GRE Algebra
For three positive integers A,B, and C, A>B>C
When the three numbers are divided by 3 , the remainder is 0,1, and 1, respectively
Quantity A= The remainder when A+B is divided by 3
Quantity B= The remainder when A-C is divided by 3
Thus, A=3a B=3b+1 C=3c+1
A+B = 3a+3b+1...1 Quantity A=1. Why?
A-C= 3a-3c-1, so 3(a-c-1)+2 ... 2 Remainder is two <- Why??? Explain how you would even think of doing this.
Quantity B=2. Therefore, A

The values of x and y in the given system of equations are x = 4.00 and y = 5.00. These values are obtained by solving the system using the method of substitution.

The given system of linear equations is:

0.50x + 0.20y = 3.00 ...(Equation 1)

x + y = 9.00 ...(Equation 2)

To solve this system of equations, we can use the method of substitution or elimination. Let's solve it using the method of substitution:

From Equation 2, we can express x in terms of y:

x = 9.00 - y

Substituting this expression for x in Equation 1, we have:

0.50(9.00 - y) + 0.20y = 3.00

Expanding and simplifying:

4.50 - 0.50y + 0.20y = 3.00

-0.30y = -1.50

Dividing both sides by -0.30:

y = -1.50 / -0.30

y = 5.00

Now, substitute this value of y back into Equation 2 to find x:

x + 5.00 = 9.00

x = 9.00 - 5.00

x = 4.00

Therefore, the values of x and y in the given system of equations are x = 4.00 and y = 5.00.

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f(x) from the given equation, we get: xv' = -2v + C²² (C₂²-1) 1 – Cx Cx - + D X

To show that the substitution u = y' leads to a Bernoulli equation, we need to substitute y' with u in the given equation:

xy" = y' + (y')³ C²² (C₂²-1) 1 – Cx Cx - + D X

Substituting y' with u, we get:

xu' = u + u³ C²² (C₂²-1) 1 – Cx Cx - + D X

Now, we have an equation in terms of x and u.

To solve this equation, we can rearrange it by dividing both sides by x:

u' = (u + u³ C²² (C₂²-1) 1 – Cx Cx - + D X) / x

Next, we can multiply both sides by x to eliminate the denominator:

xu' = u + u³ C²² (C₂²-1) 1 – Cx Cx - + D X

This is the same equation we obtained earlier after the substitution.

Now, we have a Bernoulli equation in the form of xu' = u + u^n f(x), where n = 3 and f(x) = C²² (C₂²-1) 1 – Cx Cx - + D X.

To solve the Bernoulli equation, we can use the substitution v = u^(1-n), where n = 3. This leads to the equation:

xv' = (1-n)v + f(x)

Substituting the value of n and f(x) from the given equation, we get:

xv' = -2v + C²² (C₂²-1) 1 – Cx Cx - + D X

This is now a first-order linear differential equation. We can solve it using standard techniques, such as integrating factors or separating variables, depending on the specific form of f(x).

Please note that the specific solution of this equation would depend on the exact form of f(x) and any initial conditions given. It is advisable to use appropriate techniques and methods to solve the equation accurately and obtain the solution in a desired form.

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The construction on page 734 involves a step-by-step process to solve a specific problem or demonstrate a mathematical concept.

The construction on page 734 is a methodical procedure used in mathematics to solve a particular problem or illustrate a concept. It typically involves a series of steps that are carefully chosen and executed to achieve the desired outcome.

The purpose of the construction can vary depending on the specific context, but it generally aims to provide a visual representation, demonstrate a theorem, or solve a given problem.

In the explanation provided on page 734, the construction steps are detailed and justified. Each step is crucial to the overall process and contributes to the final result.

The author likely presents the reasoning behind each step to help the reader understand the underlying principles and logic behind the construction.

It is important to note that without specific details about the construction mentioned on page 734, it is challenging to provide a more specific explanation. However, it is essential to carefully follow the given steps and their justifications, as they are likely designed to ensure accuracy and validity in the mathematical context.

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The value of m is for i) No solution: m = 0

ii) Many solutions: m ≠ 0

iii) Unique solution: m = 2/9

To determine the values of m for which the system of linear equations has no solution, many solutions, or a unique solution, we need to analyze the coefficients and the resulting augmented matrix of the system.

Let's rewrite the system of equations in matrix form:

⎡ 1   4   -1 ⎤ ⎡ x ⎤   ⎡ 0 ⎤

⎢ 0  -9    5  ⎥ ⎢ y ⎥ = ⎢-1⎥

⎣ 0  -2   -m ⎦ ⎣ z ⎦   ⎣ m ⎦

Now, let's analyze the possibilities:

i) No solution:

This occurs when the system is inconsistent, meaning that the equations are contradictory and cannot be satisfied simultaneously. In other words, the rows of the augmented matrix do not reduce to a row of zeros on the left side.

ii) Many solutions:

This occurs when the system is consistent but has at least one dependent equation or redundant information. In this case, the rows of the augmented matrix reduce to a row of zeros on the left side.

iii) Unique solution:

This occurs when the system is consistent and all the equations are linearly independent, meaning that each equation provides new information and there are no redundant equations. In this case, the augmented matrix reduces to the identity matrix on the left side.

Now, let's perform row operations on the augmented matrix to determine the conditions for each case.

R2 = (1/9)R2

R3 = (1/2)R3

⎡ 1   4   -1 ⎤ ⎡ x ⎤   ⎡ 0 ⎤

⎢ 0   1 -5/9 ⎥ ⎢ y ⎥ = ⎢-1/9⎥

⎣ 0   1  -m/2⎦ ⎣ z ⎦   ⎣ m/2⎦

R3 = R3 - R2

⎡ 1   4   -1 ⎤ ⎡ x ⎤   ⎡ 0 ⎤

⎢ 0   1 -5/9 ⎥ ⎢ y ⎥ = ⎢-1/9⎥

⎣ 0   0  -m/2⎦ ⎣ z ⎦   ⎣ m/2 - 1/9⎦

From the last row, we can see that the value of m will determine the outcome of the system.

i) No solution:

If m = 0, the last row becomes [0 0 0 | -1/9], which is inconsistent. Thus, there is no solution when m = 0.

ii) Many solutions:

If m ≠ 0, the last row will not reduce to a row of zeros. In this case, we have a dependent equation and the system will have infinitely many solutions.

iii) Unique solution:

If the system has a unique solution, m must be such that the last row reduces to [0 0 0 | 0]. This means that the right-hand side of the last row, m/2 - 1/9, must equal zero:

m/2 - 1/9 = 0

Simplifying this equation:

m/2 = 1/9

m = 2/9

Therefore, for m = 2/9, the system will have a unique solution.

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The multiplicative inverse of 12 is 8, because 1 modulo 19.

The elements in Z19 .

a. 13 X19 17 = 12

   13 * 17 = 221

   221 % 19 = 12

b. 13 +19 17 = 11

   13 + 17 = 30

   30 % 19 = 11

c. -12 (the additive inverse of 12) = 8

The additive inverse of a number is the number that, when added to the original number, gives 0.

The additive inverse of 12 is 8, because 12 + 8 = 0.

d. 12¹ (the multiplicative inverse of 12) = 8

The multiplicative inverse of a number is the number that, when multiplied by the original number, gives 1.

The multiplicative inverse of 12 is 8, because 12 * 8 = 96, which is 1 modulo 19.

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The value of the 6 in the ten-thousands place is 10,000 times greater than the value of the 6 in the tens place.

In Mathematics and Geometry, a place value is a numerical value (number) which denotes a digit based on its position in a given number and it includes the following:

6 in the ten-thousands = 60,000

6 in the tens place = 60

Value = 60,000/60

Value = 10,000.

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For the equation 16x² + 4y² = 64, there are no real foci.

The foci for the equation of an ellipse, 16x² + 4y² = 64, can be found using the standard form equation of an ellipse. The equation represents an ellipse with its major axis along the x-axis.

To find the foci, we first need to determine the values of a and b, which represent the semi-major and semi-minor axes of the ellipse, respectively. Taking the square root of the denominators of x² and y², we have a = 2 and b = 4.

The formula to find the distance from the center to each focus is given by c = √(a² - b²). Substituting the values, we get c = √(4 - 16) = √(-12).

Since the square root of a negative number is imaginary, the ellipse does not have any real foci. Instead, the foci are imaginary points located along the imaginary axis. Therefore, for the equation 16x² + 4y² = 64, there are no real foci.

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15. The y-intercept for the function f(x) = 2(x² - 5) + 4 is -6.

16. To have only one x-intercept, the value of m in the function f(x) = x² + 10x + 28 - m needs to be 3.

15. To find the y-intercept for the function f(x) = 2(x² - 5) + 4, we need to substitute x = 0 into the equation and solve for y.

Substituting x = 0 into the equation:

f(0) = 2(0² - 5) + 4

= 2(-5) + 4

= -10 + 4

= -6

Therefore, the y-intercept for the function f(x) = 2(x² - 5) + 4 is -6.

16. To find the value of m for which the function f(x) = x² + 10x + 28 - m has only one x-intercept, we need to consider the discriminant of the quadratic equation.

The discriminant is given by the formula Δ = b² - 4ac, where a, b, and c are the coefficients of the quadratic equation ax² + bx + c = 0.

In this case, the quadratic equation is x² + 10x + 28 - m = 0, which implies a = 1, b = 10, and c = 28 - m.

For the quadratic equation to have only one x-intercept, the discriminant must be equal to zero (Δ = 0).

Setting Δ = 0 and substituting the values of a, b, and c:

(10)² - 4(1)(28 - m) = 0

100 - 4(28 - m) = 0

100 - 112 + 4m = 0

4m - 12 = 0

4m = 12

m = 3

Therefore, the value of m for which the function f(x) = x² + 10x + 28 - m has only one x-intercept is m = 3.

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15. y-intercept for the function f(x) = 2(x^2 - 5) + 4 is -6.

To find the y-intercept for the function f(x) = 2(x^2 - 5) + 4, we set x = 0 and solve for y.

Substituting x = 0 into the equation, we have:

f(0) = 2(0^2 - 5) + 4

    = 2(-5) + 4

    = -10 + 4

    = -6

Therefore, the y-intercept for the function f(x) = 2(x^2 - 5) + 4 is -6.

16. function f(x) = x^2 + 10x + 28 - m has only one x-intercept, then the value of m should be 3.

To find the value of m if the function f(x) = x^2 + 10x + 28 - m has only one x-intercept, we need to consider the discriminant of the quadratic equation.

The discriminant (D) is given by D = b^2 - 4ac, where a, b, and c are the coefficients of the quadratic equation ax^2 + bx + c = 0.

For the given equation f(x) = x^2 + 10x + 28 - m, we can see that a = 1, b = 10, and c = 28 - m.

To have only one x-intercept, the discriminant D should be equal to zero. Therefore, we have:

D = 10^2 - 4(1)(28 - m)

  = 100 - 4(28 - m)

  = 100 - 112 + 4m

  = -12 + 4m

Setting D = 0, we have:

-12 + 4m = 0

4m = 12

m = 12/4

m = 3

Therefore, if the function f(x) = x^2 + 10x + 28 - m has only one x-intercept, then the value of m should be 3.

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The first six terms of the sequence defined by the formula an = n² + 1 are 2, 5, 10, 17, 26, and 37.

The first six terms of the sequence defined by the formula an = n² + 1 are:

a1 = 1² + 1 = 2

a2 = 2² + 1 = 5

a3 = 3² + 1 = 10

a4 = 4² + 1 = 17

a5 = 5² + 1 = 26

a6 = 6² + 1 = 37

The sequence starts with 2, and each subsequent term is obtained by squaring the term number and adding 1. For example, a2 is obtained by squaring 2 (2² = 4) and adding 1, resulting in 5. Similarly, a3 is obtained by squaring 3 (3² = 9) and adding 1, resulting in 10.

This pattern continues for the first six terms, where the term number is squared and 1 is added. The resulting sequence is 2, 5, 10, 17, 26, 37.

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Answer:

Step-by-step explanation:

To determine if two functions are inverses of each other, we need to check if their compositions result in the identity function.

Let's examine each pair of functions:

A. f(x) = 3(3) - 10 and g(x) = -8

To find the composition, we substitute g(x) into f(x):

f(g(x)) = 3(-8) - 10 = -34

Since f(g(x)) ≠ x, these functions are not inverses of each other.

B. f(x) = x + 8 + 9 and g(x) = 4(x + 8) - 9

To find the composition, we substitute g(x) into f(x):

f(g(x)) = 4(x + 8) - 9 + 8 + 9 = 4x + 32

Since f(g(x)) ≠ x, these functions are not inverses of each other.

C. f(x) = 4(x - 12) + 2 and g(x) = x + 12 - 2

To find the composition, we substitute g(x) into f(x):

f(g(x)) = 4((x + 12) - 2) + 2 = 4x + 44

Since f(g(x)) ≠ x, these functions are not inverses of each other.

D. f(x) = 3 - 4 and g(x) = 2(x + 4)

To find the composition, we substitute g(x) into f(x):

f(g(x)) = 3 - 4 = -1

Since f(g(x)) = x, these functions are inverses of each other.

Therefore, the pair of functions f(x) = 3 - 4 and g(x) = 2(x + 4) are inverses of each other.

The negations for each of the following statements are as follows:

a. None of the tests came back positive.

b. No tests came back positive.

c. All tests came back positive.

d. Some tests came back positive.

Statement a. All tests came back positive.The negation of the statement is: None of the tests came back positive.

Statement b. Some tests came back positive.The negation of the statement is: No tests came back positive.

Statement c. Some tests did not come back positive.The negation of the statement is: All tests came back positive.

Statement d. No tests came back positive.The negation of the statement is: Some tests came back positive.

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It is False that based only on the r and p values listed above you can come to the conclusion that age is a moderator of the bivariate relationship between the amount of texting and the number of accidents.

In the given scenario, it is not completely true that based only on the r and p values listed above, you can come to the conclusion that age is a moderator of the bivariate relationship between the amount of texting and the number of accidents.

Let's first understand what is meant by the term "moderator.

"Moderator: A moderator variable is a variable that changes the strength of a connection between two variables. If there is a statistically significant bivariate relationship between the amount of texting during driving and the number of accidents, scientists investigate whether this bivariate relationship is moderated by age.

Therefore, based on the values of r and p, it is difficult to determine if age is a moderator of the bivariate relationship between the amount of texting and the number of accidents.

As we have to analyze other factors also to determine whether the age is a moderator or not, such as the sample size, the effect size, and other aspects to draw a meaningful conclusion.

So, it is False that based only on the r and p values listed above you can come to the conclusion that age is a moderator of the bivariate relationship between the amount of texting and the number of accidents.

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The correct numerator for the derivative after we have combined and simplified the result but before we have factored an 'h' from the numerator is f(a+h)-f(a)-hf'(a).

In a given expression, if we combine and simplify the numerator of the derivative result but before we factor an 'h' from the numerator, then the correct numerator will be

f(a+h)-f(a)-hf'(a).

How do you find the derivative of a function? The derivative of a function can be calculated using various methods and notations such as using limits, differential, or derivatives using algebraic formulas.

Let's take a look at how to find the derivative of a function using the limit notation:

f'(a)=\lim_{h \rightarrow 0} \frac{f(a+h)-f(a)}{h}

Here, f'(a) is the derivative of the function

f(x) at x=a.

To calculate the numerator of the derivative result, we can subtract

f(a) from f(a+h) to get the change in f(x) from a to a+h. This can be written as f(a+h)-f(a). Then we need to multiply the derivative of the function with the increment of the input, i.e., hf'(a).

Now, if we simplify and combine these two results, the correct numerator will be f(a+h)-f(a)-hf'(a)$. Therefore, the correct numerator for the derivative after we have combined and simplified the result but before we have factored an 'h' from the numerator is f(a+h)-f(a)-hf'(a).

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The uncoded row matrices for the message "SELL CONSOLIDATED" with a row matrix size of 1 × 3 and encoding matrix A = 1 0 −1 −2 1 2 are:

1 -1 1

-2 0 0

-1 1 2

To obtain the uncoded row matrices for the given message, we need to multiply the message matrix with the encoding matrix. The message "SELL CONSOLIDATED" has a row matrix size of 1 × 3, which means it has one row and three columns.

The encoding matrix A has a size of 3 × 3, which means it has three rows and three columns.

To perform the matrix multiplication, we multiply each element in the first row of the message matrix with the corresponding elements in the columns of the encoding matrix, and then sum the results.

This process is repeated for each row of the message matrix.

For the first row of the message matrix [1 -1 1], the multiplication with the encoding matrix A gives us:

(1 × 1) + (-1 × -2) + (1 × -1) = 1 + 2 - 1 = 2

(1 × 0) + (-1 × 1) + (1 × 1) = 0 - 1 + 1 = 0

(1 × -1) + (-1 × 2) + (1 × 2) = -1 - 2 + 2 = -1

Therefore, the first row of the uncoded row matrix is [2 0 -1].

Similarly, we can calculate the remaining rows of the uncoded row matrices using the same process. Matrix multiplication and encoding matrices to gain a deeper understanding of the calculations involved in obtaining uncoded row matrices.

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both functions are linear and increasing

To solve the expression 2 + 3 × 4 + 5, we follow the order of operations, also known as the PEMDAS rule (Parentheses, Exponents, Multiplication and Division, Addition and Subtraction):

First, we perform the multiplication: 3 × 4 = 12.

Then, we add the remaining numbers: 2 + 12 + 5.

Finally, we perform the addition: 2 + 12 + 5 = 19.

Therefore, the correct solution to the expression 2 + 3 × 4 + 5 is 19, not 45. It's important to note that the order of operations dictates that multiplication and division should be performed before addition and subtraction. So, in this case, the multiplication (3 × 4) is evaluated first, followed by the addition (2 + 12), and then the final addition (14 + 5).

If you obtained a result of 45, it's possible that there was an error in the calculation or a misunderstanding of the order of operations.

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Answer:

37 more 6th graders than seventh graders signed up for PE

Step-by-step explanation:

number of 6th graders = n = 220

number of 7th graders = m = 190

Now, 60% of 6th graders registered for PE,

Now, 60% of 220 is,

(0.6)(220) = 132

132 6th graders signed up for PE,

Also, 50% of 7th graders signed up for PE,

Now, 50% of 190 is,

(50/100)(190) = (0.5)(190) = 95

so, 95 7th graders signed up for PE,

We have to find how many more 6th graders than seventh graders signed up for PE, the number is,

Number of 6th graders which signed up for PE - Number of 7th graders which signed up for PE

which gives,

132 - 95 = 37

Hence, 37 more 6th graders than seventh graders signed up for PE

Answer:

Step-by-step explanation:

Its rectangular prism trust me I did the quiz

In conclusion, the eigenvalues of A^(-1)BA and ABA^(-1) are the same as the eigenvalues of B.

To show that the eigenvalues of A^(-1)BA and ABA^(-1) are the same as the eigenvalues of B, we can use the fact that similar matrices have the same eigenvalues.

First, let's consider A^(-1)BA. We know that A and A^(-1) are invertible, which means they are similar matrices. Therefore, A^(-1)BA and B are similar matrices. Since similar matrices have the same eigenvalues, the eigenvalues of A^(-1)BA are the same as the eigenvalues of B.

Next, let's consider ABA^(-1). Again, A and A^(-1) are invertible, so they are similar matrices. This means ABA^(-1) and B are also similar matrices. Therefore, the eigenvalues of ABA^(-1) are the same as the eigenvalues of B.

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Step-by-step explanation:

There are 6 possible rolls

  4 5 6   are greater than 3

   1  and 3   are odd rolls to include in the count

     so 5 rolls out of 6  =   5/6

(a) The explicit formula R(n) = 2n - 1.

(b) L(n) = n(n - 1).

(c) Number of odd numbers = 1 - n² + 3n.

(d) an = n³ + 2n² + n + 2.

(a) The explicit formula R(n) for the rightmost odd number on the left-hand side of the nth row, let's examine the pattern. In each row, the number of odd numbers on the left side is equal to the row number (n).

The first row (n = 1) has 1 odd number: a1.

The second row (n = 2) has 2 odd numbers: a2 and 3.

The third row (n = 3) has 3 odd numbers: 5, 7, and 9.

We can observe that in the nth row, the first odd number is given by n, and the subsequent odd numbers are consecutive odd integers. Therefore, we can express R(n) as:

R(n) = n + (n - 1) = 2n - 1.

To justify this formula, we can use mathematical induction. First, we verify that R(1) = 1, which matches the first row. Then, assuming the formula holds for some arbitrary kth row, we can show that it holds for the (k+1)th row:

R(k+1) = k + 1 + k = 2k + 1.

Since 2k + 1 is the (k+1)th odd number, the formula holds for the (k+1)th row.

(b) The formula L(n) for the leftmost odd number in the nth row, we can observe that the leftmost odd number in each row is given by the sum of odd numbers from 1 to (n-1). We can express L(n) as:

L(n) = 1 + 3 + 5 + ... + (2n - 3).

To justify this formula, we can use the formula for the sum of an arithmetic series:

S = (n/2)(first term + last term).

In this case, the first term is 1, and the last term is (2n - 3). Plugging these values into the formula, we have:

S = (n/2)(1 + 2n - 3) = (n/2)(2n - 2) = n(n - 1).

Therefore, L(n) = n(n - 1).

(c) The number of odd numbers on the left-hand side in the nth row can be calculated by subtracting the leftmost odd number from the rightmost odd number and adding 1. Therefore, the number of odd numbers in the nth row is:

Number of odd numbers = R(n) - L(n) + 1 = (2n - 1) - (n(n - 1)) + 1 = 2n - n² + n + 1 = 1 - n² + 3n.

(d) Based on the previous steps and the fact that each row has an even distribution of odd numbers, we can argue that the value of an, which represents the sum of odd numbers in the nth row, should be equal to the sum of the odd numbers in that row. Using the formula for the sum of an arithmetic series, we can find the sum of the odd numbers in the nth row:

Sum of odd numbers = (Number of odd numbers / 2) * (First odd number + Last odd number).

Sum of odd numbers = ((1 - n² + 3n) / 2) * (L(n) + R(n)).

Substituting the formulas for L(n) and R(n) from earlier, we get:

Sum of odd numbers = ((1 - n² + 3n) / 2) * (n(n - 1) + 2

n - 1).

Simplifying further:

Sum of odd numbers = (1 - n² + 3n) * (n² - n + 1).

Sum of odd numbers = n³ - n² + n - n² + n - 1 + 3n² - 3n + 3.

Sum of odd numbers = n³ + 2n² + n + 2.

Hence, the value of an is given by the sum of the odd numbers in the nth row, which is n³ + 2n² + n + 2.

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1. Homogeneous solution is [tex]\rm y_h(t) = c_1e^{(1/2t)} + c_2te^{(1/2t)[/tex].

2. Particular solution: [tex]\rm y_p(t) = 80e^{(1/2t)[/tex].

3. General solution: [tex]\rm y(t) = y_h(t) + y_p(t) = c_1e^{(1/2t)} + c_2te^{(1/2t)} + 80e^{(1/2t)[/tex].

1. Find the homogeneous solution:

The characteristic equation for the homogeneous equation is given by [tex]$4r^2 - 4r + 1 = 0$[/tex]. Solving this equation, we find that the roots are [tex]$r = \frac{1}{2}$[/tex] (double root).

Therefore, the homogeneous solution is [tex]$ \rm y_h(t) = c_1e^{\frac{1}{2}t} + c_2te^{\frac{1}{2}t}$[/tex], where [tex]$c_1$[/tex] and [tex]$c_2$[/tex] are constants.

2. Find the particular solution:

Assume the particular solution has the form [tex]$ \rm y_p(t) = u(t)e^{\frac{1}{2}t}$[/tex], where u(t) is a function to be determined. Differentiate [tex]$y_p(t)$[/tex] to find [tex]$y_p'$[/tex] and [tex]$y_p''$[/tex]:

[tex]$ \rm y_p' = u'e^{\frac{1}{2}t} + \frac{1}{2}ue^{\frac{1}{2}t}$[/tex]

[tex]$ \rm y_p'' = u''e^{\frac{1}{2}t} + u'e^{\frac{1}{2}t} + \frac{1}{4}ue^{\frac{1}{2}t}$[/tex]

Substitute these expressions into the differential equation [tex]$ \rm 4(y_p'') - 4(y_p') + y_p = 80e^{\frac{1}{2}}$[/tex]:

[tex]$ \rm 4(u''e^{\frac{1}{2}t} + u'e^{\frac{1}{2}t} + \frac{1}{4}ue^{\frac{1}{2}t}) - 4(u'e^{\frac{1}{2}t} + \frac{1}{2}ue^{\frac{1}{2}t}) + u(t)e^{\frac{1}{2}t} = 80e^{\frac{1}{2}}$[/tex]

Simplifying the equation:

[tex]$ \rm 4u''e^{\frac{1}{2}t} + u(t)e^{\frac{1}{2}t} = 80e^{\frac{1}{2}}$[/tex]

Divide through by [tex]$e^{\frac{1}{2}t}$[/tex]:

[tex]$4u'' + u = 80$[/tex]

3. Solve for u(t):

To solve for u(t), we assume a solution of the form u(t) = A, where A is a constant. Substitute this solution into the equation:

[tex]$4(0) + A = 80$[/tex]

[tex]$A = 80$[/tex]

Therefore, [tex]$u(t) = 80$[/tex].

4. Find the particular solution [tex]$y_p(t)$[/tex]:

Substitute [tex]$u(t) = 80$[/tex] back into [tex]$y_p(t) = u(t)e^{\frac{1}{2}t}$[/tex]:

[tex]$y_p(t) = 80e^{\frac{1}{2}t}$[/tex]

Therefore, a particular solution of the differential equation [tex]$4y'' - 4y' + y = 80e^{\frac{1}{2}}$[/tex] that does not involve any terms from the homogeneous solution is [tex]$y_p(t) = 80e^{\frac{1}{2}t}$[/tex].

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If you are putting a quadratic function in the form of [tex]ax^2 + bx + c[/tex] into the quadratic formula [tex]x = \frac{-b\pm\sqrt{b^2-4ac}}{2a}[/tex] and the b value in the function is negative, then you still write it as negative in the quadratic formula.

The reason is that the b term in the quadratic formula is being added or subtracted, depending on whether it is positive or negative.The quadratic formula is used to solve quadratic equations that are difficult to solve using factoring or other methods. The formula gives the values of x that are the roots of the quadratic equation.

The quadratic formula [tex]x = \frac{-b\pm\sqrt{b^2-4ac}}{2a}[/tex] can be used for any quadratic equation in the form of [tex]ax^2 + bx + c = 0[/tex].

In the formula, a, b, and c are coefficients of the quadratic equation. The value of a cannot be zero, otherwise, the equation would not be quadratic.

The discriminant [tex]b^2-4ac[/tex] determines the nature of the roots of the quadratic equation. If the discriminant is positive, then there are two real roots, if it is zero, then there is one real root, and if it is negative, then there are two complex roots.

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Jennifer and her family hiked approximately 5 miles each day during their week-long hiking trip.

To find out how many miles were hiked each day during the week-long trip, we can divide the total distance of 34 miles by the number of days in a week, which is 7.

Distance hiked per day = Total distance / Number of days

Distance hiked per day = 34 miles / 7 days

Calculating this division gives us:

Distance hiked per day ≈ 4.8571 miles

Since it is not possible to hike a fraction of a mile, we can round this value to the nearest whole number.

Rounded distance hiked per day = 5 miles

1. The problem states that Jennifer went on a 34-mile hiking trip with her family.

2. Since they decided to hike an equal amount each day, we need to determine the distance hiked per day.

3. To find the distance hiked per day, we divide the total distance of 34 miles by the number of days in a week, which is 7.

  Distance hiked per day = Total distance / Number of days

  Distance hiked per day = 34 miles / 7 days

4. Performing the division, we get approximately 4.8571 miles per day.

5. Since we cannot hike a fraction of a mile, we need to round this value to the nearest whole number.

6. Rounding 4.8571 to the nearest whole number gives us 5.

7. Therefore, Jennifer and her family hiked approximately 5 miles each day during their week-long hiking trip.

By dividing the total distance by the number of days in a week, we can determine the equal distance hiked per day during the week-long trip. Rounding to the nearest whole number ensures that we have a practical and realistic estimate.

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Permutation is the arrangement of objects in a definite order while Combination is the arrangement of objects where the order in which the objects are selected does not matter.

How to determine this

Using the permutation term

[tex]_nP_{r}[/tex] = n!/(n-r)!

Where n = 7

r = 5

[tex]_7P_{5}[/tex] = 7!/(7-5)!

[tex]_7P_{5}[/tex] = 7 * 6 * 5 * 4 * 3 * 2 * 1/ 2 * 1

[tex]_7P_{5}[/tex] = 5040/2

[tex]_7P_{5}[/tex] = 2520

Using the combination term

[tex]_{n} C_{k}[/tex] = n!/k!(n-k)!

Where n = 12

k = 4

[tex]_{12} C_{4}[/tex] = 12!/4!(12-4)!

[tex]_{12} C_{4}[/tex] = 12!/4!(8!)

[tex]_{12} C_{4}[/tex] = 12 * 11 * 10 * 9 * 8 * 7 * 6 * 5 *4 *3 * 2 * 1/4 * 3 *2 * 1 * 8 *7 * 6 * 5 * 4 * 3 *2 * 1

[tex]_{12} C_{4}[/tex] = 479001600/24 * 40320

[tex]_{12} C_{4}[/tex] = 479001600/967680

[tex]_{12} C_{4}[/tex] = 495

Therefore, [tex]_7P_{5}[/tex] and [tex]_{12} C_{4}[/tex] are 2520 and 495 respectively

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The solution for this question is [tex]A) 4�2−39�4x 2 −39x.[/tex]

To perform the indicated operation and simplify [tex]\((26x+5) - (-4x^2 - 13x + 5)\),[/tex]we distribute the negative sign to each term within the parentheses:

[tex]\((26x + 5) + 4x^2 + 13x - 5\)[/tex]

Now we can combine like terms:

[tex]\(26x + 5 + 4x^2 + 13x - 5\)[/tex]

Combine the[tex]\(x\)[/tex] terms: [tex]\(26x + 13x = 39x\)[/tex]

Combine the constant terms: [tex]\(5 - 5 = 0\)[/tex]

The simplified expression is [tex]\(4x^2 + 39x + 0\),[/tex] which can be further simplified to just [tex]\(4x^2 + 39x\).[/tex]

Therefore, the correct answer is A) [tex]\(4x^2 - 39x\).[/tex]

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Answer:

The closest option from the given choices is option a) $84,000.

Step-by-step explanation:

Sales revenue: $100,000

Expenses: $10,000 (wages) + $3,000 (advertising) + $1,000 (dividends) + $3,000 (insurance) = $17,000

Profit = Sales revenue - Expenses

Profit = $100,000 - $17,000

Profit = $83,000

Therefore, the company made a profit of $83,000.

The length of the other diagonal is 13 feet.

We are given that:

We can also apply Pythagoras theorem to find the other length of the diagonal of a rectangle.

[tex]\rightarrow\text{c}^2=\text{a}^2+\text{b}^2[/tex]

[tex]\rightarrow13^2 = 12^2 + 5^2[/tex]

[tex]\rightarrow169= 144 + 25[/tex]

[tex]\rightarrow\sqrt{169}[/tex]

[tex]\rightarrow\bold{13 \ feet}[/tex]

Hence, the length of the other diagonal is 13 feet.

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The forecast error in this situation is negative, indicating that the forecast was too high. To obtain the absolute value of the error, we ignore the minus sign. Therefore, the answer is 4.67 (rounded to two decimal places).

A moving average is a forecasting technique that uses a rolling time frame of data to estimate the next time frame's value. A three-period moving average can be calculated by adding the values of the three most recent time frames and dividing by three.

Let's calculate the three-period moving averages for the given periods:

To calculate the forecast error for period 5, we use the formula: Error = Actual - Forecast. In this case, the actual value is 18.

Let's calculate the forecast error for period 5:

In this case, the forecast error is negative, indicating that the forecast was overly optimistic. We disregard the minus sign to determine the absolute value of the error. As a result, the answer is 4.67 (rounded to the nearest two decimal points).

In summary, using a three-period moving average for forecasting, the forecast for period 4 is 23.33, the forecast for period 7 is 21.33, the forecast for period 13 is 22.33, and the forecast error for period 5 is 4.67.

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Answer:

the answer is -109

Step-by-step explanation:

To factorize 4x2 + 9x - 13 completely, we will make use of splitting the middle term method. Let's start by multiplying the coefficient of the x2 term and the constant

term 4(-13) = -52. Our aim is to find two

numbers that multiply to give -52 and add up to 9. The numbers are +13 and

-4Therefore, 4x2 + 13x - 4x - 13 = ONow,

group the first two terms together and the last two terms together and factorize them out4x(x + 13/4) - 1(× + 13/4) = 0(x + 13/4)(4x - 1)

= OTherefore, the fully factorised form of 4x2 + 9x - 13 is (x + 13/4)(4x - 1).