What is the formula for the volume of an octagon?

The two numbers are -5 and 7

Algebraic expressions are defined as those expressions that are identified with the presence of variables, terms, coefficients, constants and factors.

These expressions are also identified with arithmetic operations, such as;

From the information given, we have;

Let the numbers be x and y

This is expressed as;

xy = -35

x + y = -2

Make 'x' the subject from 2

x = -2 - y

Substitute the values

(2-y)(y) = -35

2y - y² = -35

-y² + 2y + 35

-y² + 7y - 5y + 35

-y(y + 7)- 5(y + 7)

-y - 5 = 0

y = -5

y = 7

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The total number of possible combinations will be 10.

Given that:

Total photo, n = 5

Selection of photo, r = 3

The total number of possible combinations will be calculated as,

⁵C₃ = 5! / [(5 - 3)! - 3!]

⁵C₃ = (5 x 4 x 3 x 2!) / (2! x 3 x 2 x 1)

⁵C₃ = 10

The total number of possible combinations will be 10.

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Result:

The number of ways to choose 15 out of 20 questions = 15,504 ways.

To choose 15 questions out of 20, we can use the combination formula:

nCr = n! / r! * (n - r)!

where:

n = the total number of questions ( that is 20questions)

C = combination

r = the number of questions to be selected (15 questions).

The number of ways to choose 15 questions out of 20:

20C15 = 20! / 15! * (20 - 15)!

= 20! / 15! * 5!

= (20 * 19 * 18 * 17 * 16) / (5 * 4 * 3 * 2 * 1)

= 15504

Therefore, there are 15,504 ways to choose 15 questions out of 20.

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The ML estimate for u in this exponential distribution is the ratio of the number of observations (n) to the sum of the observations (∑x_i).

Given the mean of the exponential density function as y = 1/4, the corresponding exponential distribution can be written in the form of the probability density function (PDF) as:

f(x) = { 4 * e^(-4x) for x ≥ 0, 0 otherwise }

Now, assuming n independent observations X1, X2, ...Xn, we need to derive the maximum likelihood (ML) estimate for the parameter u (in this case, u = 4). To do this, we first find the likelihood function L(u) by taking the product of the PDFs for each observation:

L(u) = ∏[u * e^(-ux_i)] for i = 1, 2, ..., n

Then, take the natural logarithm of the likelihood function to obtain the log-likelihood function l(u):

l(u) = ln(L(u)) = ∑[ln(u) - u * x_i] for i = 1, 2, ..., n

Next, we differentiate l(u) with respect to u and set the result to zero to find the maximum:

dl(u)/du = ∑[1/u - x_i] = 0

Finally, solve for u to obtain the ML estimate:

u = n / ∑x_i

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Answer:

{1/2}{1/2}=1/4

Step-by-step explanation:

The probability of rolling a 1 then a prime number when rolling a fair number cube twice is 1/12.

To find the probability of rolling a 1 then a prime number when rolling a fair number cube twice, we need to determine the possible outcomes. When rolling a number cube, there are six possible outcomes: 1, 2, 3, 4, 5, and 6. The probability of rolling a 1 is 1/6. Now, when rolling the cube a second time, the possible outcomes remain the same. However, only the numbers 2, 3, 5, have prime values. So the probability of rolling a prime number is 3/6.

To find the probability of both events happening together, we multiply the probabilities. Therefore, the probability of rolling a 1 then a prime number is (1/6) * (3/6) = 1/12. This means that there is a 1 in 12 chance of rolling a 1 and then rolling a prime number when rolling a fair number cube twice.

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The number of different-appearing ways to arrange three identical marbles in the holes shown, with no three marbles in three adjacent holes, is:  20 - 6 = 14.

To answer your question, we need to first determine how many ways there are to place three identical marbles into the six holes shown. This can be calculated using the combination formula:

C(6,3) = 6! / (3! * (6-3)!) = 20

So there are 20 different ways to place three identical marbles into the holes.

However, we need to exclude any arrangements where three marbles are in three adjacent holes. To do this, we can count the number of arrangements where this occurs and subtract from the total.

There are three ways this can happen: the marbles can be in holes 1, 2, and 3; or in holes 2, 3, and 4; or in holes 3, 4, and 5.

In each case, we can treat the three adjacent holes as a single "super hole" and place the marbles in the remaining three holes. This can be done in 2 ways, since the marbles are identical and can be placed in any order.

So the number of arrangements with three marbles in three adjacent holes is 3 x 2 = 6.

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I'll show you how to do the first one so that you can do the rest yourself

Answer:

7, 10, 13, 19, 24

Step-by-step explanation:

First, re-write the numbers in numerical order;

7  8  10  10  13  16  19  23  24

(If there's a double number, add it twice)

Then, find the following values easily

The Minimum is the lowest value, 7

The Median is the middle value, 13

The Maximum is the highest value, 24

Here's where it gets tricky...You split the first half (7-13) and the second half (13-24). You then find the median of both halves to find Q1 and Q3

Simply follow those steps to find the other solutions

To create a frequency table list out all unique values in the data set: 2, 3, 4, 5, 6

To create a frequency table:
1. List out all unique values in the data set: 2, 3, 4, 5, 6
2. Count the number of times each value appears in the data set and record it in the frequency column:
- 2 appears 2 times
- 3 appears 3 times
- 4 appears 3 times
- 5 appears 1 time
- 6 appears 1 time
3. Label the columns "Value" and "Frequency"

Value | Frequency
---|---
2 | 2
3 | 3
4 | 3
5 | 1
6 | 1

To create a frequency polygon:

1. Plot the points on a graph with the x-axis representing the value column and the y-axis representing the frequency column.
2. Connect the points with straight lines to form a polygon.
3. Label the x-axis "Value" and the y-axis "Frequency"
4. Provide a title for the graph, such as "Frequency Distribution of Data Set"

Step 1: Organize the data in ascending order.
(2,2,3,3,3,4,4,4,5,6)

Step 2: Identify the unique values in the data set and create a frequency table.
Value | Frequency
--------------
2     | 2
3     | 3
4     | 3
5     | 1
6     | 1

Step 3: Identify the axes for the frequency polygon.
- The horizontal (x) axis represents the unique values in the data set.
- The vertical (y) axis represents the frequency of each unique value.

Step 4: Plot the data points on the graph using the frequency table.
- (2,2)
- (3,3)
- (4,3)
- (5,1)
- (6,1)

Step 5: Connect the data points with straight lines to form the frequency polygon.

Step 6: Label the axes and provide a title.
- Label the horizontal (x) axis as "Values."
- Label the vertical (y) axis as "Frequency."
- Provide a title such as "Frequency Polygon of Data Set."

Now you have created a frequency polygon of the data, with labeled axes and a title.

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Answer:

Step-by-step explanation:

find area of each face so...

8x3=24

24x4=96

5x3=15

15x2=30

30+96= 126  so 126 is the answer

The section the number √17 belongs to is the section C

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

√17

When evaluated, we have

√97 = 4.123.....

This number is between 4 and 4.5

From the number line description, we have

4 to 4.5 is labeled C

Hence, the section located is the section C

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The equation when solved for b gives b = y - 1/5x

The subject of formula in an equation is defined as the variable or element that is allowed to stand on its own on one end of the equality sign.

It is also described as the variable that is solved or sort for in an equation.

Examples of subject of formula are;

y = mx + b, here the variable 'y' is the subject of formula.

x = 1 + y, here the variable 'x' is the subject of formula.

From the information given, we have that;

Given the formula;

y= 1/5x+b

To make 'b' the subject, move the other variable to the other side

b = y - 1/5x

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The convolution integral is a mathematical technique used to find the inverse Laplace transform of a function. In this case, we have a function f(s) that we want to find the inverse Laplace transform of. Let's call the inverse Laplace transform of f(s) F(t).

To use the convolution integral, we first need to express f(s) as a product of two Laplace transforms. Let's call these Laplace transforms F1(s) and F2(s):

f(s) = F1(s) * F2(s)

where * denotes the convolution operation.

Next, we use the convolution theorem to find F(t):

F(t) = (1/2πi) ∫[c-i∞,c+i∞] F1(s)F2(s)e^(st)ds

where c is any constant such that the line Re(s)=c lies to the right of all singularities of F1(s) and F2(s).

In our case, we need to find the inverse Laplace transform of a specific function. Let's call this function F(s):

F(s) = 1/(s^2 + 4s + 13)

To use the convolution integral, we need to express F(s) as a product of two Laplace transforms. One way to do this is to use partial fraction decomposition:

F(s) = (1/10) * [1/(s+2+i3) - 1/(s+2-i3)]

Now we can use the convolution theorem to find the inverse Laplace transform of F(s):

f(t) = (1/2πi) ∫[c-i∞,c+i∞] F1(s)F2(s)e^(st)ds

where F1(s) = 1/(s+2+i3) and F2(s) = 1/(10)

Plugging in these values, we get:

f(t) = (1/2πi) ∫[c-i∞,c+i∞] (1/(s+2+i3))(1/(10)) e^(st)ds

Now we can simplify this integral and evaluate it using complex analysis techniques. The final answer will depend on the value of c that we choose.

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Use the convolution theorem to find the inverse Laplace transform of each of the following functions. a. F(S) = S/((S + 2)(S^2 + 1)) b. F(S) = 1/(S^2 + 64)^2 c. F(S) = (1 - 3s)/(S^2 + 8s + 25) Use the Laplace Transform to solve each of the following integral equations. a. f(t) + integral^infinity_0 (t - tau)f(tau)d tau =t b. f(t) + f(t) + sin (t) = integral^infinity_0 sin(tau)f(t - tau)d tau: f(0) = 0 Find the Inverse Laplace of the following functions. a. F(t) = 3t^ze^2t b. f(t) = sin(t - 5) u(t - 5) c. f(t) = delta(t) - 4t^3 + (t - 1)u(t - 1)

Euler's method is useful when analytical solutions are impossible to obtain, quick estimate is required, we need to understand general behavior of system and numerical method.

Euler's method is a numerical approach to approximating the particular solution of a differential equation that passes through a particular point. This method is useful when:

1. Analytical solutions are difficult or impossible to obtain for the given differential equation.
2. A quick estimate of the solution is needed with a reasonable degree of accuracy.
3. You want to understand the general behavior of the system modeled by the differential equation.
4. You need a numerical method that is easy to implement and understand.

In such cases, Euler's method provides an efficient and straightforward way to approximate the solution to the differential equation.

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The area to the left of z=1.07 is approximately 0.8577 (rounded to four decimal place. To find the area under the standard normal curve to the left of z = 1.07 using a TI-84 calculator.

Follow these steps:

1. Press the "2nd" button, then press "Vars" to access the "DISTR" menu.
2. Scroll down to "normalcdf(" and press "Enter".
3. Enter -99999 (or -E99) as the lower limit, since we want to find the area to the left of z = 1.07, which is very close to negative infinity.
4. Enter 1.07 as the upper limit, since we want to find the area to the left of this value.
5. Enter 0 as the mean, since we're working with the standard normal distribution.
6. Enter 1 as the standard deviation, since we're working with the standard normal distribution.
7. Press "Enter" to calculate the area.

The answer should be approximately 0.8577 when rounded to four decimal places.

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The maximal margin of error associated with a 99% confidence interval for the true population mean backpack weight is 2.73 ounces (rounded to two decimal places).

We can use the formula for the margin of error in a confidence interval:

margin of error = z ×(σ / √n)

where:

z is the z-score corresponding to the desired level of confidence (99% in this case), σ is the standard deviation, n is the sample size

For a 99% confidence level, the z-score is approximately 2.576.

Substituting the given values into the formula, we get:

margin of error = 2.576 × (8.2 / √47

margin of error = 2.73

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(a) To calculate the estimated standard error of the mean of the difference scores, we need to first find the mean of the difference scores and the sample standard deviation of the difference scores.

The difference scores are obtained by subtracting the baseline appetite for fatty foods (x) from the appetite for fatty foods in the mildly stressful environment (y). So, the difference scores are:

-3, 10, 8, -3, 7, 11, -3, 6, 4, 4, 3, 4

The mean of the difference scores is:

(−3+10+8−3+7+11−3+6+4+4+3+4)/12 = 4.0/12 = 0.33

The sample standard deviation of the difference scores is:

s = √[Σ(y-x-0.33)²/(n-1)] = √[Σ(y-x-0.33)²/11] = √[232.67/11] = 4.06

Therefore, the estimated standard error of the mean of the difference scores is:

SE = s/√n = 4.06/√12 = 1.17

(b) To calculate t-obtained, we need to use the formula:

t = (M - μ) / (SE)

where M is the mean of the difference scores, μ is the hypothesized population mean (which is 0, since we are testing for a significant difference), and SE is the estimated standard error of the mean of the difference scores.

So, t-obtained is:

t = (0.33 - 0) / 1.17 = 0.28

The absolute value of t-obtained is:

|t-obtained| = |0.28| = 0.28

Therefore, the absolute value of t-obtained is 0.28.

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Answer: A, B, C

Step-by-step explanation:

Congruence of any shape by definition means that the two shapes have the same shape and size. This applies even if the shapes are in different orientations, or if the two shapes are reflected versions of each other, as long as the points are named the same respective to their different orientations. If the two triangles are congruent, their corresponding sides and angles are also congruent, because they are the same shapes, they have the same corresponding sides and angles. If any of these are not true, this means that the shapes are not congruent.

The length of the major arc DFE is given as follows:

L = 5.11π

The circumference of a circle of radius r is given by the equation presented as follows:

C = 2πr.

The radius in this problem is of 4 ft, hence the length of the whole circumference is of:

C = 8π.

The entire circumference is of 360º, with a minor arc of 130º, hence the length of the major arc is given as follows:

360 - 130 = 230º.

Meaning that the length of the major arc is given as follows:

L = 230/360 x 8π

L = 5.11π

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The random variable that has a distribution that can be approximated by a binomial distribution is the number of college-bound students among the 100 high school graduates who took the SAT test.

Since approximately 45% of all high school graduates took the test, we can assume that the probability of a high school graduate being college-bound and taking the test is 0.45. Therefore, the number of college-bound students among the 100 high school graduates who took the test follows a binomial distribution with parameters n=100 and p=0.45.
Your question involves the terms "college-bound students," "100 high school graduates," and "binomial distribution." In this scenario, the random variable that can be approximated by a binomial distribution is the number of high school graduates who took the SAT out of the randomly selected 100 high school graduates.
To explain further, a binomial distribution is used when there are a fixed number of trials (in this case, 100 high school graduates), with only two possible outcomes (either a graduate took the SAT or did not take the SAT), and each trial is independent with the same probability of success (45% in this case). The random variable of interest, the number of students who took the SAT, meets these criteria, and thus can be approximated by a binomial distribution.

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In a greenhouse experiment, the dependent variable is the variable that is being measured and is affected by the independent variable. The independent variable is the variable that is being manipulated or changed by the researcher in order to observe its effect on the dependent variable.

The values from the greenhouse experiment that represent the dependent variable will depend on the specific experiment being conducted. For example, if the experiment is focused on studying the effect of different types of fertilizers on plant growth, the dependent variable would be the plant growth, measured in terms of height or weight. In this case, the independent variable would be the type of fertilizer used.

When plotting these data on a line graph, the dependent variable would go on the y-axis, while the independent variable would go on the x-axis. This allows for easy visualization of the relationship between the variables being studied. By plotting the data points on a line graph, it is possible to identify any patterns or trends that may exist in the data, and to draw conclusions about the relationship between the independent and dependent variables.

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Considering the definition of an equation and the way to solve it, Amanda wants to rent a boat and spend less than $92, she can rent the boar for less than 12 hours.

An equation is the equality existing between two algebraic expressions connected through the equals sign.

The members of an equation are each of the expressions that appear on both sides of the equal sign. The terms of an equation are the addends that form the members of an equation.

The solution of a equation means determining the value that satisfies it and the equality must be true. To solve an equation, keep in mind:

Being "t" the numbers of hours Amanda could rent the boat, and knowing that:

the equation in this case is:

8t - 4< 92

Solving:

8t <92 +4

8t <96

t <96 ÷ 8

t <12

Finally, Amanda can rent the boar for less than 12 hours.

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This can be determined by analyzing the given differential equation. The equation shows that the rate of change of y, y', is proportional to the square of y, y^2, with a negative constant factor of (1/6). This means that as y increases, the rate of change y' decreases, and as y decreases, the rate of change y' increases.

Therefore, if y is positive, y' will be negative, indicating that y is decreasing. And if y is 0, y' will also be 0, indicating that y is constant. Thus, the function y must be decreasing (or equal to 0) on any interval on which it is defined.

In terms of mathematics, this can also be expressed as follows:
- The given differential equation represents a function y' as a function of y: y' = f(y) = (1/6)y^2.
- Since f(y) is always non-positive for all real y, y' will be non-positive for all positive y, indicating that y is decreasing (or equal to 0).
- Therefore, any solution of the equation y' = (1/6)y^2 will have a decreasing (or constant) function y on any interval on which it is defined.
Your answer: a.) The function y must be increasing (or equal to 0) on any interval on which it is defined.

Explanation: The given differential equation is y' = (1/6)y^2. Since y^2 is always non-negative (i.e., greater than or equal to 0), the right side of the equation (1/6)y^2 is also always non-negative. Therefore, y' (the derivative of y with respect to x) must be greater than or equal to 0. This implies that the function y must be increasing (or equal to 0) on any interval on which it is defined.

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The missing length in the triangle is 56 cm.

Two triangles are said to be similar if their corresponding angles are congruent and the corresponding sides are in proportion .

Let us form a proportional equation to find the value of missing length

p/21 = 24/9

Apply cross multiplication

9p=21×24

9p=504

Divide both sides by 9

p=56

Hence, the missing length in the triangle is 56 cm.

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The correct statement regarding the law of conservation of energy is given as follows:

C. Energy is neither destroyed nor created during energy transformations.

The law of conservation of energy states that energy can neither be created nor destroyed - only converted from one form of energy to another.

One example is that the kinetic energy may be transformed to potential energy in a system, but the total energy of the system will remain constant.

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The sign of m^13 ⋅ n^5 depends on the signs of the variables m and n.

If both m and n are positive, then m^13 is positive, n^5 is positive, and their product is positive.

If both m and n are negative, then m^13 is negative (an odd power of a negative number is negative), n^5 is negative (an odd power of a negative number is negative), and their product is positive (a negative multiplied by a negative is positive).

If one of m or n is negative and the other is positive, then m^13 is negative (an odd power of a negative number is negative), n^5 is positive (an odd power of a positive number is positive), and their product is negative (a negative multiplied by a positive is negative).

Therefore, we cannot determine the sign of m^13 ⋅ n^5 without additional information about the signs of m and n.

The slope of a line parallel to the line whose equation is 2x - 5y = 30 is equal to 2/5.

In Mathematics and Geometry, parallel lines can be defined as two (2) lines that are always the same (equal) distance apart and never meet.

In Mathematics and Geometry, two (2) lines are parallel under the following conditions:

Slope, m₁ = Slope, m₂

Based on the information provided about this line, we have the following equation in standard form;

2x - 5y = 30.

By making y the subject of formula, we have:

5y = 2x - 30

y = 2x/5 - 6

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Under normal circumstances and assuming no interfering factors. This suggests a unidirectional relationship between the variables, with a being the independent variable and b being the dependent variable.

If a and b are highly correlated, and b changes when you manipulate a but a does not change when you manipulate b, then it is most likely that b is the dependent variable and a is the independent variable. if a and b are highly correlated and b changes when you manipulate a, but a does not change when you manipulate b, the most likely scenario is that a has a causal influence on b, but b does not have a causal influence on a.

This suggests that changes in a are causing changes in b, and not the other way around. However, it is important to note that this conclusion assumes normal circumstances and no interfering factors, which may impact the relationship between a and b.

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To find the domain of the function f(x,y) = ln(9 - x^2 - 9y^2), we need to identify any values of x and y that would make the argument of the natural logarithm negative or equal to zero.

Since the natural logarithm of a non-positive number is undefined, we need to ensure that 9 - x^2 - 9y^2 > 0.

Rearranging this inequality, we get x^2 + 9y^2 < 9, which is the equation of an ellipse centered at the origin with semi-axes of length 3 and 1 in the x and y directions, respectively.

Therefore, the domain of the function is the interior of this ellipse, which we can sketch as follows:

(please imagine an ellipse centered at the origin with semi-axes of length 3 and 1 in the x and y directions, respectively, shaded in)
To find and sketch the domain of the function f(x, y) = ln(9 - x² - 9y²), we need to determine the values of x and y for which the function is defined.

Step 1: Identify the restrictions of the function.
For the natural logarithm function, ln(x), it is defined for x > 0. Therefore, the inside of the logarithm, 9 - x² - 9y², must be greater than 0.

Step 2: Solve for the domain.
9 - x² - 9y² > 0

Rearrange the inequality:
x² + 9y² < 9

Divide by 9:
x²/9 + y² < 1

This inequality represents the interior of an ellipse with semi-major axis a = 3 and semi-minor axis b = 1.

Step 3: Sketch the domain.
To sketch the domain, draw an ellipse centered at the origin (0, 0) with horizontal axis length 6 (from -3 to 3) and vertical axis length 2 (from -1 to 1). The domain includes all points inside the ellipse but does not include the boundary (the ellipse itself).

So, the domain of the function f(x, y) = ln(9 - x² - 9y²) is the interior of the ellipse with equation x²/9 + y² < 1.

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The graph that will most represent this information will display rate of decrease in the number of road accidents per year. The Option D is correct.

This would be rate of decrease in the number of road accidents per year that will display impact of the new rule on reducing the number of road accidents over time.

By graphing this measure, it would allow for a visual representation of the trend in the number of accidents which could help evaluate the success of the new rule. It may need to be combined with other measures like number of tickets issued for violating the rule or the number of vehicles checked for compliance etc.

Full question "The state highway patrol wants to evaluate a new rule for vehicles that was put into place to prevent road accidents across all large cities. Which measure would be displayed in a graph most appropriately representing this information? A. the rate of decrease in the number of vehicles purchased per year B. the total number of road accidents per year C. the total number of vehicles per person D. the rate of decrease in the number of road accidents per year"

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Answer:students develop good habits when they are in elementary school.

Step-by-step explanation:

iready, I got it right away