Assume that the copying service in has been established at (x = 2, y = 2) Assume that each customer order represents an expenditure of approximately $10 Because convenience would be an important customer criterion, assume that A = 2. If we wish to open a competing store at location (x = 3, y = 2) but with twice the capacity of the existing copy center, How much market share would we expect to capture?

There exist A, B ∈ Z that satisfy the equation A² + B² = 2(a² + b²).

To prove the statement using complex numbers, let's start by representing the integers a and b as complex numbers:

a = a + 0i

b = b + 0i

Now, we can rewrite the equation a² + b² = 2(a² + b²) in terms of complex numbers:

(a + 0i)² + (b + 0i)² = 2((a + 0i)² + (b + 0i)²)

Expanding the complex squares, we get:

(a² + 2ai + (0i)²) + (b² + 2bi + (0i)²) = 2((a² + 2ai + (0i)²) + (b² + 2bi + (0i)²))

Simplifying, we have:

a² + 2ai - b² - 2bi = 2a² + 4ai - 2b² - 4bi

Grouping the real and imaginary terms separately, we get:

(a² - b²) + (2ai - 2bi) = 2(a² - b²) + 4(ai - bi)

Now, let's choose A and B such that their real and imaginary parts match the corresponding sides of the equation:

A = a² - b²

B = 2(a - b)

Substituting these values back into the equation, we have:

A + Bi = 2A + 4Bi

Equating the real and imaginary parts, we get:

A = 2A

B = 4B

Since A and B are integers, we can see that A = 0 and B = 0 satisfy the equations. Therefore, there exist A, B ∈ Z that satisfy the equation A² + B² = 2(a² + b²).

This completes the proof.

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The calculated value of the length QR is y√5

From the question, we have the following parameters that can be used in our computation:

The right triangle

Using the Pythagoras theorem, we have

QR² = (3y)² - (2y)²

When evaluated, we have

QR² = 5y²

Take the square root of both sides

QR = y√5

Hence, the length is y√5

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0.0560 has 3 significant figures. The number 0.0560 has three significant figures. Significant figures are the digits in a number that carry meaning in terms of precision and accuracy.

In the case of 0.0560, the non-zero digits "5" and "6" are significant. The zero between them is also significant because it is sandwiched between two significant digits. However, the trailing zero after the "6" is not significant because it merely serves as a placeholder to indicate the precision of the number.

To understand this, consider that if the number were written as 0.056, it would still have the same value but only two significant figures. The addition of the trailing zero in 0.0560 indicates that the number is known to a higher level of precision or accuracy.

Therefore, the number 0.0560 has three significant figures: "5," "6," and the zero between them. This implies that the measurement or value is known to three decimal places or significant digits.

It is important to consider significant figures when performing calculations or reporting measurements to ensure that the level of precision is maintained and communicated accurately.

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1. Find the Maclaurin series approximation: Substitute [tex]x^2[/tex] for x in [tex]e^x[/tex] series expansion.

2. Graph the original function: Plot 10 ordered pairs of f(x) = [tex]e^(-x^2)[/tex] within the given range and connect them with a curve.

3. Graph the zeroth order Maclaurin approximation: Plot 10 ordered pairs of f(x) ≈ 1 within the same range and connect them.

4. Scale the graph appropriately and label the axes to present the functions clearly.

1. Maclaurin Series Approximation

The Maclaurin series approximation for the function f(x) = [tex]e^(-x^2)[/tex] can be found by substituting [tex]x^2[/tex] for x in the Maclaurin series expansion of the exponential function:

[tex]e^x = 1 + x + (x^2 / 2!) + (x^3 / 3!) + ...[/tex]

Substituting x^2 for x:

[tex]e^(-x^2) = 1 - x^2 + (x^4 / 2!) - (x^6 / 3!) + ...[/tex]

So, the Maclaurin series approximation for f(x) is:

f(x) ≈ [tex]1 - x^2 + (x^4 / 2!) - (x^6 / 3!) + ...[/tex]

2. Graphing the Original Function

To graph the original function f(x) =[tex]e^(-x^2)[/tex], follow these steps:

i. Take a piece of graph paper and draw the coordinate axes with labeled units.

ii. Determine the range of x-values you want to plot, which is -0.5 to 0.5 in this case.

iii. Calculate the corresponding y-values for at least 10 x-values within the specified range by evaluating f(x) =[tex]e^(-x^2)[/tex].

For example, let's choose five x-values within the range and calculate their corresponding y-values:

x = -0.5, y =[tex]e^(-(-0.5)^2) = e^(-0.25)[/tex]

x = -0.4, y = [tex]e^(-(-0.4)^2) = e^(-0.16)[/tex]

x = -0.3, y = [tex]e^(-(-0.3)^2) = e^(-0.09)[/tex]

x = -0.2, y = [tex]e^(-(-0.2)^2) = e^(-0.04)[/tex]

x = -0.1, y = [tex]e^(-(-0.1)^2) = e^(-0.01)[/tex]

Similarly, calculate the corresponding y-values for five more x-values within the range.

iv. Plot the ordered pairs (x, y) on the graph, using one color to represent the original function. Connect the ordered pairs with a smooth curve.

3. Graphing the Zeroth Order Maclaurin Approximation

To graph the zeroth order Maclaurin series approximation f(x) ≈ 1, follow these steps:

i. On the same graph with the same interval and scale as before, choose a different color of ink or pencil to distinguish the approximation from the original function.

ii. Plot the ordered pairs for the zeroth order approximation, which means y = 1 for all x-values within the specified range.

iii. Connect the ordered pairs with a smooth curve.

Remember to scale the graph to take up the majority of the page, label the axes, and any important points or features on the graph.

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The final solution is: u(x,t) = Σ (-1)^n (2L)/(nπ)^2 sin(nπx/L) exp(-k n^2 π^2 t/L^2).

To solve the heat equation:

k ∂²u/∂x² = ∂u/∂t

subject to boundary conditions u(0,t) = 0, u(L,t) = 0, and initial condition u(x,0) = x,

we can use separation of variables method as follows:

Assume a solution of the form: u(x,t) = X(x)T(t)

Substitute the above expression into the heat equation:

k X''(x)T(t) = X(x)T'(t)

Divide both sides by X(x)T(t):

k X''(x)/X(x) = T'(t)/T(t) = λ (some constant)

Solve for X(x) by assuming that k λ is a positive constant:

X''(x) + λ X(x) = 0

Applying the boundary conditions u(0,t) = 0, u(L,t) = 0 leads to the following solutions:

X(x) = sin(nπx/L) with n = 1, 2, 3, ...

Solve for T(t):

T'(t)/T(t) = k λ, which gives T(t) = c exp(k λ t).

Using the initial condition u(x,0) = x, we get:

u(x,0) = Σ cn sin(nπx/L) = x.

Then, using standard methods, we obtain the final solution:

u(x,t) = Σ cn sin(nπx/L) exp(-k n^2 π^2 t/L^2),

where cn can be determined from the initial condition u(x,0) = x.

For this problem, since the initial condition is u(x,0) = x, we have:

cn = 2/L ∫0^L x sin(nπx/L) dx = (-1)^n (2L)/(nπ)^2.

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The payoff matrix for the given game of war would be shown as:

Self\OpponentDSD120-75250-75AB120-75250-75

The given game of war can be represented in the form of a payoff matrix with row player as self, which can be constructed by considering the following terms:

Full defense (D)

Split defense (S)

Attack by air (A)

Attack by sea (B)

Payoff matrix will be constructed on the basis of three outcomes:If the attack is met with no defense, 120 points will be awarded. If the attack is met with full defense, 250 points will be awarded. If the attack is met with a split defense, 75 points will be awarded.So, the payoff matrix for the given game of war can be shown as:

Self\OpponentDSD120-75250-75AB120-75250-75

Hence, the constructed payoff matrix for the game of war represents the outcomes in the form of points awarded to the players.

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Answer: 120162518920000000

Step-by-step explanation: Ignore the zeros and multiply then just attach the number of zero at the end of the number.

To find the value of k such that the given lines are perpendicular, we can use the fact that the direction vectors of two perpendicular lines are orthogonal to each other.

Let's consider the direction vectors of the given lines:

Direction vector of Line 1: [(3k+1), 2, 2k]

Direction vector of Line 2: [3, -2k, -3]

For the lines to be perpendicular, the dot product of the direction vectors should be zero:

[(3k+1), 2, 2k] · [3, -2k, -3] = 0

Expanding the dot product, we have:

(3k+1)(3) + 2(-2k) + 2k(-3) = 0

9k + 3 - 4k - 6k = 0

9k - 10k + 3 = 0

-k + 3 = 0

-k = -3

k = 3

Therefore, the value of k that makes the two lines perpendicular is k = 3.

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Answer:  1/30 fraction of the songs in Devin's music library are rock songs that feature a guitar solo.

To find the fraction of songs in Devin's music library that are rock songs featuring a guitar solo, we can multiply the fractions.

The fraction of rock songs in Devin's music library is 1/3, and the fraction of rock songs featuring a guitar solo is 1/10. Multiplying these fractions, we get (1/3) * (1/10) = 1/30.

Therefore, 1/30 of the songs in Devin's music library are rock songs that feature a guitar solo.

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(a) p: "There is one and only one real solution to the equation [tex]x^2[/tex]."

(b) p -> q: "If it is sunny, then I will go for a walk."

(c) r: "Either I will go shopping or I will stay at home."

(d) "If it is sunny, then I will go for a walk."

(e) "I will go shopping or I will stay at home."

(f) p(a): "A is a prime number."

(a) Let p be the proposition "There is one and only one real solution to the equation [tex]x^2[/tex]."

Propositional logic representation: p

(b) q: "If it is sunny, then I will go for a walk."

Propositional logic representation: p -> q

(c) r: "Either I will go shopping or I will stay at home."

Propositional logic representation: r

(d) "If it is sunny, then I will go for a walk."

English representation: If it is sunny, I will go for a walk.

(e) "I will go shopping or I will stay at home."

English representation: I will either go shopping or stay at home.

(f) p(a): "A is a prime number."

Propositional logic representation: p(a)

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"the probability that a student plays video games given that the student is female." is an example of a conditional probability.The correct answer is option C.

A conditional probability is a probability that is based on certain conditions or events occurring. Out of the options provided, option C is an example of a conditional probability: "the probability that a student plays video games given that the student is female."

Conditional probability involves determining the likelihood of an event happening given that another event has already occurred. In this case, the event is a student playing video games, and the condition is that the student is female.

The probability of a female student playing video games may differ from the overall probability of any student playing video games because it is based on a specific subset of the population (female students).

To calculate this conditional probability, you would divide the number of female students who play video games by the total number of female students.

This allows you to focus solely on the subset of female students and determine the likelihood of them playing video games.

In summary, option C is an example of a conditional probability as it involves determining the probability of a specific event (playing video games) given that a condition (being a female student) is satisfied.

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Answer:

Step-by-step explanation:

Use the Law of Sin:     [tex]\frac{a}{sinA} = \frac{b}{sinB} =\frac{c}{sinC}[/tex]

[tex]\frac{b}{sin 15} = \frac{2}{sin105}[/tex]

Cross Multiply so  sin105 x b = 2 x sin15

divide both sides by sin105 to get. b = (2 x sin15)/sin105

b = (0.51763809)/(0.9659258260

b = 0.535898385.  round to nearest tenth, b = 0.5

Answer:

40

Step-by-step explanation:

4(sqrt(147/3)+3)

=4(sqrt(49)+3)

=4(7+3)

=4(10)

=40

Step-by-step explanation:

The given geometric sequence is: 120, 60, 30, 15.

To find the explicit formula for this sequence, we need to determine the common ratio (r) first. The common ratio is the ratio of any term to its preceding term. Thus,

r = 60/120 = 30/60 = 15/30 = 0.5

Now, we can use the formula for the nth term of a geometric sequence:

a(n) = a(1) * r^(n-1)

where a(1) is the first term of the sequence, r is the common ratio, and n is the index of the term we want to find.

Using this formula, we can find the explicit formula for the given sequence:

a(n) = 120 * 0.5^(n-1)

Therefore, the explicit formula for the given geometric sequence is:

a(n) = 120 * 0.5^(n-1), where n >= 1.

Answer:

[tex]a_n=120\left(\dfrac{1}{2}\right)^{n-1}[/tex]

Step-by-step explanation:

An explicit formula is a mathematical expression that directly calculates the value of a specific term in a sequence or series without the need to reference previous terms. It provides a direct relationship between the position of a term in the sequence and its corresponding value.

The explicit formula for a geometric sequence is:

[tex]\boxed{\begin{minipage}{5.5 cm}\underline{Geometric sequence}\\\\$a_n=a_1r^{n-1}$\\\\where:\\\phantom{ww}$\bullet$ $a_1$ is the first term. \\\phantom{ww}$\bullet$ $r$ is the common ratio.\\\phantom{ww}$\bullet$ $a_n$ is the $n$th term.\\\phantom{ww}$\bullet$ $n$ is the position of the term.\\\end{minipage}}[/tex]

Given geometric sequence:

To find the explicit formula for the given geometric sequence, we first need to calculate the common ratio (r) by dividing a term by its preceding term.

[tex]r=\dfrac{a_2}{a_1}=\dfrac{60}{120}=\dfrac{1}{2}[/tex]

Substitute the found common ratio, r, and the given first term, a₁ = 120, into the formula:

[tex]a_n=120\left(\dfrac{1}{2}\right)^{n-1}[/tex]

Therefore, the explicit formula for the given geometric sequence is:

[tex]\boxed{a_n=120\left(\dfrac{1}{2}\right)^{n-1}}[/tex]

A. The probability that the ball drawn from urn 1 was red given that the ball drawn from urn 2 is red is 0.625.

B. To calculate the probability, we can use Bayes' theorem. Let's denote the events:

R1: The ball drawn from urn 1 is red

R2: The ball drawn from urn 2 is red

We need to find P(R1|R2), the probability that the ball drawn from urn 1 was red given that the ball drawn from urn 2 is red.

According to Bayes' theorem:

P(R1|R2) = (P(R2|R1) * P(R1)) / P(R2)

P(R1) is the probability of drawing a red ball from urn 1, which is 5/10 = 0.5 since there are 5 red and 5 white balls in urn 1.

P(R2|R1) is the probability of drawing a red ball from urn 2 given that a red ball was transferred from urn 1.

The probability of drawing a red ball from urn 2 after one red ball was transferred is (6+1)/(9+1) = 7/10, since there are now 6 red balls and 3 white balls in urn 2.

P(R2) is the probability of drawing a red ball from urn 2, regardless of what was transferred.

The probability of drawing a red ball from urn 2 is (6/9)*(7/10) + (3/9)*(6/10) = 37/60.

Now we can calculate P(R1|R2):

P(R1|R2) = (7/10 * 0.5) / (37/60) = 0.625

Therefore, the probability that the ball drawn from urn 1 was red given that the ball drawn from urn 2 is red is 0.625.

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Answer:

[tex]\begin{aligned} \textsf{(a)} \quad f(g(x))&=\boxed{x}\\g(f(x))&=\boxed{x}\end{aligned}\\\\\textsf{\;\;\;\;\;\;\;\;$f$ and $g$ are inverses of each other.}[/tex]

[tex]\begin{aligned} \textsf{(b)} \quad f(g(x))&=\boxed{-x}\\g(f(x))&=\boxed{-x}\end{aligned}\\\\\textsf{\;\;\;\;\;\;\;\;$f$ and $g$ are NOT inverses of each other.}[/tex]

Step-by-step explanation:

Given functions:

[tex]\begin{cases}f(x)=x-2\\g(x)=x+2\end{cases}[/tex]

Evaluate the composite function f(g(x)):

[tex]\begin{aligned}f(g(x))&=f(x+2)\\&=(x+2)-2\\&=x\end{aligned}[/tex]

Evaluate the composite function g(f(x)):

[tex]\begin{aligned}g(f(x))&=g(x-2)\\&=(x-2)+2\\&=x\end{aligned}[/tex]

The definition of inverse functions states that two functions, f and g, are inverses of each other if and only if their compositions yield the identity function, i.e. f(g(x)) = g(f(x)) = x.

Therefore, as f(g(x)) = g(f(x)) = x, then f and g are inverses of each other.

[tex]\hrulefill[/tex]

Given functions:

[tex]\begin{cases}f(x)=\dfrac{3}{x},\;\;\;\:\:x\neq0\\\\g(x)=-\dfrac{3}{x},\;\;x \neq 0\end{cases}[/tex]

Evaluate the composite function f(g(x)):

[tex]\begin{aligned}f(g(x))&=f\left(-\dfrac{3}{x}\right)\\\\&=\dfrac{3}{\left(-\frac{3}{x}\right)}\\\\&=3 \cdot \dfrac{-x}{3}\\\\&=-x\end{aligned}[/tex]

Evaluate the composite function g(f(x)):

[tex]\begin{aligned}g(f(x))&=g\left(\dfrac{3}{x}\right)\\\\&=-\dfrac{3}{\left(\frac{3}{x}\right)}\\\\&=-3 \cdot \dfrac{x}{3}\\\\&=-x\end{aligned}[/tex]

The definition of inverse functions states that two functions, f and g, are inverses of each other if and only if their compositions yield the identity function, i.e. f(g(x)) = g(f(x)) = x.

Therefore, as f(g(x)) = g(f(x)) = -x, then f and g are not inverses of each other.

To calculate Harriet Marcus' monthly payment and total cost of interest, we need to use the loan payment formula and the interest rate tables.

a) Monthly payment: Assuming Harriet puts 25% down on a $60,000 cottage, the loan amount is $45,000. Using Table 15.1(a) with a loan term of 25 years and an interest rate of 11%, the factor from the table is 0.008614. The monthly payment can be calculated using the loan payment formula:

[tex]\[ \text{Monthly payment} = \text{Loan amount} \times \text{Loan factor} \]\[ \text{Monthly payment} = \$45,000 \times 0.008614 \]\[ \text{Monthly payment} \approx \$387.63 \][/tex]

b) Total cost of interest: The total cost of interest over the cost of the loan can be calculated by subtracting the loan amount from the total payments made over the loan term. Using the monthly payment calculated in part (a) and the loan term of 25 years, the total payments can be calculated:

[tex]\[ \text{Total payments} = \text{Monthly payment} \times \text{Number of payments} \]\[ \text{Total payments} = \$387.63 \times (25 \times 12) \]\[ \text{Total payments} \approx \$116,289.00 \][/tex]

The total cost of interest can be found by subtracting the loan amount from the total payments:

[tex]\[ \text{Total cost of interest} = \text{Total payments} - \text{Loan amount} \]\[ \text{Total cost of interest} = \$116,289.00 - \$45,000 \]\[ \text{Total cost of interest} \approx \$71,289.00 \][/tex]

e) Savings in interest cost between 11% and 14.5%: To find the savings in interest cost, we need to calculate the total cost of interest for each interest rate and subtract them. Using the loan amount of $45,000 and a loan term of 25 years:

For 11% interest:

Total payments = Monthly payment × Number of payments = \$387.63 × (25 × 12) ≈ \$116,289.00

For 14.5% interest:

Total payments = Monthly payment × Number of payments = \$387.63 × (25 × 12) ≈ \$134,527.20

Savingsin interest cost = Total cost of interest at 11% - Total cost of interest at 14.5% =\$116,289.00 - \$134,527.20 ≈ -\$18,238.20

Therefore, the savings in interest cost between 11% and 14.5% is approximately -$18,238.20.

f) Difference in interest with a 30-year loan term: To calculate the difference in interest, we need to recalculate the total cost of interest for both interest rates using a loan term of 30 years instead of 25. Using the loan amount of $45,000 and 30 years as the loan term:

For 11% interest:

Total payments = Monthly payment × Number of payments =\$387.63 × (30 × 12) ≈ \$139,645.20

For 14.5% interest:

Total payments = Monthly payment × Number of payments =\$387.63 × (30 × 12) ≈ \$162,855.60

Difference in interest = Total cost of interest at 11% - Total cost of interest at 14.5% = \$139,645.20 - \$162,855.60 ≈

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The type of sampling described, where the researchers intentionally select a sample with 50% straight and 50% LGBTQ+ respondents, is known as "disproportionate stratified sampling."

A. Disproportionate stratified sampling involves dividing the population into different groups (strata) based on certain characteristics and then intentionally selecting a different proportion of individuals from each group. In this case, the researchers are dividing the population based on sexual orientation (straight and LGBTQ+) and selecting an equal proportion from each group.

B. Availability sampling (also known as convenience sampling) refers to selecting individuals who are readily available or convenient for the researcher. This type of sampling does not guarantee representative or unbiased results and may introduce bias into the study.

C. Snowball sampling involves starting with a small number of participants who meet certain criteria and then asking them to refer other potential participants who also meet the criteria. This sampling method is often used when the target population is difficult to reach or identify, such as in hidden or marginalized communities.

D. Simple random sampling involves randomly selecting individuals from the population without any specific stratification or deliberate imbalance. Each individual in the population has an equal chance of being selected.

Given the description provided, the sampling method of intentionally selecting 50% straight and 50% LGBTQ+ respondents represents disproportionate stratified sampling.

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The value of x for the given expression cosec3x = (cot 30°+ cot 60°) / (1 + cot 30° cot 60°) is 20°.

The given expression is  cosec 3x = (cot 30° + cot 60°) / (1 + cot 30° cot 60°).

It is required to find the value of x from the given expression.

For solving this expression, we use the values from the trigonometric table and simplify it to get the value of x.

We know that

cos 30° = √3 and cot 60° = 1/√3

Take the RHS side of the expression and simplify

(cot 30° + cot 60°) / (1 + cot 30° cot 60°)

[tex]=\frac{\sqrt{3}+\frac{1}{\sqrt{3} } }{1 + \sqrt{3}*\frac{1}{\sqrt{3} }} \\\\=\frac{ \frac{3+1}{\sqrt{3} } }{1 + 1} \\\\=\frac{ \frac{4}{\sqrt{3} } }{2} \\\\={ \frac{2}{\sqrt{3} } \\\\[/tex]

The value of RHS is 2/√3.

Now, equating this with the LHS, we get

cosec 3x = 2/√3

cosec 3x = cosec60°

3x = 60°

x = 60°/3

x = 20°

Therefore, the value of x is 20°.

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The correct question is -

Find the value of x, when cosec 3x = (cot 30° + cot 60°) / (1 + cot 30° cot 60°)

The empirical rule provides three pieces of information about the sample that follows a skewed-right distribution:

1. Approximately 68% of the data falls within one standard deviation of the mean.

2. Approximately 95% of the data falls within two standard deviations of the mean.

3. Approximately 99.7% of the data falls within three standard deviations of the mean.

The empirical rule, also known as the 68-95-99.7 rule, is applicable to data that follows a normal distribution. Although it is mentioned that the sample follows a skewed-right distribution, we can still use the empirical rule as an approximation since the sample size is not specified.

1. The first piece of information states that approximately 68% of the data falls within one standard deviation of the mean. In this case, it means that about 68% of the data points in the sample would fall within the range of (66 - 17.9) to (66 + 17.9).

2. The second piece of information states that approximately 95% of the data falls within two standard deviations of the mean. Thus, about 95% of the data points in the sample would fall within the range of (66 - 2 * 17.9) to (66 + 2 * 17.9).

3. The third piece of information states that approximately 99.7% of the data falls within three standard deviations of the mean. Therefore, about 99.7% of the data points in the sample would fall within the range of (66 - 3 * 17.9) to (66 + 3 * 17.9).

These three pieces of information provide an understanding of the spread and distribution of the sample data based on the mean and standard deviation.

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An oblique hexagonal prism has a base area of 42 square cm. The prism is 4 cm tall and has an edge length of 5 cm.

The volume of the prism is 420 cubic centimeters.

A hexagonal prism is a 3D shape with a hexagonal base and six rectangular faces. The oblique hexagonal prism is a prism that has at least one face that is not aligned correctly with the opposite face.

The formula for the volume of a hexagonal prism is V = (3√3/2) × a² × h,

Where, a is the edge length of the hexagon base and h is the height of the prism.

We can find the area of the hexagon base by using the formula for the area of a regular hexagon, A = (3√3/2) × a².

The given base area is 42 square cm.

42 = (3√3/2) × a² ⇒ a² = 28/3 = 9.333... ⇒ a ≈

Now, we have the edge length of the hexagonal base, a, and the height of the prism, h, which is 4 cm. So, we can substitute the values in the formula for the volume of a hexagonal prism:

V = (3√3/2) × a² × h = (3√3/2) × (3.055)² × 4 ≈ 420 cubic cm

Therefore, the volume of the oblique hexagonal prism is 420 cubic cm.

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The probability that at least three of them would end up trading at or above their initial offering price is P(X ≥ 3) = 0.9826

.The probability of an Internet stock ending up trading at or above its initial offering price is:1 - 0.119 = 0.881If you were an investor who purchased five Internet stocks at their initial offering prices, the probability that at least three of them would end up trading at or above their initial offering price is:

P(X ≥ 3) = 1 - P(X ≤ 2)

We can solve this problem by using the binomial distribution. Thus:

P(X ≥ 3) = 1 - [P(X = 0) + P(X = 1) + P(X = 2)]P(X = k) = nCk × p^k × q^(n-k)

where, n is the number of trials or Internet stocks, k is the number of successes, p is the probability of success (Internet stock trading at or above its initial offering price), q is the probability of failure (Internet stock trading below its initial offering price), and nCk is the number of combinations of n things taken k at a time.

We are given that we purchased five Internet stocks.

Thus, n = 5. Also, p = 0.881 and q = 0.119.

Thus:

P(X ≥ 3) = 1 - [P(X = 0) + P(X = 1) + P(X = 2)] = 1 - [(5C0 × 0.881^0 × 0.119^5) + (5C1 × 0.881^1 × 0.119^4) + (5C2 × 0.881^2 × 0.119^3)]≈ 0.9826

Therefore, P(X ≥ 3) = 0.9826 (rounded to four decimal places).

Hence, the correct answer is:P(X ≥ 3) = 0.9826

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Answer: SSS

Step-by-step explanation:

The lines on the triangles say that 2 of the sides are equal. Th triangles also share a 3rd side that is equal.

So, a side, a side and a side proves the triangles are congruent through, SSS

To calculate the probability that an adult over 40 years of age is diagnosed with the disease, we need to consider the given probabilities: the probability of selecting an adult over 40 with the disease,

the probability of correctly diagnosing a person with the disease, and the probability of incorrectly diagnosing a person without the disease. The probability can be calculated using the formula for conditional probability.

Let's denote the probability of selecting an adult over 40 with the disease as P(D), the probability of correctly diagnosing a person with the disease as P(C|D), and the probability of incorrectly diagnosing a person without the disease as having the disease as P(I|¬D).

The probability that an adult over 40 years of age is diagnosed with the disease can be calculated using the formula for conditional probability:

P(D|C) = (P(C|D) * P(D)) / (P(C|D) * P(D) + P(C|¬D) * P(¬D))

Given the probabilities:

P(D) = probability of selecting an adult over 40 with the disease,

P(C|D) = probability of correctly diagnosing a person with the disease,

P(I|¬D) = probability of incorrectly diagnosing a person without the disease as having the disease,

P(¬D) = probability of selecting an adult over 40 without the disease,

we can substitute these values into the formula to calculate the probability P(D|C).

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To find the least number that is a perfect cube and exactly divisible by 6 and 9, we need to find the least common multiple (LCM) of 6 and 9.

The prime factorization of 6 is [tex]\displaystyle 2 \times 3[/tex], and the prime factorization of 9 is [tex]\displaystyle 3^{2}[/tex].

To find the LCM, we take the highest power of each prime factor that appears in either number. In this case, the highest power of 2 is [tex]\displaystyle 2^{1}[/tex], and the highest power of 3 is [tex]\displaystyle 3^{2}[/tex].

Therefore, the LCM of 6 and 9 is [tex]\displaystyle 2^{1} \times 3^{2} =2\cdot 9 =18[/tex].

Now, we need to find the perfect cube number that is divisible by 18. The smallest perfect cube greater than 18 is [tex]\displaystyle 2^{3} =8[/tex].

However, 8 is not divisible by 18.

The next perfect cube greater than 18 is [tex]\displaystyle 3^{3} =27[/tex].

Therefore, the least number that is a perfect cube and exactly divisible by both 6 and 9 is 27.

[tex]\huge{\mathfrak{\colorbox{black}{\textcolor{lime}{I\:hope\:this\:helps\:!\:\:}}}}[/tex]

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Answer:

Step-by-step explanation:

216 = 6³   216/9 = 24  216/6 = 36

A bag contains 24 green marbles, 22 blue marbles, 14 yellow marbles, and 12 red marbles. The probability of randomly picking a marble that is not blue is 25/36.

Given,

Total number of marbles = 24 green marbles + 22 blue marbles + 14 yellow marbles + 12 red marbles = 72 marbles
We have to find the probability that we pick a marble that is not blue.

Let's calculate the probability of picking a blue marble:

P(blue) = Number of blue marbles/ Total number of marbles= 22/72 = 11/36

Now, probability of picking a marble that is not blue is given as:

P(not blue) = 1 - P(blue) = 1 - 11/36 = 25/36

Therefore, the probability of selecting a marble that is not blue is 25/36 or 0.69 (approximately). Hence, the correct answer is P(not blue) = 25/36.

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The given function f: R → R is continuous.

To prove that f is continuous, we need to show that for any ε > 0, there exists a δ > 0 such that |x - c| < δ implies |f(x) - f(c)| < ε for any x, c ∈ R.

Let's assume c is a fixed point in R. Since f(x) > 0 for all x ∈ R, we can take the square root of both sides to obtain √(f(x)^2) > 0.

Now, let's consider the expression |f(x)^2 - f(c)^2|. According to the given property, |f(x)^2 - f(c)^2| ≤ |x - c|.

Taking the square root of both sides, we have √(|f(x)^2 - f(c)^2|) ≤ √(|x - c|).

Since the square root function is a monotonically increasing function, we can rewrite the inequality as |√(f(x)^2) - √(f(c)^2)| ≤ √(|x - c|).

Simplifying further, we get |f(x) - f(c)| ≤ √(|x - c|).

Now, let's choose ε > 0. We can set δ = ε^2. If |x - c| < δ, then √(|x - c|) < ε. Using this in the inequality above, we get |f(x) - f(c)| < ε.

Hence, for any ε > 0, there exists a δ > 0 such that |x - c| < δ implies |f(x) - f(c)| < ε for any x, c ∈ R. This satisfies the definition of continuity.

Therefore, the function f is continuous.

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Answer: 30 square units

Step-by-step explanation: In quadrilateral EFGH, sides FG ― and EH ― are parallel because they have the same slope. Sides EF ― and GH ― are parallel because they have the same slope. The area of quadrilateral EFGH is closest to 30 square units.

Answer: -24x^2+28x

Step-by-step explanation: -4x*6x-(-4x)*7 to -24x^2+28x

The fundamental solutions to the differential equation are:

The characteristic equation that factors in a 9th order, linear, homogeneous, constant coefficient differential equation is (r² − 4r+8)³√(r + 2)² = 0.

To solve this equation, we need to split it into its individual factors.The factors are: (r² − 4r+8)³ and (r + 2)²

To determine the roots of the equation, we'll first solve the quadratic equation that represents the first factor: (r² − 4r+8) = 0.

Using the quadratic formula, we get:

r = (4±√(16−4×1×8))/2r = 2±2ir = 2+2i, 2-2i

These are the complex roots of the quadratic equation. Because the root (r+2) has a power of two, it has a total of four roots:r = -2, -2 (repeated)

Subsequently, the total number of roots of the characteristic equation is 6 real roots (two from the quadratic equation and four from (r+2)²) and 6 complex roots (three from the quadratic equation)

Because the roots are distinct, the nine fundamental solutions can be expressed in terms of each root. Therefore, the fundamental solutions to the differential equation are:

y1 = e^(2x)sin(2x)

y2 = e^(2x)cos(2x)

y3 = e^(-2x)y4 = xe^(2x)sin(2x)

y5 = xe^(2x)cos(2x)

y6 = e^(2x)sin(2x)cos(2x)

y7 = xe^(-2x)

y8 = x²e^(2x)sin(2x)

y9 = x²e^(2x)cos(2x)

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