(2,7) [2,7] Inequality symbols-do you {2,7} know????? Can you explain the difference with these 3 answers?

Applying the sine ratio, the value of x, to the nearest tenth of a degree is determined as: 28.6 degrees.

The formula we would use to find the value of x is the sine ratio, which is expressed as:

[tex]\sin\theta = \dfrac{\text{length of opposite side}}{\text{length of hypotenuse}}[/tex]

We are given that:

So for the given figure, we have:

[tex]\sin\text{x}=\dfrac{11}{23}[/tex]

[tex]\rightarrow\sin\text{x}\thickapprox0.4783[/tex]

[tex]\rightarrow \text{x}=\sin^{-1}(0.4783)=0.4987 \ \text{radian}[/tex]  (using sine calculation)

Converting radians into degrees, we have

[tex]\text{x}=0.4987\times\dfrac{180^\circ}{\pi }[/tex]

[tex]=0.4987\times\dfrac{180^\circ}{3.14159}=28.57342937\thickapprox\bold{28.6^\circ}[/tex] [Round to the nearest tenth.]

Therefore, the value of x to the nearest tenth of a degree is 28.6 degrees.

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A U.S. dollar can buy approximately 0.21 Swiss francs (rounded to two decimal places). Thus, the answer is option d) 0.21.

To determine how much Swiss francs a U.S. dollar can buy, we need to use the given exchange rates between different currencies.

Given:

1 ounce of gold costs 15 U.S. dollars and 14.3028 Italian lira.

1 ounce of silver costs 0.7302 Italian lira and 0.1605 Swiss francs.

Let's calculate the exchange rate between the U.S. dollar and the Swiss franc using the given information:

1 ounce of silver = 0.7302 Italian lira

1 ounce of silver = 0.1605 Swiss francs

To find the exchange rate between the Italian lira and the Swiss franc, we can divide the price of 1 ounce of silver in Swiss francs by the price of 1 ounce of silver in Italian lira:

Exchange rate: 0.1605 Swiss francs / 0.7302 Italian lira

Simplifying this, we get:

Exchange rate: 0.2199 Swiss francs / 1 Italian lira

Now, let's find the exchange rate between the U.S. dollar and the Italian lira:

1 ounce of gold = 15 U.S. dollars

1 ounce of gold = 14.3028 Italian lira

To find the exchange rate between the U.S. dollar and the Italian lira, we can divide the price of 1 ounce of gold in Italian lira by the price of 1 ounce of gold in U.S. dollars:

Exchange rate: 14.3028 Italian lira / 15 U.S. dollars

Simplifying this, we get:

Exchange rate: 0.9535 Italian lira / 1 U.S. dollar

Finally, to find how much Swiss francs a U.S. dollar can buy, we multiply the exchange rate between the U.S. dollar and the Italian lira by the exchange rate between the Italian lira and the Swiss franc:

Exchange rate: 0.9535 Italian lira / 1 U.S. dollar * 0.2199 Swiss francs / 1 Italian lira

Simplifying this, we get:

Exchange rate: 0.2099 Swiss francs / 1 U.S. dollar

Therefore, a U.S. dollar can buy approximately 0.21 Swiss francs (rounded to two decimal places). Thus, the answer is option d) 0.21.

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a. The area of one side of the rectangular brick is approximately 203.70 cm² to 212.46 cm².

b. The volume of the brick is approximately 222.63 cm³ to 278.53 cm³.

The uncertainty in volume is approximately 55.90 cm³.

c. The mailbag reaches the ground at t = 0 seconds, which means it reaches the ground immediately upon release.

a) To find the area of one side of the rectangular plastic brick,

multiply the length and width together,

Area = Length × Width

Length = (21.2 ± 0.2) cm

Width = (9.8 ± 0.1) cm

To calculate the area, use the values at the extremes,

Maximum area,

Area max

= (Length + ΔLength) × (Width + ΔWidth)

= (21.2 + 0.2) cm × (9.8 + 0.1) cm

Minimum area,

Area min

= (Length - ΔLength) × (Width - ΔWidth)

= (21.2 - 0.2) cm × (9.8 - 0.1) cm

Calculating the maximum and minimum areas,

Area max

= 21.4 cm × 9.9 cm

≈ 212.46 cm²

Area min

= 21.0 cm × 9.7 cm

≈ 203.70 cm²

b) To calculate the volume of the brick,

multiply the length, width, and thickness together,

Volume = Length × Width × Thickness

Length = (21.2 ± 0.2) cm

Width = (9.8 ± 0.1) cm

Thickness = (1.2 ± 0.1) cm

To calculate the volume, use the values at the extremes,

Maximum volume,

Volume max

= (Length + ΔLength) × (Width + ΔWidth) × (Thickness + ΔThickness)

Minimum volume,

Volume min

= (Length - ΔLength) × (Width - ΔWidth) × (Thickness - ΔThickness)

Calculating the maximum and minimum volumes,

Volume max = (21.2 + 0.2) cm × (9.8 + 0.1) cm × (1.2 + 0.1) cm

Volume min = (21.2 - 0.2) cm × (9.8 - 0.1) cm × (1.2 - 0.1) cm

Simplifying,

Volume max

= 21.4 cm × 9.9 cm × 1.3 cm

≈ 278.53 cm³

Volume min

= 21.0 cm × 9.7 cm × 1.1 cm

≈ 222.63 cm³

The uncertainty in volume can be calculated as the difference between the maximum and minimum volumes,

Uncertainty in Volume

= Volume max - Volume min

= 278.53 cm³ - 222.63 cm³

≈ 55.90 cm³

c) The height of the helicopter above the ground is given by the equation,

h = 2.60t³

The helicopter releases the mailbag at t = 2.35 s,

find the time it takes for the mailbag to reach the ground after its release.

When the mailbag reaches the ground, the height (h) will be zero.

So, set up the equation,

0 = 2.60t³

Solving for t,

t³= 0

Since any number cubed is zero, it means that t = 0.

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The area of the surface generated when the curve y = ([tex]x^{(3/4)}[/tex]) + (1/3x) is revolved about the x-axis, for 1/2 ≤ x ≤ 2, is [tex]\frac{2\pi }{3}[/tex]  square units.

To find the area of the surface generated by revolving the curve about the x-axis, we can use the formula for the surface area of a solid of revolution:

A = 2π [tex]\int\limits^a_b[/tex] y √(1 + (dy/dx)²) dx

where a and b are the limits of integration, y is the function describing the curve, and dy/dx represents the derivative of y with respect to x.

In this case, we have y = [tex]x^{(3/4) }[/tex]+ (1/3)x, and we need to find the area for 1/2 ≤ x ≤ 2. Let's calculate the derivative dy/dx first:

dy/dx = (3/4)[tex]x^{(-1/4)}[/tex] + (1/3)

Now we can substitute these values into the surface area formula:

A = 2π [tex]\int\limits^2_{1/2)[/tex]([tex]x^{(3/4)}[/tex] + (1/3)x) √(1 + ((3/4)[tex]x^{(-1/4)}[/tex] + (1/3))²) dx

A = [tex]\frac{2\pi }{3}[/tex] square units

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The work required to build the Great Pyramid of Giza, assuming a density of 1800 kg/m³ for the stone, is found to be approximately 1.374 x 10^11 Joules.

To calculate the work needed to build the pyramid, we can use the formula: W = mgh, where m is the mass, g is the acceleration due to gravity, and h is the height.

First, we need to find the mass of the pyramid. The volume of a pyramid can be calculated by V = (1/3)Bh, where B is the base area and h is the height. Given that the base of the pyramid is a square with a side length of 230 m and the height is 146 m, the volume becomes V = (1/3)(230 m)(230 m)(146 m).

Next, we calculate the mass using the density formula: density = mass/volume. Rearranging the formula, we get mass = density × volume. Substituting the given density of 1800 kg/m³ and the calculated volume, we find the mass to be approximately (1800 kg/m³) × [(1/3)(230 m)(230 m)(146 m)].

Finally, we can calculate the work W by multiplying the mass, acceleration due to gravity (g ≈ 9.8 m/s²), and height. Plugging in the values, we have W = [(1800 kg/m³) × [(1/3)(230 m)(230 m)(146 m)] × (9.8 m/s²) × (146 m)].

Evaluating the expression, we find that W is approximately 1.374 x 10^11 Joules.

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The variance of the given crooked die is 3.19.

Variance is a numerical measure of how the data points vary in a data set. It is the average of the squared deviations of the individual values in a set of data from the mean value of that set. Here's how to calculate the variance of the given crooked die:

Given that a crooked die rolls a six half the time and the other five values are equally likely. Therefore, the probability of rolling a six is 0.5, and the probability of rolling any other value is 0.5/5 = 0.1. The expected value of rolling the die can be calculated as:

E(X) = (0.5 × 6) + (0.1 × 1) + (0.1 × 2) + (0.1 × 3) + (0.1 × 4) + (0.1 × 5) = 3.1

To calculate the variance, we need to calculate the squared deviations of each possible value from the expected value, and then multiply each squared deviation by its respective probability, and finally add them all up:

Var(X) = [(6 - 3.1)^2 × 0.5] + [(1 - 3.1)^2 × 0.1] + [(2 - 3.1)^2 × 0.1] + [(3 - 3.1)^2 × 0.1] + [(4 - 3.1)^2 × 0.1] + [(5 - 3.1)^2 × 0.1]= 3.19

The variance of the crooked die is 3.19, which can be expressed in the form a.be as 3.19.

Therefore, the variance of the given crooked die is 3.19.

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Given,An investment of $50,000 in property taxes and rental income received of $800 per month, annual taxes of $1,500 paid monthly for four years.

We need to calculate the Return on Investment (ROI).Let us begin with calculating the total amount of rental income received by multiplying the monthly rental income by 12 and then multiplying the resultant by 4, as it is for 4 years. Rental income received= 12 × 4 × 800 = $38,400

Now, let us calculate the total amount of taxes paid by multiplying the annual taxes by 4. Annual taxes = $1,500Total taxes paid

= 4 × $1,500

= $6,000Now, let us calculate the ROI. ROI

= (Total rental income received − Total expenses)/Total investment

= (38,400 − 6,000)/50,000

= 32,400/50,000

= 0.648 or 64.8%

The ROI for the investment is 64.8%. Hence, e. 4.25% is the correct option.

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(a) True. If the determinant of a matrix A is non-zero (detA ≠ 0), then A has an inverse. This is a property of invertible matrices. If detA = 0, the matrix A is singular and does not have an inverse.

(b) True. The determinant of a matrix scales linearly with respect to scalar multiplication. Therefore, det(2A) = 2det(A). This can be proven using the properties of determinants.

(c) False. The determinant of the sum of two matrices is not equal to the sum of their determinants. In general, det(A+B) ≠ detA + detB. This can be shown through counterexamples.

(d) False. Taking the transpose of a matrix does not affect its determinant. Therefore, det(A^-T) = det(A) ≠ det(A^1) unless A is a 1x1 matrix.

(e) True. The determinant of the product of two matrices is equal to the product of their determinants. Therefore, det(AB^-1) = det(A)det(B^-1) = det(A)det(B)^-1 = det(B)^-1det(A) = (1/det(B))det(A) = det(B)^-1det(A).

(f) True. Using the properties of determinants, det[(A+B)(A-B)] = det(A^2 - B^2). This can be expanded and simplified to det(A^2 - B^2) = det(A^2) - det(B^2) = (det(A))^2 - (det(B))^2.

(g) False. If A is an n×n matrix with det(A) = 0, it means that A is a singular matrix and its rank is less than n. If B is an invertible matrix with det(B) ≠ 0, then det(A) ≠ det(B). Therefore, det(A) ≠ det(B) for these conditions.

1.9.6. To prove that det(cA) = c^n det(A), we can use the property that the determinant of a matrix is multiplicative. Let's assume A is an n×n matrix. We can write cA as a matrix with every element multiplied by c:

cA =

| c*a11 c*a12 ... c*a1n |

| c*a21 c*a22 ... c*a2n |

| ...   ...   ...   ...  |

| c*an1 c*an2 ... c*ann |

Now, we can see that every element of cA is c times the corresponding element of A. Therefore, each term in the expansion of det(cA) is also c times the corresponding term in the expansion of det(A). Since there are n terms in the expansion of det(A), multiplying each term by c results in c^n. Therefore, we have:

det(cA) = c^n det(A)

This proves the desired result.

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The sample that is most likely to yield a representative sample for the poll is "twenty names from each grade pulled blindly from a container filled with the names of the entire student body written on slips of paper."

A representative sample is one that accurately reflects the characteristics of the population from which it is drawn. In this case, Miranda wants to determine how many students would attend a students-only school dance. To achieve this, she needs a sample that represents the entire student body.

The option of selecting twenty names from each grade ensures that the sample includes students from all grades, which is important to capture the diversity of the student body.

By pulling the names blindly from a container filled with the names of the entire student body, the selection process is unbiased and random, minimizing any potential biases that could arise from alternative methods.

The other options have certain limitations that may result in a non-representative sample. For example, selecting every tenth person walking down Main Street may introduce a bias towards students who live or frequent that particular area.

Students who write into the school newspaper may have different interests or characteristics compared to the general student body, leading to a biased sample. Similarly, selecting all the students from Miranda's classes would not represent the entire student body, as it would only include students from those specific classes.

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The point on the graph of f(x)=5x^2-4x+2 where the tangent line is parallel to the line 1/2x+y=-1 can be found by determining the slope of the given line and finding a point on the graph of f(x) with the same slope. The coordinates of the point are (-1/2, f(-1/2)).

To calculate the slope of the line 1/2x+y=-1, we rearrange the equation to the slope-intercept form: y = -1/2x - 1. The slope of this line is -1/2. To find a point on the graph of f(x)=5x^2-4x+2 with the same slope, we take the derivative of f(x) which is f'(x) = 10x - 4. We set f'(x) equal to -1/2 and solve for x: 10x - 4 = -1/2. Solving this equation gives x = -1/2. Substituting this value of x into f(x), we find f(-1/2). Therefore, the point on the graph of f(x) where the tangent line is parallel to the given line is (-1/2, f(-1/2)).

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The annual rate of interest is 0.01858

To calculate the annual rate of interest, we need to determine the interest earned in 9 months on an investment of $19,732.65. The interest earned is $275.03. Using this information, we can calculate the annual rate of interest by dividing the interest earned by the principal investment and then multiplying by the appropriate factor to convert it to an annual rate.

To calculate the annual rate of interest, we can use the formula:

Annual interest rate = (Interest earned / Principal investment) * (12 / Number of months)

In this case, the interest earned is $275.03, the principal investment is $19,732.65, and the number of months is 9.

Plugging in the values into the formula:

Annual interest rate = ($275.03 / $19,732.65) * (12 / 9)=0.01858

The annual rate of interest is 0.01858.

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In order to find the exact values of the six trigonometric functions of the given angle θ, we will first have to find the values of the three sides of the right triangle formed by the given point (8, -6) and the origin (0, 0).

Let's begin by plotting the point on the Cartesian plane below:From the graph, we can see that the point (8, -6) lies in the fourth quadrant, which means that the angle θ is greater than 270 degrees but less than 360 degrees. The distance from the origin to the point (8, -6) is the hypotenuse of the right triangle formed by the point and the origin. We can use the distance formula to find the length of the hypotenuse:hypotenuse = √(8² + (-6)²) = √(64 + 36) = √100 = 10Now we can find the lengths of the adjacent and opposite sides of the triangle using the coordinates of the point (8, -6):adjacent = 8opposite = -6Now we can use these values to find the exact values of the six trigonometric functions of θ:sin θ = opposite/hypotenuse = -6/10 = -3/5cos θ = adjacent/hypotenuse = 8/10 = 4/5tan θ = opposite/adjacent = -6/8 = -3/4csc θ = hypotenuse/opposite = 10/-6 = -5/3sec θ = hypotenuse/adjacent = 10/8 = 5/4cot θ = adjacent/opposite = 8/-6 = -4/3Therefore, the exact values of the six trigonometric functions of θ are:sin θ = -3/5cos θ = 4/5tan θ = -3/4csc θ = -5/3sec θ = 5/4cot θ = -4/3

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The expression that represents the volume of the prism in cubic units is xy²/2.

The oblique prism below has an isosceles right triangle base. The expression that represents the volume of the prism in cubic units is V = bh/2 × h, where b is the length of the base and h is the height of the prism. The base is an isosceles right triangle, which means that the two equal sides are each length x.

According to the Pythagorean theorem, the length of the hypotenuse (which is also the length of the base) is x√2. Therefore, the area of the base is:bh/2 = x²/2

The height of the prism is y units. So, the volume of the prism is:

V = bh/2 × h = (x²/2) × y = xy²/2

Therefore, the expression that represents the volume of the prism in cubic units is xy²/2.

The answer is therefore:xy²/2, which represents the volume of the prism in cubic units.

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To find the proportion for 1 - P(μ - 2σ), we can calculate P(2σ) using the cumulative distribution function of the standard normal distribution. The specific value depends on the given statistical tables or software used.

To find the proportion for 1 - P(μ - 2σ), we need to understand the properties of the standard normal distribution.

The standard normal distribution is a bell-shaped distribution with a mean (μ) of 0 and a standard deviation (σ) of 1. The area under the curve of the standard normal distribution represents probabilities.

The notation P(μ - 2σ) represents the probability of obtaining a value less than or equal to μ - 2σ. Since the mean (μ) is 0 in the standard normal distribution, μ - 2σ simplifies to -2σ.

P(μ - 2σ) can be interpreted as the proportion of values in the standard normal distribution that are less than or equal to -2σ.

To find the proportion for 1 - P(μ - 2σ), we subtract the probability P(μ - 2σ) from 1. This gives us the proportion of values in the standard normal distribution that are greater than -2σ.

Since the standard normal distribution is symmetric around the mean, the proportion of values greater than -2σ is equal to the proportion of values less than 2σ.

Therefore, 1 - P(μ - 2σ) is equivalent to P(2σ).

In the standard normal distribution, the proportion of values less than 2σ is given by the cumulative distribution function (CDF) at 2σ. We can use statistical tables or software to find this value.

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Answer: -1/8 or -0.125

Step-by-step explanation:

Given that the suspension bridge has twin towers that are 600 meters apart

.Each tower extends 50 meters above the road surface.

The cables are parabolic in shape and are suspended from the tops of the towers. The cables touch the road surface at the center of the bridge.

So, we need to find the height of the cable at a point 225 meters from the center of the bridge.

The equation of a parabola is of the form: y = a(x - h)² + k where (h, k) is the vertex of the parabola.

To find the equation of the cable, we need to find its vertex and a value of "a".The vertex of the parabola is at the center of the bridge.

The road surface is the x-axis and the vertex is the point (0, 50).

Since the cables touch the road surface at the center of the bridge, the two points on the cable that are on the x-axis are at (-300, 0) and (300, 0).

Using the three points, we can find the equation of the parabola:y = a(x + 300)(x - 300)

Expanding the equation, we get y = a (x² - 90000)

To find "a", we use the fact that the cables extend 50 meters above the road surface at the towers. The y-coordinate of the vertex is 50.

So, substituting (0, 50) into the equation of the parabola, we get: 50 = a(0² - 90000) => a = -1/1800

Substituting "a" into the equation of the parabola, we get:y = -(1/1800)x² + 50

The height of the cable at a point 225 meters from the center of the bridge is: y = -(1/1800)(225)² + 50y = -1/8 meters

The height of the cable at a point 225 meters from the center of the bridge is -1/8 meters or -0.125 meters.

Elementary row operations, substitution, and elimination are all methods for solving systems of linear equations. They are similar in that they all lead to the same solution, but they differ in the way that they achieve this solution.

Elementary row operations are a set of basic operations that can be performed on a matrix. These operations can be used to simplify a matrix, and they can also be used to solve systems of linear equations.

Substitution is a method for solving systems of linear equations by substituting one variable for another. This can be done by solving one of the equations for one of the variables, and then substituting that value into the other equations.

Elimination is a method for solving systems of linear equations by adding or subtracting equations in such a way that one of the variables is eliminated. This can be done by adding or subtracting equations that have the same coefficients for the variable that you want to eliminate.

The main difference between elementary row operations and substitution is that elementary row operations can be used to simplify a matrix, while substitution cannot. This can be helpful if the matrix is very large or complex. The main difference between elimination and substitution is that elimination can be used to eliminate multiple variables at once, while substitution can only be used to eliminate one variable at a time.

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a) The value of P(−1.33 < t < 1.33) is 0.906.

b) The value of c is 1.701, rounded to at least three decimal places.

Part (a): The probability that the t statistic falls between -1.33 and 1.33 can be found using the ALEKS calculator. Using the cumulative probability calculator with 23 degrees of freedom, we have:

P(−1.33 < t < 1.33) = 0.906

Therefore, the value of P(−1.33 < t < 1.33) is 0.906, rounded to at least three decimal places.

Part (b): Using the inverse cumulative probability calculator with 28 degrees of freedom, we find a t-value of 1.701. The calculator can be used to find the P(t ≥ 1.701) as shown below:

P(t ≥ 1.701) = 0.05

This means that there is a 0.05 probability that the t statistic will be greater than or equal to 1.701. Therefore, the value of c is 1.701, rounded to at least three decimal places.

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x=11 or x=-1 We can solve the equation log2(x+5)=3−log2(x+3) by combining the logarithms on the left-hand side. We use the rule that log2(a)−log2(b)=log2(a/b) to get:

log2(x+5)−log2(x+3)=log2((x+5)/(x+3))

The equation is now log2((x+5)/(x+3))=3. We can solve for x by converting the logarithm to exponential form:

(x+5)/(x+3)=2^3=8

Cross-multiplying gives us x+5=8(x+3)=8x+24. Solving for x gives us x=11 or x=-1.

The equation log2(x+5)=3−log2(x+3) can be solved by combining the logarithms on the left-hand side and converting the logarithm to exponential form. The solution is x=11 or x=-1.

The logarithm is a mathematical operation that takes a number and returns the power to which another number must be raised to equal the first number. In this problem, we are given the equation log2(x+5)=3−log2(x+3). This equation can be solved by combining the logarithms on the left-hand side and converting the logarithm to exponential form.

The rule log2(a)−log2(b)=log2(a/b) tells us that the difference of two logarithms is equal to the logarithm of the quotient of the two numbers. So, the equation log2(x+5)−log2(x+3)=3 can be written as log2((x+5)/(x+3))=3.

Converting the logarithm to exponential form gives us (x+5)/(x+3)=2^3=8. Cross-multiplying gives us x+5=8(x+3)=8x+24. Solving for x gives us x=11 or x=-1.

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a) The length of the third side of the triangle is 5√3.

b) The area of the triangle is (25/4) * √3.

Let us now analyze in a detailed way:
a) The length of the third side of the triangle can be found using the law of cosines. Let's denote the length of the third side as c. According to the law of cosines, we have the equation:

c^2 = a^2 + b^2 - 2ab*cos(C),

where a and b are the lengths of the other two sides, and C is the angle between them. Substituting the given values into the equation:

c^2 = 5^2 + 10^2 - 2*5*10*cos(π/3).

Simplifying further:

c^2 = 25 + 100 - 100*cos(π/3).

Using the value of cosine of π/3 (which is 1/2):

c^2 = 25 + 100 - 100*(1/2).

c^2 = 25 + 100 - 50.

c^2 = 75.

Taking the square root of both sides:

c = √75.

Simplifying the square root:

c = √(25*3).

c = 5√3.

Therefore, the length of the third side of the triangle is 5√3.

b) The area of the triangle can be calculated using the formula for the area of a triangle:

Area = (1/2) * base * height.

In this case, we can take the side of length 5 as the base of the triangle. The height can be found by drawing an altitude from one vertex to the base, creating a right triangle. The angle opposite the side of length 5 is π/3, and the adjacent side of this angle is 5/2 (since the base is divided into two segments of length 5/2 each).

Using trigonometry, we can find the height:

height = (5/2) * tan(π/3).

The tangent of π/3 is √3, so:

height = (5/2) * √3.

Substituting the values into the formula for the area:

Area = (1/2) * 5 * (5/2) * √3.

Simplifying:

Area = (5/4) * 5 * √3.

Area = 25/4 * √3.

Therefore, the area of the triangle is (25/4) * √3.

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The absolute maximum of the function f(x) = sin(4x) on the interval [-π/4, π/4] is 1, and it occurs at x = 0. There is no absolute minimum of f on the given interval.

To find the absolute extreme values of f(x) = sin(4x) on the interval [-π/4, π/4], we need to evaluate the function at the critical points and endpoints of the interval. The critical points occur when the derivative of f(x) is equal to zero or undefined.

Taking the derivative of f(x) with respect to x, we have f'(x) = 4cos(4x). Setting f'(x) equal to zero, we find cos(4x) = 0. Solving for x, we get 4x = π/2 or 4x = 3π/2. Thus, x = π/8 or x = 3π/8 are the critical points within the interval.

Next, we evaluate f(x) at the critical points and endpoints.

For x = -π/4, we have f(-π/4) = sin(4(-π/4)) = sin(-π) = 0.

For x = π/4, we have f(π/4) = sin(4(π/4)) = sin(π) = 0.

For x = π/8, we have f(π/8) = sin(4(π/8)) = sin(π/2) = 1.

For x = 3π/8, we have f(3π/8) = sin(4(3π/8)) = sin(3π/2) = -1.

Thus, the absolute maximum of f(x) on the given interval is 1, and it occurs at x = π/8. There is no absolute minimum of f on the interval [-π/4, π/4].

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The surface area of the house is 74.322 m², the volume of the house in cubic inches is 18,720,000 cu in, and the volume of the house in m³ is 0.338 m³.

Given: Length of the house = 50 ft

Width of the house = 26 ft

Height of the house = 100 inches

a) To find the surface area of the house in m²

In order to calculate the surface area of the house, we need to convert feet to meters. To convert feet to meters, we will use the formula:

1 meter = 3.28084 feet

Surface area of the house = 2(lw + lh + wh)

Surface area of the house in meters = 2(lw + lh + wh) / 10.7639

Surface area of the house in meters = (2 x (50 x 26 + 50 x (100 / 12) + 26 x (100 / 12))) / 10.7639

Surface area of the house in meters = 74.322 m²

b) To calculate the volume of the house in cubic inches, we will convert feet to inches.

Volume of the house = lwh

Volume of the house in inches = lwh x 12³

Volume of the house in inches = 50 x 26 x 100 x 12³

Volume of the house in inches = 18,720,000

c) We can either use the value of volume of the house in cubic inches or we can use the value of surface area of the house in meters.

Volume of the house = lwh

Volume of the house in meters = lwh / (100 x 100 x 100)

Volume of the house in meters = (50 x 26 x 100) / (100 x 100 x 100)

Volume of the house in meters = 0.338 m³ or

Surface area of the house = lw + lh + wh

Surface area of the house = (50 x 26) + (50 x (100 / 12)) + (26 x (100 / 12))

Surface area of the house = 1816 sq ft

Area of the house in meters = 1816 / 10.7639

Area of the house in meters = 168.72 m²

Volume of the house in meters = Area of the house in meters x Height of the house in meters

Volume of the house in meters = 168.72 x (100 / 3.28084)

Volume of the house in meters = 515.86 m³

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900 samples should be collected for the poll to determine what percentage of people support the political candidate if the candidate only wants a 1% margin of error at a 90% confidence level.

To determine the size of the sample needed, we use the formula:n = (Z² * p * (1-p))/E²Where:Z = Z-score at a given level of confidencep = the proportion of the populationE = the maximum allowable margin of errorn = sample size.

Margin of error (E) = 1% or 0.01Confidence level = 90% or 0.9Margin of error = Z * sqrt(p * (1 - p)) = 0.01 = 1%We know that the margin of error, E, is the product of the z-score and the standard error which is equal to sqrt(p * (1-p))/n. Rearranging this formula, we have:z = E / sqrt(p * (1-p))/nLet’s solve for n:n = (z / E)² * p * (1-p)Let’s determine the z-score at a 90% confidence level using the z-table.

We can find the z-score that corresponds to the 95th percentile since the distribution is symmetric. Thus, the z-score is 1.645.p is unknown so we assume that the proportion is 0.5 which provides the maximum sample size needed. Thus:p = 0.5n = (1.645 / 0.01)² * 0.5 * (1 - 0.5)n = 899 or about 900 (rounded to the nearest whole number).

Therefore, 900 samples should be collected for the poll to determine what percentage of people support the political candidate if the candidate only wants a 1% margin of error at a 90% confidence level.

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The pressure at an altitude of 3,500 m is 76.3 kPa. The pressure at the top of a mountain that is 6,452 m high is 57.8 kPa.

Let P be the atmospheric pressure at altitude h, and let k be the constant of proportionality. We know that the rate of change of P with respect to h is kP. This means that dP/dh = kP. We can also write this as dp/P = k dh.

We are given that P = 101.1 kPa at sea level (h = 0) and P = 86.9 kPa at h = 1,000 m. We can use these two points to find the value of k.

ln(86.9/101.1) = k * 1000

k = -0.0063

Now, we can use this value of k to find the pressure at an altitude of 3,500 m (h = 3,500).

P = 101.1 * e^(-0.0063 * 3500) = 76.3 kPa

Similarly, we can find the pressure at the top of a mountain that is 6,452 m high (h = 6,452).

P = 101.1 * e^(-0.0063 * 6452) = 57.8 kPa

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The elasticity of demand at a price of $63 is approximately -0.058.

To find the elasticity of demand at a specific price, we need to calculate the derivative of the demand function with respect to price (p) and then multiply it by the price (p) divided by the demand function (D(p)). The formula for elasticity of demand is given by:

E(p) = (p / D(p)) * (dD / dp)

Given the demand function D(p) = √(325 - 3p), we can differentiate it with respect to p:

dD / dp = -3 / (2√(325 - 3p))

Substituting the given price p = $63 into the demand function:

D(63) = √(325 - 3(63)) = √136

Now, substitute the values back into the elasticity formula:

E(63) = (63 / √136) * (-3 / (2√(325 - 3(63))))

Simplifying further:

E(63) ≈ -0.058

Therefore, the elasticity of demand at a price of $63 is approximately -0.058.

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X is a normal random variable with mean μ=10 and variance σ ∧ 2=36.

We have to find the following probabilities:P{x<22}, P{X>5}, P{45) = P(z>-0.83)From the z-table, the area to the right of z = -0.83 is 0.7967.P(X>5) = 0.7967z3 = (4 - 10)/6 = -1P(45} = 0.7967P{4

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The graphs of the functions p(x) and its inverse function y = (x - 5)1/3 + 2 are shown below:Graph of p(x) = (x − 2)3 + 5Graph of its inverse function y = (x - 5)1/3 + 2.

Inverse of a functionA function is a set of ordered pairs (x, y) which maps an input value of x to a unique output value of y. A function is invertible if it is a one-to-one function, that is, it maps every element of the domain to a unique element in the range. The inverse of a function is a new function that is formed by switching the input and output values of the original function. The inverse of a function, f(x) is represented by f -1(x). It is important to note that not all functions are invertible.

For a function to be invertible, it must pass the horizontal line test.Graph of the inverse functionThe graph of the inverse function is a reflection of the original function about the line y = x. The inverse of a function is obtained by switching the x and y values. The graph of the inverse function is obtained by reflecting the graph of the original function about the line y = x.The inverse of the function p(x) = (x − 2)3 + 5 can be found as follows:First, replace p(x) with y to get y = (x − 2)3 + 5

Then, interchange the x and y variables to obtain x = (y − 2)3 + 5Solve for y to get the inverse function y = (x - 5)1/3 + 2.To graph both the function and its inverse, plot the points on the coordinate plane. The graph of the inverse function is the reflection of the graph of the original about the line y = x. The graphs of the functions p(x) and its inverse function y = (x - 5)1/3 + 2 are shown below:Graph of p(x) = (x − 2)3 + 5Graph of its inverse function y = (x - 5)1/3 + 2.

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The expression (f(x) - f(a))/(x - a) represents the slope of the secant line between two points on a function f(x), namely (x, f(x)) and (a, f(a)).

The slope of a line between two points can be found using the formula (change in y)/(change in x). In this case, (f(x) - f(a))/(x - a) represents the change in y (vertical change) divided by the change in x (horizontal change) between the points (x, f(x)) and (a, f(a)).

By plugging in the respective x and a values into the function f(x), we obtain the y-coordinates f(x) and f(a) at those points. Subtracting f(a) from f(x) gives us the change in y, while subtracting a from x gives us the change in x. Dividing the change in y by the change in x gives us the slope of the secant line between the two points.

In summary, the expression (f(x) - f(a))/(x - a) represents the slope of the secant line connecting two points on the function f(x), (x, f(x)) and (a, f(a)). It measures the average rate of change of the function over the interval between x and a.

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The probability of obtaining exactly 8 heads out of 15 flips using the normal distribution is approximately 0.1411.

To use the normal distribution to approximate the binomial distribution, you need to use the following steps:

To find the probability of obtaining exactly 8 heads out of 15 flips using normal distribution, first calculate the mean and variance of the binomial distribution.

For this scenario,

mean, μ = np = 15 * 0.5 = 7.5

variance, σ² = npq = 15 * 0.5 * 0.5 = 1.875

Use the mean and variance to calculate the standard deviation,

σ, by taking the square root of the variance.

σ = √(1.875) ≈ 1.3696

Convert the binomial distribution to a normal distribution using the formula:

(X - μ) / σwhere X represents the number of heads and μ and σ are the mean and standard deviation, respectively.

Next, find the probability of obtaining exactly 8 heads using the normal distribution. Since we are looking for an exact value, we will use a continuity correction. That is, we will add 0.5 to the upper and lower limits of the range (i.e., 7.5 to 8.5) before finding the area under the normal curve between those values using a standard normal table.

Z1 = (7.5 + 0.5 - 7.5) / 1.3696 ≈ 0.3651Z2

= (8.5 + 0.5 - 7.5) / 1.3696 ≈ 1.0952

P(7.5 ≤ X ≤ 8.5) = P(0.3651 ≤ Z ≤ 1.0952) = 0.1411

Therefore, the probability of obtaining exactly 8 heads out of 15 flips using the normal distribution is approximately 0.1411.

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The marathon runner takes time of 3.05 h, 183.0 min or 10,980.0 s to run a 26.22-mi marathon.

We know that the runner's average speed is 8.61 mi/h. To find the time the runner takes to run a marathon, we can use the formula:

Time = Distance ÷ Speed

We are given that the distance is 26.22 mi and the speed is 8.61 mi/h.

So,Time = 26.22/8.61 = 3.05 h

To convert the time in hours to minutes, we multiply by 60.3.05 × 60 = 183.0 min

To convert the time in minutes to seconds, we multiply by 60.183.0 × 60 = 10,980.0 s

Therefore, the marathon runner takes 3.05 h, 183.0 min or 10,980.0 s to run a 26.22-mi marathon.

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On the domain of (-2π, 2π), sin(-x) will be equal to csc(-x) for the following values of x: -π^2, 3π/2, and 0.

In mathematics, the domain of a function is the set of all possible input values (or independent variables) for which the function is defined. It represents the valid inputs that the function can accept and operate on to produce meaningful output values.

To determine the values of x for which sin(-x) = csc(-x), we can rewrite csc(-x) as 1/sin(-x).

Using the identity sin(-x) = -sin(x) and csc(-x) = -csc(x), we can simplify the equation as follows:

-sin(x) = -1/sin(x)

Multiplying both sides by sin(x), we get:

-sin(x) * sin(x) = -1

sin(x)^2 = 1

Now, considering the domain of (-2π, 2π), we can find the values of x that satisfy sin(x)^2 = 1.

The solutions to this equation are:

x = 0 (for sin(x) = 1)

x = π (for sin(x) = -1)

Therefore, the values of x that satisfy sin(-x) = csc(-x) on the given domain are:0 and π

Thus, the answer is:0

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