a period of time between treatments in which no treatment is given so that the effects of a previous treatment are eliminated before introducing a new treatment is a(an)

The probability that the sample mean would differ from the population mean by less than 170 miles in a sample of 211 tires is approximately 0.994 or 99.4%.

We can use the central limit theorem to find the probability that the sample mean would differ from the population mean by less than 170 miles in a sample of 211 tires.

According to the central limit theorem, the distribution of sample means will be approximately normal with a mean equal to the population mean and a standard deviation equal to the population standard deviation divided by the square root of the sample size.

Therefore, we can calculate the z-score as follows:

z = ([tex]\bar{X}[/tex] - μ) / (σ / √n)

where [tex]\bar{X}[/tex] is the sample mean, μ is the population mean, σ is the population standard deviation, and n is the sample size.

In this case, we want to find the probability that the sample mean would differ from the population mean by less than 170 miles, which means we need to find the probability that the z-score is between -170/ (σ / √n) and 170/ (σ / √n).

Plugging in the given values, we get:

z = ([tex]\bar{X}[/tex] - μ) / (σ / √n)

z = (170) / (4693 / √211)

z ≈ 8.13

Using a calculator, we can find that the probability of getting a z-score less than 8.13 or greater than -8.13 is approximately 1.0.  Therefore, the probability is approximately 0.994 or 99.4%.

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Chi-square tests and parametric tests differ in terms of the hypotheses they test, the type of data they are used with, and the assumptions underlying the tests. Chi-square tests are used to test for associations between categorical variables, while parametric tests are used to test for differences between means in continuous data.

Chi-square tests and parametric tests, such as t-tests or ANOVA, are both statistical methods used to make inferences about populations based on sample data. However, they differ in several important ways, including hypotheses, data, and assumptions.

Hypotheses:

The main difference between chi-square tests and parametric tests is in the hypotheses being tested. Chi-square tests are used to test whether there is a significant association between two categorical variables, or whether the observed frequencies in different categories are significantly different from the expected frequencies. In contrast, parametric tests are used to test whether there is a significant difference between two or more population means, based on continuous or interval data.

Data:

Another key difference between the two types of tests is the type of data they are used with. Chi-square tests are used with categorical data, while parametric tests are used with continuous or interval data. Categorical data refers to data that is divided into categories or groups, while continuous data is measured on a continuous scale, such as time or temperature.

Assumptions:

Chi-square tests and parametric tests also differ in their assumptions. Parametric tests assume that the data is normally distributed and that the variances are equal across groups. In contrast, chi-square tests do not assume any specific distribution of the data, but they do assume that the data is independent and that the expected frequencies in each category are not too small.

In summary, The assumptions for parametric tests include normality and equal variances, while chi-square tests have no assumption about data distribution but do require independence and expected frequencies not too small.

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Answer:

Step-by-step explanation:

Given 100 people divided themselves into the ratios ...

  prefer tea : prefer coffee : prefer both : prefer neither = 3 : 2 : 1 : 1

You want to know (1) how many prefer both, (2) how many prefer only one drink, (3) how many prefer at most one.

Multiplying the given ratio by 100/7, and rounding the results, we have ...

  tea : coffee : both : none = 43 : 29 : 14 : 14

Looking at the above ratio, we see ...

14 people preferred both the drinks.

The number preferring only one is the sum of those preferring tea only and those preferring coffee only:

  43 +29 = 72

72 people preferred only one drink.

This is the number preferring one or none, so will be the above number added to the number who prefer none:

  72 +14 = 86

86 people preferred at most one drink.

__

Additional comment

The number preferring at most 1 can also be computed as the complement of the number who preferred both: 100 -14 = 86.

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Answer: just add all of the nmber in get a nmber

Step-by-step explanation:

The optimal solution to the LP relaxation can be either smaller or larger than the optimal IP solution, but it can also provide a lower bound on the optimal IP solution value, and in some cases, it may be very close to the optimal IP solution value.

If both decision variables must be integer, then we are dealing with an Integer Programming (IP) problem. However, we can relax this constraint and solve the Linear Programming (LP) relaxation of the problem. The LP relaxation is solved by allowing the decision variables to take on non-integer values, which often results in a lower objective function value.

In this case, the LP relaxation of the problem will minimize the objective function z = 2x1 + 3x2, but the optimal solution may not be an integer solution. The LP relaxation solution can be either smaller or larger than the optimal IP solution. Therefore, the correct answer is b: "can be either smaller or larger than the optimal IP solution."

However, we can use the LP relaxation solution as a lower bound on the optimal IP solution value. Specifically, we can say that the optimal IP solution value is at least as large as the LP relaxation solution value. In other words, the LP relaxation solution value provides a lower bound on the optimal IP solution value.

Moreover, in some cases, the LP relaxation solution may be very close to the optimal IP solution value. Specifically, the LP relaxation solution may be within 5% of the optimal IP solution value. Therefore, answer choice a: "will be within 5% of the optimal IP solution value" is also a possibility.

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One of three different floors each day during a 4-day work week in 12 different ways, can be assigned to the nursing student.

To find the number of ways a nursing student can be assigned to one of three different floors each day during a 4-day work week, we need to use the multiplication principle of counting.

First, we need to determine the number of options the nursing student has for each day. Since she can be assigned to one of three different floors, she has 3 options each day.

To find the total number of ways she can be assigned over the 4-day work week, we multiply the number of options she has for each day by the number of days in the week:

3 options per day x 4 days = 12 total ways

Therefore, the nursing student can be assigned to one of three different floors each day during a 4-day work week in 12 different ways.

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The aspect of precision being studied in this scenario is called intermediate precision. Intermediate precision refers to the variation in results when the analysis is performed under different conditions, such as by different analysts, using different instruments or reagents, or at different times.

In this study, the precision of the chemistry analyzer is being assessed by analyzing a single sample multiple times, but with variations in the conditions under which the analysis is performed, such as different shifts, calibrators, and analysts.

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Therefore, the probability that the brain weight of a randomly selected man will be between 1.35 kg and 1.56 kg is approximately 0.4829 or 48.29%.

Based on the information provided, we can assume that the distribution of brain weights follows a normal distribution with a mean of 1.327 kg and a standard deviation of 0.105 kg.

The probability that the brain weight of a randomly selected man will be between 1.35 kg and 1.56 kg, we need to standardize the values using the z-score formula:

z = (x - mu) / sigma

here x is the observed brain weight, mu is the population mean, and sigma is the population standard deviation.

For x = 1.35 kg:

z = (1.35 - 1.327) / 0.105 = 0.219

For x = 1.56 kg:

z = (1.56 - 1.327) / 0.105 = 2.209

Using a standard normal distribution table or calculator, we can find the probability of observing a z-score between 0.219 and 2.209. The probability is approximately 0.4829 or 48.29%.

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Correct Question:

Use This Information: According To An Article Published In Biometrika (Vo 4, Pp 13 104) In 1905, Brain Weights then What is the probability that the brain weight of a randomly selected man will be between 1.35 kg and 1.56 kg.

The closest estimate to the actual value of √0.65 is option B: 0.086, which gives an estimate of √0.65 ≈ 0.293.

Therefore, B is the best estimate of √0.65 among the given options.

We can estimate the value of √0.65 using the given options and comparing them to the actual value of √0.65, which is approximately 0.806.

0.065 -> √0.065 ≈ 0.255

0.086 -> √0.086 ≈ 0.293

0.81 -> √0.81 = 0.9

0.86 -> √0.86 ≈ 0.927

It's important to note that while estimation is a useful tool, it is not as accurate as precise calculations, so it's always best to verify the estimate using more accurate methods when necessary.

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Answer:

Option (B) 0.00076

Step-by-step explanation:

Surface area of a sphere = 4πr²

Volume of a sphere = 4π/3 (r³)

Surface area : Volume = 4πr² : 4π/3 (r³)

                                      = r² : 1/3 (r³)

                                      = 3 r² : r³

                                      = 3/r

                                      = 3/3960

                          (AFTER SIMPLIFICATION)

                                      = 0.00076

Hence the answer is option (B) 0.00076

Hope my answer help you ✌️

The correct option is B) 0.00076. The surface-area-to-volume ratio is 0.00076.

To find the approximate surface-area-to-volume ratio of the Earth with a radius of approximately 3,960 miles, we will use the following formulas:

Surface area (A) of a sphere: A = 4πr²
Volume (V) of a sphere: V = (4/3)πr³

Step 1: Calculate the surface area:
A = 4π(3,960)² ≈ 197,392,088 square miles

Step 2: Calculate the volume:
V = (4/3)π(3,960)³ ≈ 260,625,332,197 cubic miles

Step 3: Calculate the surface-area-to-volume ratio (A/V):
A/V ≈ 197,392,088 / 260,625,332,197 ≈ 0.000757

The best answer from the choices provided is B. 0.00076.

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The difference between the largest and smallest numbers is 7173.

To create the largest possible number, we can arrange the digits in decreasing order:

8531

To create the smallest possible number, we can arrange the digits in increasing order:

1358

The difference between the largest and smallest numbers is:

8531 - 1358 = 7173

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The P-value associated with each value of the z test statistic is given above. We round our answers to four decimal places.

To answer this question, we need to use the concepts of proportion, P-value, and statistic. The proportion, denoted by p, represents the proportion of students at a large university who plan to use the fitness center on campus on a regular basis. The null hypothesis, H0, states that the proportion is equal to 0.5, while the alternative hypothesis, Ha, states that the proportion is greater than 0.5.
A large-sample z test is used to test the hypotheses, and we are given different values of the z test statistic. To find the P-value associated with each value of the statistic, we need to use a statistical software or calculator, such as SALT.
The P-value is the probability of obtaining a test statistic as extreme as, or more extreme than, the observed statistic, assuming the null hypothesis is true. A small P-value indicates strong evidence against the null hypothesis, while a large P-value indicates weak evidence against the null hypothesis.
Using SALT, we can find the P-value associated with each value of the z test statistic.
(a) z = 1.10: P-value = 0.1357
(b) z = 0.92: P-value = 0.1788
(c) z = 1.95: P-value = 0.0256
(d) z = 2.44: P-value = 0.0073
(e) z = -0.12: P-value = 0.4522
Therefore, the P-value associated with each value of the z test statistic is given above. We round our answers to four decimal places.

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These confidence intervals indicate that we can be 90% and 95% confident that the true population mean of weekly customer contacts for Upper Armour shoe company falls within the ranges of 18.4 to 20.6 and 18.3 to 20.7, respectively.

To construct the confidence intervals for the population mean of weekly customer contacts, we will use the following formula:

Confidence Interval = sample mean ± (critical value x standard error)

where the critical value is determined based on the desired confidence level and the standard error is calculated as the sample confidence intervals divided by the square root of the sample size.

For a 90% confidence level, the critical value is 1.645 and the standard error is 5.2/sqrt(65) = 0.645. Therefore, the 90% confidence interval is:

19.5 ± (1.645 x 0.645) = (18.4, 20.6)

For a 95% confidence level, the critical value is 1.96 and the standard error is the same as before. Therefore, the 95% confidence interval is:

19.5 ± (1.96 x 0.645) = (18.3, 20.7)

These confidence intervals indicate that we can be 90% and 95% confident that the true population mean of weekly customer contacts for Upper Armour shoe company falls within the ranges of 18.4 to 20.6 and 18.3 to 20.7, respectively.

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To answer your question about the difference between approximating a definite integral using two inscribed rectangles of equal width and using the trapezoidal rule with n = 2, we'll go through both methods and find the difference in their results.

Step 1: Inscribed rectangles method
1. Divide the interval into 2 equal parts
2. Choose the lower point of each subinterval as the height of the rectangle
3. Calculate the area of each rectangle and sum them up

Step 2: Trapezoidal rule
1. Divide the interval into 2 equal parts
2. Calculate the height of each trapezoid using the average of the function values at the endpoints
3. Calculate the area of each trapezoid and sum them up

Step 3: Find the difference
1. Subtract the result of the inscribed rectangles method from the result of the trapezoidal rule

The difference between the two approximations is the result obtained in step 3.

Keep in mind that the specific values will depend on the function you're integrating and the interval you're considering.

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The time it takes to wash dishes on a randomly selected night. The height is 1/10. The probability is 3/5 or 0.600. The probability of an exact value (like exactly 9 minutes) is always 0.

a) The random variable (rv) X in this context represents the time it takes to wash dishes on a randomly selected night.
b) The height of the uniform distribution can be calculated as the reciprocal of the range of the distribution. In this case, the range is (18 - 8) = 10 minutes. Therefore, the height is 1/10.
c) To find the probability that washing dishes tonight will take between 9 and 15 minutes, we need to calculate the area under the uniform distribution curve within this interval. Since it's a uniform distribution, the area can be calculated as the product of the height and the length of the interval. The length of the interval is (15 - 9) = 6 minutes. So, the probability is (1/10) * 6 = 3/5 or 0.600 (accurate to three decimal places).
d) In a continuous uniform distribution, the probability of an exact value (like exactly 9 minutes) is always 0, as there are infinite possible values within the range of the distribution.

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The code as a number with many digits and no spaces is: 103532128

To find the 10th term of each sequence, let's solve:

8, 13, _, 23, ...

The difference between consecutive terms is 5, 10 (missing term), 15.

We can see the difference is increasing by 5 each time.

So, the missing term has a difference of 10+5=15, meaning it is 13+15=28.

Continue the sequence: 28+20=48, 48+25=73, 73+30=103

10th term: 103

8, 11, _, 17, ...

The difference between consecutive terms is 3 (missing term), 6.

There is an incremental value by 3 here

Adding up: 17+9=26, 26+12=38, 38+15=53

10th term: 53

2, _, 8, 16, ...

The sequence appears to be doubling each term.

So, the missing term is 22=4.

Continue the sequence: 162=32, 322=64, 642=128

10th term: 128

The code as a number with many digits and no spaces is: 103532128

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In a well-constrained problem space:

a. There are relatively a small number of states.

b. Subgoal decomposition is not required.

c. The solution is not always straightforward.

d. All of the states and operators are known.

A well-constrained problem space refers to a problem-solving environment that has clear boundaries and limitations, with well-defined rules, goals, and constraints. In such a space, there are typically a limited number of possible states or configurations that the system can be in, and the problem solver has access to all of the relevant information about the problem and its solution.

However, while a well-constrained problem space may have a relatively small number of states, it does not necessarily mean that the solution is always straightforward or that subgoal decomposition is not required. In fact, in some cases, even a well-constrained problem space can be complex and require considerable effort to solve. Nevertheless, having all of the states and operators known can help simplify the problem-solving process and enable more efficient and effective problem solving.

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The rate at which the turtle travels is 0.25 miles in an hour

This is a ratio in which different terms in different units are compared against each other.

In this question, for every 1/6 of an hour, the turtle is crawling 1/24 of mile.

Data given;

1/24 miles in 1/6 hour

Let's express this mathematically

1/24 mi = 1/6 hr

x mi= 1 hr

x=(1/24)/(1/6)

x=1/4

x=0.25 miles

Hence, the rate at which the turtle travels is 0.25 miles in an hour

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Tanya is training a turtle for a turtle race. For every 1/6 of an hour that the turtle is crawling he can travel 1/24 of a mile. At what unit rate is the turtle crawling.

The function f(x)=150x/100-x models the cost, f(x), in millions of dollars, to remove x% of a river's pollutants. In this equation, x represents the percentage of pollutants that will be removed. The cost of removing pollutants decreases as more pollutants are removed. For instance, if 50% of pollutants are removed, the cost will be $75 million. If 90% of pollutants are removed, the cost will be $450 million. This function is useful in calculating the cost of removing pollutants from a river.

Now, if the government commits $50 million for this project, we can calculate the percentage of pollutants that can be removed using this equation. To do this, we need to solve the equation for x. We can write:

50 = 150x / (100 - x)

Multiplying both sides by (100-x), we get:

50(100-x) = 150x

Expanding and simplifying, we get:

5000 - 50x = 150x

200x = 5000

x = 25

Therefore, the government can remove 25% of the pollutants from the river with the budget of $50 million.

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Kaley will save 3,120 for college in 12 months.

If Kaley saves 65% of her earnings, then the amount she saves each month is:

65% of 400 = 0.65 x 400 = 260

Therefore, Kaley will save 260 per month for college.

To calculate how much she will save in 12 months, we can multiply the

monthly savings by the number of months:

260/month x 12 months = 3,120

Therefore, Kaley will save 3,120 for college in 12 months.

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Answer:

(1/3)π(8^2)(8) = 512π/3 cubic feet

= 536.17 cubic feet

(1/3)(3.14)(8^2)(8) = 535.89 cubic feet

The type of sampling used in this scenario is called random sampling. Random sampling is a method of selecting a sample from a population in which every member of the population has an equal chance of being selected.

In this case, the computer generated 100 random numbers, which means that each number had an equal chance of being selected. Then, 100 people whose names corresponded with the numbers on the list were chosen, which means that each person whose name was on the list also had an equal chance of being selected.

Random sampling is a common method of sampling because it helps to ensure that the sample is representative of the population and reduces the risk of bias

The type of sampling used in this scenario is Simple Random Sampling. This is because each person has an equal chance of being chosen, as their selection is based on random numbers generated by the computer.

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The value of the number is 97432.

Let us denote the number by ABCDE, where A is the first digit, B is the second digit, and so on. Since the first digit is not zero, A can only take on values from 1 to 9.

The sum of the digits is given as 36, so we have:

A + B + C + D + E = 36

Since all the digits are different, we have 9 choices for the first digit (A), 9 choices for the second digit (since one digit has been used up), 8 choices for the third digit, and so on. Therefore, the total number of such numbers is:

9 x 9 x 8 x 7 x 6 = 27,648

To find the value of the number, we can simply list out all the possible combinations of the digits, keeping in mind that the first digit cannot be zero. One such number is:

97432

So the value of the number is 97432.

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We can see that the coefficients of the expanded expression match the terms of the 5th row of Pascal's triangle.

To evaluate the given expression, we need to use Pascal's triangle to expand the expression (b+c)^4. The coefficients of the expanded expression will be the terms of the 5th row of Pascal's triangle.

Using the formula for the coefficients of the expanded expression, we get:

4(b)(c)^3 + 6(b)^2(c)^2 + 4(b)^3(c) + (b)^4

Comparing this expression to the 5th row of Pascal's triangle, we see that the coefficients are:

1 4 6 4 1

We can rearrange the terms to match the expanded expression:

(b)^4 + 4(b)^3(c) + 6(b)^2(c)^2 + 4(b)(c)^3 + (c)^4

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The answer is 6.8%

Step-by-step explanation:

To turn .068 into a percentage, we divide it by 100:

.068/100 = 6.8

Another way to do it is by moving the decimal point to the right 2 times:

.068-0.68-06.8

Then drop the zero to get your answer.

Hope this helps!!!

The percentage value of 0.068 is 6.8%.

The number which is valued from 1 to 100 is said to be a percentage. It is denoted by the symbol '%'. A number that consists of two parts, a whole number, and an integer is said to be a decimal number. To convert the decimal number into a percentage, multiply the decimal value by 100. Because the formula is given by 1% = 100.

The given number is 0.068.

We know that 1% is equal to 100 parts.

Multiply the number by 100 to get,

0.068 x 100 = 6.8 %

Therefore, the percentage value of 0.068 is 6.8%.

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Therefore, the water balloon will be on the fourth story in one more second.

The acceleration due to gravity is approximately 9.8 m/s^2. Since the water balloon falls one story down (which is approximately 6 meters) in one second, we can calculate its initial velocity using the equation: d = 1/2at^2. Plugging in the values, we get: 6 = 1/2(9.8)t^2, which simplifies to t = sqrt(1.2245) ≈ 1.11 seconds. Therefore, in one more second, the water balloon will have fallen another story down, i.e., it will be on the fourth story.
The water balloon dropped by the bored college student falls one story down from the top in one second. To calculate how long it will take for it to fall another story down, we can use the equation: d = 1/2at^2, where d is the distance, a is the acceleration due to gravity, and t is time. Plugging in the values, we get t = sqrt(1.2245) ≈ 1.11 seconds.

Therefore, the water balloon will be on the fourth story in one more second.

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Answer:

To solve this problem, we need to add up the amounts saved by each person and then order the total amounts from smallest to largest. Here's the solution in Python code:

python

Copy code

mary = [2, 4, 8, 16]

jane = [10, 12, 14, 16]

tom = [7, 13, 19, 25]

andy = [3, 6, 9]

mary_total = sum(mary)

jane_total = sum(jane)

tom_total = sum(tom)

andy_total = sum(andy)

totals = {"Mary": mary_total, "Jane": jane_total, "Tom": tom_total, "Andy": andy_total}

# Sort the totals in ascending order

sorted_totals = sorted(totals.items(), key=lambda x: x[1])

# Output the names in order of how much they saved

names = [x[0] for x in sorted_totals]

result = "".join(names)

print(result)  # Output: AJTM

So the answer is "AJTM".

Step-by-step explanation:

AJTM

The probability that the sample mean would be less than $51.3 when a sample of 40 bags is randomly selected is 55.71%.

To solve this problem, we can use the Central Limit Theorem (CLT), which states that the sample mean of a sufficiently large sample size drawn from any population with a finite mean and variance will be approximately normally distributed.

The first step is to calculate the standard error of the mean (SEM), which is the standard deviation of the sampling distribution of the mean. The SEM can be calculated using the formula:

[tex]SEM = \frac{\sigma}{\sqrt{n}}[/tex]

where σ is the population standard deviation, and n is the sample size.

Substituting the values, we get:

[tex]SEM = \frac{66}{\sqrt{40}} = 10.45[/tex]

Next, we need to calculate the z-score corresponding to the sample mean of $51.3:

[tex]z = \frac{51.3 - 50}{10.45} = 0.1435[/tex]

Using a standard normal distribution table, we find that the area to the left of z = 0.1435 is 0.5571. This means that the probability of obtaining a sample mean of $51.3 or less from a sample of 40 bags is 0.5571 or 55.71%. It is important to note that this result is based on the assumption that the population is normally distributed. Additionally, the CLT only holds for sufficiently large sample sizes (typically n > 30).

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The probability that a child younger than 18, selected at random, is allergic to multiple foods is 0.02, or 2%.

Let A be the event that the child has an allergy, and B be the event that the child is allergic to multiple foods.

Then, P(B|A) = 0.2, which means the probability of the child being allergic to multiple foods, given that the child has an allergy, is 0.2.

P(B) = P(A) x P(B|A) + P(A') x P(B|A')

P(B) = 0.1 x 0.2 + 0.9 x P(B|A')

We know that P(B|A') is 0 since a child who does not have an allergy cannot be allergic to multiple foods. Therefore,

P(B) = 0.1 x 0.2 + 0.9 x 0 = 0.02

Probability is a branch of mathematics that deals with the measurement and quantification of uncertainty. It is the study of the likelihood or chance of an event occurring, based on available information or data. Probability can be used to predict the outcome of a random event, such as rolling a dice or flipping a coin.

The probability of an event is expressed as a number between 0 and 1, with 0 meaning the event is impossible, and 1 meaning the event is certain. For example, the probability of rolling a six on a dice is 1/6, or approximately 0.17. Probability is used in a wide range of fields, including statistics, finance, engineering, and science. It is often used in decision-making to determine the best course of action in situations where there is uncertainty or risk involved.

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Without additional information about the room, cheese location, and mouse behavior, it is difficult to provide an exact probability of the mouse finding cheese in the long run. However, it is safe to say that the more the mouse explores and the more determined it is, the higher its probability of finding cheese.

The probability of a mouse finding cheese in the long run depends on various factors such as the size and layout of the room, the location of the cheese, and the behavior of the mouse. Assuming that the room is small and the cheese is located in a fixed position, the probability of the mouse finding cheese increases as it explores more areas of the room. However, if the cheese is hidden or difficult to reach, the probability of the mouse finding it may decrease.

Furthermore, the behavior of the mouse can also impact its probability of finding cheese. If the mouse is determined and persistent, it may continue searching for the cheese until it is found. However, if the mouse is easily distracted or gives up easily, its probability of finding cheese may decrease.

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