less than or equal to a particular z-score.
Given that z1 = -1.5 and z2 = 1.1, we can look up the CDF values for these z-scores in the z-table. Let's denote the CDF values for z1 and z2 as CDF1 and CDF2, respectively.
Similarly, for z3 = -1.1 and z4 = 1.5, we can find the CDF values denoted as CDF3 and CDF4, respectively.
Now, to find the area between z = -1.5 and z = 1.1, we subtract CDF1 from CDF2, i.e., CDF2 - CDF1. Similarly, to find the area between z = -1.1 and z = 1.5, we subtract CDF3 from CDF4, i.e., CDF4 - CDF3.
Comparing these two differences, we can see that CDF4 - CDF3 is larger than CDF2 - CDF1. This is because the z-scores -1.1 and 1.5 are closer to the mean of 0 compared to -1.5 and 1.1, resulting in a larger area under the curve between them. Therefore, the area between z = -1.1 and z = 1.5 is larger than the area between z = -1.5 and z = 1.1 under the standard normal curve.
Therefore, the area between z = -1.5 and z = 1.1 is smaller than the area between z = -1.1 and z = 1.5 under the standard normal curve.
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A student randomly selects 10 CDs at a store. The mean is $8.75 with a standard deviation of $1.50. Construct a 95% confidence interval for the population standard deviation, $$\sigma.$$ Assume the data are normally distributed.
To construct a confidence interval for the population standard deviation, we can use the chi-square distribution.
The formula for the chi-square distribution is: (X - n*σ^2)/σ^2 ~ χ^2(n-1)
where X is the sample variance, n is the sample size, σ is the population standard deviation, and χ^2(n-1) is the chi-square distribution with n-1 degrees of freedom.
We can rearrange this formula to get a confidence interval for σ:(X/χ^2(a/2, n-1), X/χ^2(1-a/2, n-1))
where X is the sample variance, n is the sample size, a is the level of significance (1 - confidence level), and χ^2(a/2, n-1) and χ^2(1-a/2, n-1) are the chi-square values with n-1 degrees of freedom that correspond to the lower and upper bounds of the confidence interval, respectively.
First, we need to calculate X, the sample variance:s^2 = (1/n) * Σ(xi - x)^2
where s is the sample standard deviation, n is the sample size, xi is the value of the i-th observation, and x is the sample mean.
Substituting the given values, we get:s = $1.50
n = 10
x = $8.75
s^2 = (1/10) * Σ(xi - x)^2
s^2 = (1/10) * [(xi - x)^2 + ... + (xi - x)^2]
s^2 = (1/10) * [(xi - 8.75)^2 + ... + (xi - 8.75)^2]
s^2 = (1/10) * [(54.76) + ... + (0.06)]
s^2 = 5.47
Next, we need to find the chi-square values for the 95% confidence interval:a = 0.05
χ^2(0.025, 9) = 2.700
χ^2(0.975, 9) = 19.023
Finally, we can calculate the confidence interval for σ:(X/χ^2(0.975, 9), X/χ^2(0.025, 9))
(5.47/19.023, 5.47/2.700)
($0.32, $2.02)
Therefore, we can say with 95% confidence that the population standard deviation is between $0.32 and $2.02.
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Liesa wants to put grass seeds on her rectangular shaped backyard. She measured her backyard as 80 feet long by 54 feet wide. How many square yards of grass seed will Liesa put down?
The area of the rectangular backyard where Liesa will put down the grass seed is equal to 480 square yards.
Shape of the backyard is rectangular.
length of the rectangular backyard is equal to 80 feet
Width of the rectangular backyard is equal to 54 feet.
Area of Liesa's backyard in square feet is,
Area of the rectangular backyard = Length x Width
Substitute the values we have,
⇒Area of the rectangular backyard = 80 feet x 54 feet
⇒Area of the rectangular backyard = 4,320 square feet
Now, convert square feet to square yards,
Divide by the number of square feet in one square yard.
3 feet = one yard,
⇒ one square yard = 3 x 3
⇒ one square yard = 9 square feet.
Convert square feet to square yards, divide by 9.
Area in square yards = Area in square feet / 9
⇒Area in square yards = 4,320 square feet / 9
⇒Area in square yards = 480 square yards
Therefore, area where the Liesa will need to put down 480 square yards of grass seed in her backyard.
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4. Find the flux over the sphere S, given by x² + y2 + z2 = a3 and oriented outward, where F (x/(x2 + y2 + z2)^3/2 , y/(x2 + y2 + z2)^3/2, z/(x2+y2+z2)^ 3/2 )
The flux over the sphere S is 4πa.
Now, For find the flux over the sphere S, we can use the Divergence Theorem which relates the surface integral of a vector field to the volume integral of its divergence.
Hence, Let's start by finding the divergence of F.
⇒ div F = (∂/∂x)(x/(x²+y²+z²)^(3/2)) + (∂/∂y)(y/(x²+y²+z²)^(3/2)) + (∂/∂z)(z/(x²+y²+z²)^(3/2))
After some algebraic manipulation, we can simplify this to:
div F = 3/(x²+y²+z²)^(3/2)
Now, we can use the Divergence Theorem to relate the surface integral of F over the sphere S to the volume integral of its divergence over the region enclosed by S.
The volume enclosed by S is just the ball x²+y²+z² = a³.
So, we have:
Flux = ∫∫S F · dS = ∫∫∫V div F dV
= ∫∫∫V 3/(x²+y²+z²)^(3/2) dV
= 4πa³/√a³
Therefore, the flux over the sphere S is 4πa.
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Find a function r(t) that describes the line or line segment. - + The line through P(4, 9, 3) and Q(1, 6, 7): r(t) = (4 + 4t, 9 - 3t, 3-31) r(t) = (4 - 3t, 9 - 3t, 3 + 47) r(t) = (4 - 3,9 - 4t, 3+37) r(t) = (4 - 3t, 9 + 4t, 3-31)
The correct function r(t) that describes the line passing through points P(4, 9, 3) and Q(1, 6, 7) is r(t) = (4 - 3t, 9 - 3t, 3 + 4t). To obtain this function, we can use the parametric equation for a line in three-dimensional space:
r(t) = P + t(Q - P)
where P and Q are the given points. Substituting the coordinates of P and Q, we get:
r(t) = (4, 9, 3) + t[(1, 6, 7) - (4, 9, 3)]
r(t) = (4, 9, 3) + t(-3, -3, 4)
r(t) = (4 - 3t, 9 - 3t, 3 + 4t)
This function, r(t), describes the line that passes between P and Q. Each point along the line is represented by a parameter t that varies throughout the real numbers. For example, when t = 0, we get the point P, and when t = 1, we get the point Q.
Hence, The correct function r(t) that describes the line passing through points P(4, 9, 3) and Q(1, 6, 7) is r(t) = (4 - 3t, 9 - 3t, 3 + 4t).
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Leah polled 592 people throughout each city in her county. Each city is the same size.
Is this sample of the residents of cities in the county likely to be biased?
yes
no
While the sample size and equal representation from each city are positive factors, it's still possible that the sample could be biased in some way.
What is statistics?
Statistics is a branch of mathematics that deals with the collection, analysis, interpretation, presentation, and organization of numerical data. It involves the use of methods and techniques to gather, summarize, and draw conclusions from data.
It's difficult to determine whether Leah's sample is biased without additional information about how she selected the participants for the survey. However, there are some potential sources of bias that could arise even if the sample was selected randomly from each city.
For example, if Leah conducted the survey during the day, she may have missed out on the opinions of people who work or attend school during those hours. Alternatively, if Leah conducted the survey in a specific location, such as a park or shopping mall, she may have inadvertently excluded people who do not frequent those areas.
Therefore, while the sample size and equal representation from each city are positive factors, it's still possible that the sample could be biased in some way.
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x Eval SR dA R १२ R= [0,3] [1,2] JO Please write clearly and Show all steps. Thanks!
integrated I(y) with respect to y, you'll get a numerical value for the double integral ∬(R) SR dA.
The specific function SR, it's not possible to provide a numerical answer.
Step-by-step explanation should help you evaluate the double integral for any given SR.
To evaluating a double integral over a region R.
Let's break it down step-by-step.
Identify the region R: R is given by the bounds [0, 3] for the x-axis and [1, 2] for the y-axis.
This defines a rectangular region in the xy-plane.
Set up the double integral:
Since the region R is a rectangle, you can write the double integral as:
∬(R) SR dA = ∫(x=0 to x=3) ∫(y=1 to y=2) SR dx dy
Here, SR represents the integrand that you need to integrate with respect to x and y.
Integrate with respect to x:
To evaluate the inner integral, integrate SR with respect to x, while keeping y constant.
Let's denote the result as I(y).
I(y) = ∫(x=0 to x=3) SR dx
Integrate with respect to y:
Now, evaluate the outer integral by integrating I(y) with respect to y over the given range [1, 2]:
∬(R) SR dA = ∫(y=1 to y=2) I(y) dy
Evaluate the integral:
Once you've integrated I(y) with respect to y, you'll get a numerical value for the double integral ∬(R) SR dA.
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The number of visible defects on a product container is thought to be Poisson distributed with a mean equal to 4.3. Based on this, the probability that 2 containers will contain less than 2 defects is:
The probability that 2 containers will contain less than 2 defects is approximately 0.005184 or 0.5184%.%
We can solve this problem using the Poisson distribution. Let X be the number of defects on a product container, which is Poisson distributed with a mean of λ = 4.3.
To find the probability that a container has less than 2 defects, we can use the Poisson probability mass function:
P(X < 2) = P(X = 0) + P(X = 1)
The probability of X = 0 is:
[tex]P(X = 0) = e^(-λ) * λ^0 / 0! = e^(-4.3) ≈ 0.013[/tex]
The probability of X = 1 is:
[tex]P(X = 1) = e^(-λ) * λ^1 / 1! = e^(-4.3) * 4.3 / 1 ≈ 0.059[/tex]
Therefore, the probability that a randomly chosen container will have less than 2 defects is:
P(X < 2) = P(X = 0) + P(X = 1) ≈ 0.013 + 0.059 = 0.072
So, the probability that 2 containers will contain less than 2 defects is:
[tex]P(X_1 < 2 and X_2 < 2) = P(X < 2)^2 ≈ 0.072^2 = 0.005184[/tex]
Therefore, the probability that 2 containers will contain less than 2 defects is approximately 0.005184 or 0.5184%.
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The position function of an object thrown on the moon is given by s(t) = 6.5t - 0.831?, where time, t, is in seconds and distance, s, is in metres. Find the maximum height of the object. Itse Calculus 5. The position function of a particle is given by s(t) = { - 12+ + 45t +3, where time, t, is in seconds, and distance, s, is in metres, and t > 0. Find the velocity of the particle when the acceleration is zero.
The maximum height of the object thrown on the moon is approximately 12.739 meters.
The maximum height of the object thrown on the moon can be found by first finding the time when the velocity is zero, and then using that time to calculate the height using the position function.
Step 1: Differentiate the position function s(t) = 6.5t - 0.831t² to get the velocity function v(t).
v(t) = 6.5 - 1.662t
Step 2: Set the velocity function equal to zero and solve for t.
0 = 6.5 - 1.662t
t ≈ 3.911 seconds
Step 3: Plug the value of t into the position function to find the maximum height.
s(3.911) = 6.5(3.911) - 0.831(3.911)²
s(3.911) ≈ 12.739 meters
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96 books to and shelves that hold 9 books how many shelves are needed to hold all 96 books.
To hold all 96 books, we need 11 shelves.
What is an expression?
Expression in maths is defined as the collection of numbers variables and functions by using signs like addition, subtraction, multiplication, and division.
To find the number of shelves required to hold 96 books, we divide the total number of books by the number of books that can be held on one shelf. In this case, each shelf can hold 9 books. Therefore, the number of shelves required is calculated as:
Number of shelves = Total number of books / Number of books per shelf
Number of shelves = 96 / 9
Number of shelves = 10.6667
Since we cannot have a fractional number of shelves, we round up the answer to the nearest whole number, which gives us 11 shelves.
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Express the confidence interval 0.254 + 0.048 in the form of p-E
Midpoint = (0.254 + 0.048)/2 = 0.151
E = 0.048 - 0.151 = -0.103
Since E is negative, we can express the confidence interval in the form of p-E as:
p - |-0.103| = p + 0.103
Therefore, the confidence interval 0.254 + 0.048 in the form of p-E is p + 0.103.
The given confidence interval is in the form of p ± E.
The confidence interval you provided is 0.254 + 0.048. To express it in the form of p ± E, you need to find the midpoint (p) and the margin of error (E).
1. Calculate the midpoint (p):
To find the midpoint, add the lower limit (0.254) to the range (0.048) and then divide by 2.
(0.254 + 0.048) / 2 = 0.302 / 2 = 0.151
2. Calculate the margin of error (E):
Now, subtract the lower limit (0.254) from the midpoint (0.151).
E = 0.151 - 0.254 = -0.103
Since the margin of error is always expressed as a positive value, we will use the absolute value of -0.103, which is 0.103.
Now you can express the confidence interval in the form p ± E:
0.151 ± 0.103
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