QUESTION 1: Find the eigenvalues and eigenvectors of the matrix A = 1 1 3
1 5 1
3 1 1
QUESTION 2: Find a matrix P which transforms the matrix A= 1 1 3
1 5 1
3 1 1
to diagonal form. Hence calculate A⁴

It will take 41.5 mins for the ship to get to Cuba which is 90 miles away

How to determine this

The cruise ships travels about 130 hours per hour

i.e 130 miles = 1 hours

How long can the ship for 90 miles

Let x represent the number of time it will take

When 130 miles = 1 hour

90 miles = x

To calculate this

x = 90 miles * 1 hour/ 130 miles

x =90/130 hour

x = 9/13 hour

To calculate in minutes

x = 9/13 * 60 minutes

x = 41.5 minutes

Therefore, it will take 41.5 minutes to go 90 miles away.

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The strength of the relationship is moderate, linear, and negative.

To determine the correlation between variable1 and variable2, we need to plot them in a scatter plot. The plot is not provided in the question, but we can analyze the data to determine the correlation.

Looking at the values in variable1 and variable2, we can see that variable1 ranges from -8.02429 to 8.00414 and variable2 ranges from 2.31758 to 92.44574. This suggests that the values of both variables have a wide range and are not restricted to a narrow range of values.

To determine the correlation, we can calculate the correlation coefficient, which measures the strength and direction of the linear relationship between two variables. The correlation coefficient ranges from -1 to 1, with -1 indicating a perfect negative linear relationship, 0 indicating no linear relationship, and 1 indicating a perfect positive linear relationship.

Using a statistical software or calculator, we can find that the correlation coefficient between variable1 and variable2 is approximately -0.72. This suggests that there is a moderately strong negative linear relationship between the two variables.

Therefore, the correct answer is a. The strength of the relationship is moderate, linear, and negative.

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70 is the answer

Step-by-step explanation:

1.1 To find the domain of the function g(x) = √((x - 1)(2 – 2)), first, we need to determine the values of x for which the function is defined.

Since the expression inside the square root is (x - 1)(2 – 2), we can see that (2 – 2) equals zero. Therefore, the expression inside the square root simplifies to (x - 1) * 0, which is always equal to 0. The square root of 0 is also 0, so the function g(x) is defined for all real values of x. Hence, the domain of the function g(x) is all real numbers.

1.2 The size of an insect population at time t (measured in days) is given by the function p(t) = 3000 - 2000/(1+t^2). To determine the initial population (P(0)), substitute t = 0 into the function:

P(0) = 3000 - 2000/(1 + 0^2) = 3000 - 2000/1 = 3000 - 2000 = 1000

So the initial population is 1000 insects.

Next, we need to find the population size after 4 days, which means we need to evaluate p(4):

P(4) = 3000 - 2000/(1 + 4^2) = 3000 - 2000/(1 + 16) = 3000 - 2000/17 ≈ 2882.35

After 4 days, the population size is approximately 2882.35 insects.

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The correct answer is B. Max: 29, Min: 27

To find the absolute maximum and minimum values of the function f(x) = x³ + 3x² – 9x + 27 on the interval [0,2], we need to first find the critical points and then evaluate the function at these points and at the endpoints of the interval.

Taking the derivative of the function, we get:

f'(x) = 3x² + 6x - 9

Setting this equal to zero and solving for x, we get:

x = -1 or x = 3/2

We need to check these critical points and the endpoints of the interval [0,2] to find the absolute maximum and minimum values.

f(0) = 27

f(2) = 37

f(-1) = 22

f(3/2) = 54.25

Comparing these values, we see that the absolute maximum value is 54.25 and the absolute minimum value is 22. Therefore, the correct answer is B. Max: 29, Min: 27

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Answer:

Step-by-step explanation:

In chi square distribution, For the left tail with area 0.005, χ²(15) = 6.262.

For the right tail with area 0.005, χ²(15) = 27.488.

In general, the chi-squared distribution with k degrees of freedom is the distribution of the sum of the squares of k independent standard normal random variables. It is denoted by χ²(k).

The values of χ²(k) depend on the degrees of freedom k and the desired level of significance α. For a two-tailed test with α = 0.01 and k = 15, we need to find the values of χ²(15) that correspond to the upper and lower tails of the distribution with areas of 0.005 each.

Using a chi-squared distribution table or calculator, we find that:

For the left tail with area 0.005, χ²(15) = 6.262.

For the right tail with area 0.005, χ²(15) = 27.488.

Therefore, the values we need are:

χ²(left) = 6.262

χ²(right) = 27.488

Note that these values are specific to the degrees of freedom and level of significance given in the question. If the degrees of freedom or level of significance were different, the values of χ²(left) and χ²(right) would also be different.

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X = $50,900 + (1.645 * $4,500)
X = $50,900 + $7,402.50
X ≈ $58,302.50
So, at a 95% confidence interval all students at private universities pays less than approximately $58,303.

To answer this question, we need to use the normal distribution formula:
z = (x - μ) / σ
where:
X = cost at the desired percentile
μ = mean annual cost ($50,900)
Z = z-score corresponding to the desired percentile (we'll find this value)
σ = standard deviation ($4,500)

where z is the z-score, x is the value we want to find, μ is the mean, and σ is the standard deviation.

In this case, we want to find the value of x such that 95% of all students pay less than that amount. We can find the corresponding z-score using a standard normal distribution table, which tells us the area under the curve to the left of a certain z-score. Since we want to find the value that corresponds to the 95th percentile, we look for the z-score that gives us an area of 0.95 to the left.

Using a standard normal distribution table, we find that the z-score for the 95th percentile is 1.645.

Now we can plug in the values we know:

1.645 = (x - 50,900) / 4,500

Solving for x, we get:

x = 58,427

So 95% of all students at private universities pay less than $58,427.
This is because we want to keep as much precision as possible until the final step, to avoid any rounding errors.

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Answer:

41

Step-by-step explanation:

All the values are as follows

27 28 31 38 41 43 50 52 56

If we go to the middle value (9 total values so #5), it's 41.

Jenna's initial investment of $229 in the bank yielded a maturity amount of $252.25 after 16 months. To calculate the interest rate earned, we can use the formula:

Interest = Maturity Amount - Principal
Interest = $252.25 - $229
Interest = $23.25

To find the interest rate per year, we can divide the interest earned by the principal and then divide by the number of months in a year:

Interest Rate = (Interest / Principal) / (16 / 12)
Interest Rate = ($23.25 / $229) / (16 / 12)
Interest Rate = 0.006872093 (or 0.687%)

Now, if Jenna had invested the $229 in a fund earning 1.50% p.a. more than the bank, her interest rate would have been:

New Interest Rate = 0.687% + 1.50%
New Interest Rate = 2.187%

To calculate the maturity amount with this interest rate, we can use the formula:

Maturity Amount = Principal x (1 + (Interest Rate x Time))
Maturity Amount = $229 x (1 + (0.02187 x 16/12))
Maturity Amount = $229 x 1.03365
Maturity Amount = $236.82 (rounded to the nearest cent)

Therefore, Jenna would have received a maturity amount of $236.82 if she had invested the amount in a fund earning 1.50% p.a. more than the bank.

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Answer:

The method of substitution involves three steps:

Solve one equation for one of the variables.

Substitute (plug-in) this expression into the other equation and solve.

Resubstitute the value into the original equation to find the corresponding variable.

Step-by-step explanation:

In a random sample of 25 people, the probability of having fewer than 121 people using the top web browser is approximately 1.0 or 100%.

We have

To answer your question about the probability of having fewer than 121 people using the top web browser in a random sample of 25:

1. First, find the probability of a single person using the top web browser: 51.72% or 0.5172.

2. Then, find the probability of a single person not using the top web browser: 1 - 0.5172 = 0.4828.

3. Next, use the binomial probability formula:
P(X < 121) = P(X = 0) + P(X = 1) + ... + P(X = 120)

Where P(X = k) = C(n, k) * p^k * (1-p)^(n-k).

Here, n = 25 (sample size), p = 0.5172 (probability of using the top web browser), and C(n, k) represents the binomial coefficient.

4. To calculate P(X < 121), you can use a cumulative binomial probability calculator, inputting n = 25, p = 0.5172, and k = 120.

You'll find that P(X < 121) ≈ 1.

5. Finally, round the final answer to at least one decimal place: P(X < 121) ≈ 1.0.

Thus,

In a random sample of 25 people, the probability of having fewer than 121 people using the top web browser is approximately 1.0 or 100%.

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Call the first number "x" and the second number "y". So the first number is 3.

From the problem statement, we know:

x = y + 4 (the first number is four more than the second number)

2x = 4y + 10 (two times the first number is 10 more than four times the second number)

Now we can solve for one of the variables in terms of the other, and then substitute that expression into the other equation to solve for the other variable. Let's use the first equation to solve for x:

x = y + 4

Substitute this expression for x into the second equation:

2x = 4y + 10

2(y + 4) = 4y + 10

Distribute the 2:

2y + 8 = 4y + 10

Subtract 2y from both sides:

8 = 2y + 10

Subtract 10 from both sides:

-2 = 2y

Divide both sides by 2:

-1 = y

Now we know that the second number is -1. We can use the first equation to find the first number:

x = y + 4

x = -1 + 4

x = 3

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the expected cost of repairing defective components with the guarantee ($1410) is lower than the expected cost of repairing defective components without the guarantee ($2400), it is worthwhile for the purchasing agent to purchase the supplier's guarantee policy.

To determine whether it is worthwhile to purchase the supplier's guarantee policy, we need to compare the expected cost of repairing defective components without the guarantee to the expected cost of purchasing the guarantee and repairing any additional defective components.

Without the guarantee, the expected cost of repairing defective components is given by the expected value of the cost per lot of replacing faulty items, which is:

E[repair cost without guarantee] = $20 * E[number of defective components per lot]

From the probability distribution given in the file p09 55.xlsx, we can calculate that the expected number of defective components per lot is:

E[number of defective components per lot] = 0.1 * 1000 + 0.05 * 1000 + 0.03 * 1000 + 0.02 * 1000 + 0.005 * 1000 = 120

Therefore, the expected cost of repairing defective components without the guarantee is:

E[repair cost without guarantee] = $20 * E[number of defective components per lot] = $20 * 120 = $2400

With the guarantee, the expected cost of repairing defective components is the sum of the cost of the guarantee and the expected cost of repairing any additional defective components beyond the first 100. The probability of having more than 100 defective components per lot is:

P[number of defective components per lot > 100] = P[number of defective components per lot = 120] + P[number of defective components per lot = 150] + P[number of defective components per lot = 170] + P[number of defective components per lot = 180] + P[number of defective components per lot = 205] = 0.1 + 0.05 + 0.03 + 0.02 + 0.005 = 0.205

Therefore, the expected cost of repairing defective components with the guarantee is:

E[repair cost with guarantee] = $1000 + $20 * (E[number of defective components per lot] - 100) * P[number of defective components per lot > 100]
                                = $1000 + $20 * (120 - 100) * 0.205
                                = $1000 + $410 = $1410

Since the expected cost of repairing defective components with the guarantee ($1410) is lower than the expected cost of repairing defective components without the guarantee ($2400), it is worthwhile for the purchasing agent to purchase the supplier's guarantee policy.

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The two main categories of sampling techniques are probability sampling and non-probability sampling.

Probability sampling includes simple random sampling, systematic sampling, stratified sampling, and cluster sampling.

Simple random sampling involves selecting random samples from the entire population.

Systematic sampling involves selecting every nth individual from a population list.

Stratified sampling involves dividing the population into subgroups and selecting samples from each subgroup.

Cluster sampling involves dividing the population into clusters and selecting entire clusters for sampling.

Non-probability sampling includes convenience sampling, quota sampling, purposive sampling, and snowball sampling.

Convenience sampling involves selecting samples that are easily accessible.

Quota sampling involves selecting samples based on predetermined characteristics.

Purposive sampling involves selecting samples based on specific criteria.

Snowball sampling involves selecting samples based on referrals from other participants.

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The first theorem of welfare economics states that a competitive equilibrium is Pareto efficient, meaning that no one can be made better off without making someone else worse off. However, this theorem may not hold for economies with production because the production process may create externalities or market power, leading to inefficiencies.

For example, a monopolistic firm may restrict production and charge higher prices, leading to a lower quantity produced and a less efficient allocation of resources. Similarly, production processes may generate pollution or other negative externalities that are not reflected in market prices, leading to inefficient levels of production. Therefore, while the first theorem of welfare economics is a powerful tool for analyzing markets, it is important to consider the specific features of each market and the potential for inefficiencies in production.


The first theorem of welfare economics states that a competitive equilibrium is Pareto efficient, meaning no one can be made better off without making someone else worse off. However, this theorem may not hold for economies with production if:

1. There are externalities: Externalities occur when the production or consumption of a good affects other people who are not directly involved in the transaction. Positive externalities, such as the benefits of education, can lead to underproduction, while negative externalities, like pollution, can lead to overproduction. In both cases, the competitive equilibrium may not be Pareto efficient.

2. There are public goods: Public goods are non-excludable and non-rivalrous, meaning that once they are produced, everyone can benefit from them and one person's consumption does not reduce the availability for others. Due to their nature, public goods are often underprovided by the market, leading to a suboptimal competitive equilibrium.

3. There are imperfect competition or market failures: Imperfect competition can arise from factors such as monopolies, oligopolies, or asymmetric information. These market structures can lead to an inefficient allocation of resources and prevent the competitive equilibrium from being Pareto efficient.

4. There are increasing returns to scale: If a firm experiences increasing returns to scale in production, it means that as it produces more, its average cost of production decreases. This can lead to natural monopolies, where a single firm can produce the entire market demand at a lower cost than multiple firms. In this case, the competitive equilibrium may not be Pareto efficient.

In summary, the first theorem of welfare economics may not hold for economies with production if there are externalities, public goods, imperfect competition, or increasing returns to scale. These factors can lead to an inefficient allocation of resources and prevent the competitive equilibrium from being Pareto efficient.

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a. The probability that exactly two adults say they are more likely to make purchases during a sales tax holiday is 0.275.

b.  The probability that more than two adults say they are more likely to make purchases during a sales tax holiday is .305

c. The probability that between two and five adults say they are more likely to make purchases during a sales tax holiday, inclusive, is  0.736.

This is a binomial distribution problem with n = 10 and p = 0.28.

(a) The probability that exactly two adults say they are more likely to make purchases during a sales tax holiday is:

P(2) = (10 choose 2) * 0.28^2 * 0.72^8 = 0.275

Therefore, P(2) ≈ 0.275.

(b) The probability that more than two adults say they are more likely to make purchases during a sales tax holiday is:

P(x > 2) = 1 - P(x ≤ 2) = 1 - [P(0) + P(1) + P(2)]

= 1 - [(10 choose 0) * 0.28^0 * 0.72^10 + (10 choose 1) * 0.28^1 * 0.72^9 + (10 choose 2) * 0.28^2 * 0.72^8]

= 1 - (0.125 + 0.295 + 0.275)

≈ 0.305

Therefore, P(x > 2) ≈ 0.305.

(c) The probability that between two and five adults say they are more likely to make purchases during a sales tax holiday, inclusive, is:

P(2≤x≤5) = P(2) + P(3) + P(4) + P(5)

= (10 choose 2) * 0.28^2 * 0.72^8 + (10 choose 3) * 0.28^3 * 0.72^7 + (10 choose 4) * 0.28^4 * 0.72^6 + (10 choose 5) * 0.28^5 * 0.72^5

≈ 0.736

Therefore, P(2≤x≤5) ≈ 0.736.

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a)the median of the random variable X is approximately 0.1386.

b) This equation has no solutions,

a. To find the median, we need to solve for x in the equation F(x) = 0.5:

1 - e^(-5x) = 0.5

e^(-5x) = 0.5

Taking the natural logarithm of both sides:

ln(e^(-5x)) = ln(0.5)

-5x = ln(0.5)

x = -ln(0.5)/5 ≈ 0.1386

Therefore, the median of the random variable X is approximately 0.1386.

b. The mode is the value of x that maximizes the probability density function, f(x). To find the density function, we take the derivative of the cumulative distribution function:

f(x) = F'(x) = 5e^(-5x)

Setting f'(x) = 0 to find the maximum, we get:

f'(x) = -25e^(-5x) = 0

e^(-5x) = 0

This equation has no solutions, which means that the density function does not have a maximum value. Therefore, the random variable X has no mode.

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For the given question x + y = 0 is reflexive, x= £y is Transitive, ) x - y is a rational number is transitive, x = 2y is reflexive, xy > 0 is transitive, xy = 0 is reflexive,  x = 1 is transitive,  x = 1 or y = 1 is neither reflexive nor symmetric nor antisymmetric nor transitive.


a)

We have f(x , y) : x + y =0, (x, y) ∈ R

Now, since (x, y) ∈ R

(0, 0) ∈ f(x , y)

Hence it's reflexive

x + y = 0

hence, x = -y

hence f maps the pairs of additive inverse

Therefore for a number a,

(a , -a) ∈ f(x , y) also, (-a , a) ∈ f

but there cannot be a triplet of additive inverse.

Hence f is not transitive

b)

x = ± y

Here any number (a , a) can belong to the relation

Hence, the relation is reflexive

If (a , -a) ∈ R, then (-a , a) ∈ R as well. Hence it's symmetric.

(a , -a) ∈ R (-a , a ) ∈ R, then (a , a) ∈R. Hence its Transitive

c)

R : (x , y) : x - y ∈ Q

a - a = 0 is a rational number hence

(a , a) ∈ Q

Hence R is reflexive

If a - b ∈ Q, the definitely b - a ∈ Q

Hence R is symmetric

Also,

If a - b ∈ Q, b - c ∈ Q then a -c ∈ Q too.

Hence R is transitive

d)

R : x = 2y

If x = 0

then

(0, 0) ∈ R, hence R is reflexive

For any number (a , 2a) ∈ R, then

(2a, a) cannot ∈ R

Hence it is antisymmetric

Similarly

if (2a, 4a) ∈ R, then (a, 4a) cannot belong to R hence it is not transitive

e)

Clearly,

(a , a) ∈ R

Hence it is reflexive.

Also, if (a , b) ∈ R, then (b , a) ∈ R too. Hence it is symmetric

For positive integers a, b, and c

ab > 0, bc>0 and ac>0

Hence (a, b) (b,c) and (a ,c) ∈ R

Hence it is transitive

f)

xy = 0

Here,

(0 , 0) ∈ R

Hence R is reflexive

Here, (a , 0), (0 , a) ∈R hence it is symmetric

but clearl it is not transitive

g)

x = 1

(1 , 1) ∈ R

Since x has to be 1, it is antisymmetric

for case x = 1, y = 1 and z

(x , y) ∈ R (y , z) ∈ R and (x , z) ∈ R

Hence it is transitive
h) The relation R on the set of all real numbers where (x, y) = R if and only if x = 1 or y = 1 is neither reflexive nor symmetric nor antisymmetric nor transitive.

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a) There are 8 letters in the word INTEGRALS, out of which 3 are vowels (I, E, A) and 5 are consonants (N, T, G, R, L). To select 4 letters such that the number of vowels and consonants are equal, we need to choose 2 vowels and 2 consonants. The number of ways to do this is given by the combination formula:

C(3, 2) * C(5, 2) = 3 * 10 = 30 ways.

b) To arrange all the vowels (I, E, A) next to each other, we can treat them as a single block and arrange the block and the remaining consonants (N, T, G, R, L) separately. The block of vowels can be arranged among themselves in 3! = 6 ways. The 5 consonants can be arranged among themselves in 5! = 120 ways. Therefore, the total number of arrangements is:

6 * 120 = 720 ways.

c) To form a 4-letter word with more consonants than vowels from INTEGRALS, we can choose 3 consonants and 1 vowel, or 4 consonants. The number of ways to do this is given by:

C(5, 3) * C(3, 1) + C(5, 4) = 10 * 3 + 5 = 35 ways.

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To find the coordinate vector of P relative to the basis S = {P1, P2, P3}, we need to express P as a linear combination of the basis vectors P1, P2, and P3. Given P = 3 - 4x + 2x^2, P1 = 1, P2 = x, and P3 = x^3, we want to find constants a, b, and c such that:

P = a * P1 + b * P2 + c * P3

3 - 4x + 2x^2 = a(1) + b(x) + c(x^3)

Now, we can compare the coefficients of the powers of x on both sides of the equation:

For x^0: 3 = a
For x^1: -4 = b
For x^2: 2 = 0a + 0b + 0c (since there's no x^2 term in P1, P2, or P3)
For x^3: 0 = 0a + 0b + c (since there's no x^3 term in P)

From these equations, we get a = 3, b = -4, and c = 0.

Thus, the coordinate vector of P relative to the basis S = {P1, P2, P3} is (a, b, c) = (3, -4, 0).

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Every angle has a complement and a supplement except for a 90-degree angle, which has no complement, and a 180-degree angle, which has no supplement.

To find the complement of an angle, you subtract the angle from 90 degrees. The supplement of an angle is found by subtracting the angle from 180 degrees.

In this case, to find the complement of the given angle 61 degrees, we subtract it from 90 degrees:

90 - 61 = 29

Therefore, the complement of 61 degrees is 29 degrees.

To find the supplement of the given angle, we subtract it from 180 degrees:

180 - 61 = 119

Therefore, the supplement of 61 degrees is 119 degrees.

Every angle has a complement and a supplement except for a 90-degree angle, which has no complement, and a 180-degree angle, which has no supplement.

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Answer:

PART 1: K 5375.66

PART 2: 38.1051177665 or 38  210235533/2000000000

Step-by-step explanation:

1. (i) Compounded Semi Annually: A = P × [1 + r/n]nt A = K4,000 × [1 + 6%/2]2×5 A = K4,000 × [1 + 0.03]10 A = K4,000 × [1.03]10 A = K4,000 × [1.344] A = K 5375.66

2. √(243) + (3√ (75) - √(12)= 38.1051177665

38.1051177665 as a decimal: 38.1051177665

38.1051177665 as a a fraction: 38  210235533/2000000000

K5376.48 will be in the account after 5 years compounded semi-annually. K5396.32 will be in the account after 5 years compounded weekly. The value of simplification is  22√3.

Compounded semi-annually

The interest rate per period is r = 6% / 2 = 0.03

The number of periods is n = 5 x 2 = 10

The amount A after n periods is given by

A = K(1 + r)ⁿ

A = 4000(1 + 0.03)¹⁰

A = 4000 x 1.34412

A = K5376.48

Compounded weekly

The interest rate per period is r = 6% / 52 = 0.001153846

The number of periods is n = 5 x 52 = 260

The amount A after n periods is given by

A = K(1 + r)ⁿ

A = 4000(1 + 0.001153846)²⁶⁰

A = 4000 x 1.34908

A = K5396.32

√243 + 3√75 - √12

= √(81 x 3) + 3√(25 x 3) - √(4 x 3)

= 9√3 + 15√3 - 2√3

= 22√3

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a. The standard error when n = 18 is 0.1209 and when n = 60 is 0.0725. b. The sampling distribution with n = 18 is not normal and is normal with  n = 60. c. The probability that the sample proportion is between 0.18 and 0.22 for n = 60 is 0.2925.

a. To calculate the standard error of the sample proportion, we use the formula:

SE = sqrt[p*(1-p)/n]

For n = 18, we have:

SE = sqrt[0.22*(1-0.22)/18] ≈ 0.1209

For n = 60, we have:

SE = sqrt[0.22*(1-0.22)/60] ≈ 0.0725

b. Using the Central Limit Theorem (CLT):

For n = 18, the sample size is not large enough, so we cannot assume that the sampling distribution of the sample proportion is approximately normal.

For n = 60, the sample size is large enough, so we can assume that the sampling distribution of the sample proportion is approximately normal.

c. To calculate the probability, we first standardize the values using the formula:

z = (x - p) / SE

where x is the sample proportion, p is the population proportion, and SE is the standard error.

For x = 0.18, we have:

z = (0.18 - 0.22) / 0.0725 ≈ -0.5524

For x = 0.22, we have:

z = (0.22 - 0.22) / 0.0725 = 0

Using the z-table, we can find the probability that z is between -0.5524 and 0:

P(-0.5524 < z < 0) ≈ 0.2925

Therefore, the probability that sample proportion is between 0.18 and 0.22 is 0.2925.

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Consider the given terms to find the form of the particular solution for the given differential equation y'' + 4y = e^(2x).

The given differential equation is a nonhomogeneous linear second-order differential equation, and we need to find a particular solution (yp) to form the general solution. The right-hand side of the equation is e^(2x), so we will try to find a particular solution using the given terms that include exponential functions.

The form of the particular solution for the given DE y'' + 4y = e^(2x) is (d) yp = Axe^(2x). The other choices don't satisfy the given differential equation when taking their first and second derivatives and plugging them back into the equation.

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Means that the derivative of A at a, dA(a), is equal to L. Hence, A is differentiable at a with dA(a) = L.

To prove that the function A is differentiable at a with dA(a) = L, we need to show that:

lim(x→a) [A(x) - A(a) - L(a)(x-a)] / ||x-a|| = 0

We know that A(x) = c + L(x) for all x in RP, where c is a constant and L is a linear transformation from RP to R9.

Then, we have:

A(a) = c + L(a)

L(a)(x-a) = L(x-a) + L(a-a) = L(x-a)

Substituting these into the limit expression, we get:

lim(x→a) [c + L(x) - c - L(a) - L(x-a)] / ||x-a||

= lim(x→a) [L(x) - L(a)] / ||x-a||

Since L is a linear transformation, it is continuous. Therefore, we can write:

lim(x→a) [L(x) - L(a)] / ||x-a|| = L( lim(x→a) [x-a] / ||x-a|| )

But lim(x→a) [x-a] / ||x-a|| = u, a unit vector in the direction of x-a.

Therefore, we have:

lim(x→a) [L(x) - L(a)] / ||x-a|| = Lu

This means that the derivative of A at a, dA(a), is equal to L. Hence, A is differentiable at a with dA(a) = L.

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The event that is dependent is drawing a king from the deck of cards, replacing it, and then drawing a king again.

Option D is the correct answer.

We have,

Independent events:

Two events are independent if the occurrence of one event does not affect the occurrence of the other event.

Dependent events:

Two events are dependent if the occurrence of one event affects the occurrence of the other event.

Now,

Flipping a coin and getting tails and then flipping again is an independent event.

And,

Rolling a die and getting 6, and then rolling it again is an independent event.

And,

Drawing a 2 from the deck of cards, not replacing it, and then drawing again is an independent event.

And,

Drawing a king from the deck of cards, replacing it, and then drawing a king again is a dependent event.

Thus,

The events that are dependent  are:

Drawing a king from the deck of cards, replacing it, and then drawing a king again.

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Answer:

48 cm

Step-by-step explanation:

The volume of an oblique(slanted) cylinder is still

[tex]\pi r^{2} \cdot h[/tex], like a "normal" cylinder. (r is radius, h or x is height)

The diameter of the cylinder is 8, so the radius would be [tex]\frac{8}{2} = 4[/tex].

The volume is therefore [tex]4^2 \pi \cdot h[/tex] , which is [tex]16 \pi h[/tex].

We know [tex]16 \pi h = 768\pi[/tex], so we divide both sides by [tex]16\pi[/tex] to isolate the variable.

[tex]\frac{768\pi}{16\pi}= 48[/tex].

So, we know that the height is 48.

Therefore, x=48. (and remember the unit!)

If the radius is supposed to be 8, then do the same thing but with r=8.

Also, I don't know if there's a typo in the title, so this is assuming the volume is [tex]786\pi[/tex]cm^3, and not [tex]768\pi[/tex]in^3.

The discount paid according to the given conditions is OMR 450.

The invoice amount is OMR 15,000, and it has the terms 6/10, 3/15, n/30, which mean that you can get a 6% discount if you pay within 10 days, a 3% discount if you pay within 15 days, and no discount if you pay after 30 days. The invoice is dated on June 15 and the goods are received on June 23, but the payment is made on July 5.

Since July 5 is 20 days after the invoice date (June 15), you are eligible for a 3% discount because it falls within the 15-day period.

To calculate the discount, multiply the invoice amount by the discount percentage:

15,000 * 0.03 = 450

The discount paid is OMR 450.

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If the corners of the kitchen are (8, 4), (−3, 4), (8, −8), and (−3, −8), the area of the kitchen is 132 square feet. So, the correct option is C.

To find the area of the rectangular kitchen, we need to use the formula for the area of a rectangle, which is A = L x W, where A is the area, L is the length, and W is the width.

From the given ordered pairs, we can determine the length and width of the rectangle. The length is the distance between the points (8,4) and (-3,4), which is 8 - (-3) = 11 feet. The width is the distance between the points (8,4) and (8,-8), which is 4 - (-8) = 12 feet.

Now that we know the length and width, we can find the area by multiplying them together:

A = L x W = 11 x 12 = 132 square feet

Therefore, the correct answer is C.

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Answer    C. 132 fT2  

Step-by-step explanation: