Solve for the unknown side lengths. x=__ y=__

Solve For The Unknown Side Lengths. X=__ Y=__

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Answer 1

The value of the missing side lengths x and y in the right triangle are 17.32 and 20 respectively.

What is the value of x and y?

The figure in the image is a right triangle.

Angle θ = 30 degrees

Opposite to angle θ = 10 ft

Adjacent to angle θ = x

Hypotenuse = y

To solve for the missing side lengths x, we use the trigonometric ratio.

Note that:

tangent = Opposite / Adjacent

Sine = Opposite / Hypotenuse

First, we find the side length x:

tan = Opposite / Adjacent

tan( 30 ) = 10/x

Solve for x:

x = 10 / tan( 30 )

x = 17.32

Next, we find the side length y:

Sine = Opposite / Hypotenuse

sin( 30 ) = 10 / y

y = 10 / sin( 30 )

y = 20

Therefore, the value of y is 20.

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Related Questions

Let A = (0, 0, −3, 0) and B = (2, −1, −2, 1) be points in Rª (Use <,,,> notation for your vector entry in this question.) a. Determine the vector AB. help (vectors) b. Find a vector in the direction of AB that is 2 times as long as AB. help (vectors) c. Find a vector in the direction opposite AB that is 2 times as long as AB. help (vectors) d. Find a unit vector in the direction of AB. help (vectors) e. Find a vector in the direction of AB that has length 2.

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Let A = (0, 0, −3, 0) and B = (2, −1, −2, 1) be points in Rª. (A) a vector in the direction of AB that is 2 times as long as AB is (4, -2, 2, 2), (B)  a vector in the direction of AB that is 2 times as long as AB is (4, -2, 2, 2). (C)  a vector in the direction opposite AB that is 2 times as long as AB is (-4, 2, -2, -2),

a. To determine the vector AB, we subtract the coordinates of point A from the coordinates of point B.

AB = B – A = (2, -1, -2, 1) – (0, 0, -3, 0) = (2, -1, 1, 1).

Therefore, the vector AB is (2, -1, 1, 1).

b. To find a vector in the direction of AB that is 2 times as long as AB, we simply multiply each component of AB by 2.

2AB = 2(2, -1, 1, 1) = (4, -2, 2, 2).

Therefore, a vector in the direction of AB that is 2 times as long as AB is (4, -2, 2, 2).

c. To find a vector in the direction opposite AB that is 2 times as long as AB, we multiply each component of AB by -2.

-2AB = -2(2, -1, 1, 1) = (-4, 2, -2, -2).

Therefore, a vector in the direction opposite AB that is 2 times as long as AB is (-4, 2, -2, -2).

d. To find a unit vector in the direction of AB, we need to normalize AB by dividing each component by its magnitude.

Magnitude of AB = sqrt(2^2 + (-1)^2 + 1^2 + 1^2) = sqrt(7).

Unit vector in the direction of AB = AB / |AB| = (2/sqrt(7), -1/sqrt(7), 1/sqrt(7), 1/sqrt(7)).

Therefore, a unit vector in the direction of AB is (2/sqrt(7), -1/sqrt(7), 1/sqrt(7), 1/sqrt(7)).

e. To find a vector in the direction of AB that has a length of 2, we need to multiply the unit vector in the direction of AB by 2.

2 * (2/sqrt(7), -1/sqrt(7), 1/sqrt(7), 1/sqrt(7)) = (4/sqrt(7), -2/sqrt(7), 2/sqrt(7), 2/sqrt(7)).

Therefore, a vector in the direction of AB that has a length of 2 is (4/sqrt(7), -2/sqrt(7), 2/sqrt(7), 2/sqrt(7)).

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Set up an integral that represents the length of the curve. Then use your calculator to find the length correct to four decimal places. x = V - 4y, 1sys 4 dy =

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Using a numerical integration tool, the length of the curve is approximately 4.3766 (rounded to four decimal places) when evaluated over the interval 1 ≤ y ≤ 4.

To find the length of the curve represented by the equation x = √y - 4y, over the interval 1 ≤ y ≤ 4, we can set up an integral using the arc length formula:

L = ∫[a, b] sqrt(1 + (dx/dy)^2) dy

First, let's find dx/dy by differentiating x with respect to y:

dx/dy = (1/2) * (1/sqrt(y)) - 4

Now, let's substitute dx/dy into the arc length formula:

L = ∫[1, 4] sqrt(1 + ((1/2) * (1/sqrt(y)) - 4)^2) dy

We can simplify the integrand:

L = ∫[1, 4] sqrt(1 + (1/4y) - 4(1/2)(1/sqrt(y)) + 16) dy

= ∫[1, 4] sqrt(17/4 - 2/sqrt(y) + 1/4y) dy

To find the length numerically, we can use a calculator or software that supports numerical integration. The integral can be evaluated using numerical methods such as Simpson's rule, the trapezoidal rule, or any other appropriate numerical integration technique.

Using a numerical integration tool, the length of the curve is approximately 4.3766 (rounded to four decimal places) when evaluated over the interval 1 ≤ y ≤ 4.

The question should be:

Set up an integral that represents the length of the curve. Then use your calculator to find the length correct to four decimal places. x = y^(1/2) − 4y, 1 ≤ y ≤ 4

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Solve the problem. 7) Assume that the temperature of a person during an illness is given by: 7) T(t) = 5t +98.6, 2+1 7 5(? - 1) where T = the temperature, in degrees Fahrenheit, at time t, in hours. F

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The missing value represented by the question mark is 108.6. The temperature at t = 2 hours is 108.6 degrees Fahrenheit.

To solve the problem, we are given the temperature function T(t) = 5t + 98.6, where T represents the temperature in degrees Fahrenheit and t represents time in hours. We need to find the value of the temperature at a specific time.

To find the temperature at a specific time, we substitute the given time into the equation. In this case, we are looking for the temperature at t = 2 hours. Thus, we substitute t = 2 into the equation:

T(2) = 5(2) + 98.6

    = 10 + 98.6

    = 108.6

Therefore, the missing value represented by the question mark is 108.6. The temperature at t = 2 hours is 108.6 degrees Fahrenheit. By plugging in the value of t into the temperature function, we can determine the corresponding temperature at that specific time.

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Please help asap, my semester ends in less then 2 weeks and I’m struggling

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The probability that, in a random sample of 6 parts produced by this machine, exactly 1 is defective is 0.371.

How to calculate the probability

In this case, we have n = 6 (the number of parts) and p = 0.13 (the probability of producing a defective part). We want to find the probability of exactly 1 defective part, so k = 1.

Plugging in the values into the formula, we get:

P(X = 1) = C(6, 1) * 0.13 * (1 - 0.13)⁵

= 6 * 0.13 * 0.87⁵

Calculating this expression:

P(X = 1) ≈ 0.371

Therefore, the probability that, in a random sample of 6 parts produced by this machine, exactly 1 is defective is approximately 0.371

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At a certain auto parts manufacturer, the Quality Control division has determined that one of the machines produces defective parts 13% of the time. If this percentage is correct, what is the probability that, in a random sample of 6 parts produced by this machine, exactly 1 is defective?

Round your answer to three decimal places.

Given sec(0) = -4 and tan(0) > 0, draw a sketch of and then determine the value of cos () You may need to refer to the resource sheet. (6 pts) Solve the following equation, which is quadratic in form, on the interval 0 SO <21. 2cos? (0) - V3 cos(O) = 0

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The value of cos(θ) can be determined using the given information. The equation 2cos²(θ) - √3cos(θ) = 0 can be solved on the interval 0 ≤ θ < 2π.

To find the value of cos(θ), we need to analyze the given information and solve the equation 2cos²(θ) - √3cos(θ) = 0.

First, we are given that sec(0) = -4, which means the reciprocal of cos(0) is -4. From this, we can deduce that cos(0) = -1/4. Additionally, we know that tan(0) > 0, which implies that sin(0) > 0.

Next, let's solve the equation 2cos²(θ) - √3cos(θ) = 0. We can factor out the common term cos(θ) and rewrite the equation as cos(θ)(2cos(θ) - √3) = 0. From this equation, we have two possibilities: either cos(θ) = 0 or 2cos(θ) - √3 = 0.

Considering the interval 0 ≤ θ < 2π, we can determine the values of θ where cos(θ) = 0. These values occur at θ = π/2 and θ = 3π/2.

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Given the following information about a computer programming, find the mistake in the program. Use the rules of inferences and/or logical equivalences. (15) a. There is an undeclared variable or there is a syntax error in the first five lines. b. If there is a syntax error in the first five lines, then there is a missing semicolon or a variable name is misspelled. e. There is not a missing semicolon. d. There is not a misspelled variable name

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The following depicts the diagram of the logical steps for the program

a. ∃x(Undeclared(x) ∨ SyntaxError(x))

b. SyntaxError(x) → (MissingSemicolon(x) ∨ MisspelledVarName(x))

e. ¬MissingSemicolon(x)

d. ¬MisspelledVarName(x)

¬(MissingSemicolon(x) ∨ MisspelledVarName(x))

SyntaxError(x) → (MissingSemicolon(x) ∨ MisspelledVarName(x))

¬SyntaxError(x)

∴ ∃x(Undeclared(x))

How to explain the information

First, let's translate the statements into logical notation:

a. ∃x(Undeclared(x) ∨ SyntaxError(x))

b. SyntaxError(x) → (MissingSemicolon(x) ∨ MisspelledVarName(x))

e. ¬MissingSemicolon(x)

d. ¬MisspelledVarName(x)

We can now use the rules of inferences to find the mistake in the program.

From e and d, we can conclude that ¬(MissingSemicolon(x) ∨ MisspelledVarName(x)).

From b, we know that SyntaxError(x) → (MissingSemicolon(x) ∨ MisspelledVarName(x)).

Therefore, we can conclude that ¬SyntaxError(x).

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7. (8 pts) The monthly cost and demand functions for a new company are given by C(x)= 75+2x and p(x)= 50 -0.1x where x is the number of units made. a. Calculate the marginal revenue function. Explain the meaning of this function in a sentence. b. Calculate the marginal revenue when x = 200. Summarize your results in a sentence.

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When the company produces 200 units, the marginal revenue for each additional unit remains constant at -$0.1.

a. The marginal revenue function represents the rate of change of revenue with respect to the number of units produced. It can be calculated by taking the derivative of the demand function, p(x).

To find the marginal revenue function, we need to differentiate the demand function p(x) with respect to x:

p'(x) = -0.1

Therefore, the marginal revenue function is constant and equal to -0.1.

In summary, the marginal revenue function in this case is a constant value of -0.1, indicating that for each additional unit produced, the revenue decreases by $0.1.

b. To calculate the marginal revenue when x = 200, we can directly substitute the value of x into the marginal revenue function.

Since the marginal revenue is constant in this case, it will remain the same regardless of the value of x.

Therefore, the marginal revenue when x = 200 is -0.1.

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Evaluate the integral by malong the given substitution. (Remember to use absolute values where appropriate. Use for the constant of integration) dx =-

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The solution to the integral [tex]\(\int \frac{x^3}{x^4-6}dx\)[/tex] using the substitution [tex]\(u=x^4-6\)[/tex] is [tex]\(\frac{1}{4}\ln|x^4-6| + C\)[/tex], where [tex]\(C\)[/tex] represents the constant of integration.

To evaluate the integral [tex]\(\int \frac{x^3}{x^4-6}dx\)[/tex] by making the substitution [tex]\(u=x^4-6\)[/tex], we can follow these steps:

1. Differentiate the substitution variable \(u\) with respect to \(x\) to find \(du\):

 [tex]\(\frac{du}{dx} = \frac{d}{dx}(x^4-6)\) \\ \(\frac{du}{dx} = 4x^3\)[/tex]

  Rearranging, we have [tex]\(dx = \frac{du}{4x^3}\)[/tex].

2. Substitute the expression for [tex]\(dx\)[/tex] and the new variable [tex]\(u\)[/tex] into the original integral:

 [tex]\(\int \frac{x^3}{x^4-6}dx = \int \frac{x^3}{u}\cdot\frac{du}{4x^3}\)[/tex]

  Simplifying, we get [tex]\(\int \frac{1}{4u} du\)[/tex].

3. Integrate the new expression with respect to [tex]\(u\)[/tex]:

[tex]\(\int \frac{1}{4u} du = \frac{1}{4}\int \frac{1}{u} du\)[/tex]

  Taking the antiderivative, we have [tex]\(\frac{1}{4}\ln|u| + C\)[/tex].

4. Substitute the original variable [tex]\(x\)[/tex] back in terms of [tex]\(u\)[/tex]:

  [tex]\(\frac{1}{4}\ln|u| + C = \frac{1}{4}\ln|x^4-6| + C\).[/tex]

Therefore, the solution to the integral [tex]\(\int \frac{x^3}{x^4-6}dx\)[/tex] using the substitution [tex]\(u=x^4-6\)[/tex] is [tex]\(\frac{1}{4}\ln|x^4-6| + C\)[/tex], where [tex]\(C\)[/tex] represents the constant of integration.

The complete question must be:

Evaluate the integral by making the given substitution. (Use C for the constant of integration. Remember to use absolute values where appropriate.)

[tex]\int \:\frac{x^3}{x^4-6}dx,\:u=x^4-6[/tex]

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When a number is raised to a power, is the result always larger than the original number? Support your answer with some examples.

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Answer:

That actually kind of depends. If it is raised to a negative exponent, it will be a fraction of its original value. However, to answer your question, it will be a bigger number because you are basically multiplying the number by another number, x amount of times. For example, 6^3 is equal to the equation 6x6x6. Using GEMDAS, our answer is 216. Essentially, you're following the basic rules of multiplication...

I'm not if this will help. Hopefully, it does though...

Step-by-step explanation:

The result of raising a number to power can be larger or smaller than the original number depending on the value of the power.

Whether a number raised to a power is larger than the original number depends on the power that the number is raised to.

If the power is 1, then the result will be the same as the original number. For example, 5 to the power of 1 is 5.

However, if the power is greater than 1, then the result will be larger than the original number. For example, 5 to the power of 2 (written as 5²) is 25, which is larger than 5.

On the other hand, if the power is between 0 and 1, then the result will be smaller than the original number. For example, 5 to the power of 0.5 (written as √5) is approximately 2.236, which is smaller than 5.

To summarize, the result of raising a number to power can be larger or smaller than the original number depending on the value of the power.

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A man starts walking south at 5 ft/s from a point P. Thirty minute later, a woman starts waking north at 4 ft/s from a point 100 ft due west of point P. At what rate are the people moving apart 2 hours after the man starts walking?

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The rate at which the people are moving apart 2 hours after the man starts walking is 0 ft/s.

Let's set up a coordinate system to solve the problem. We'll place point P at the origin (0, 0) and the woman's starting point at (-100, 0). The man starts walking south, so his position at any time t can be represented as (0, -5t).

The woman starts walking north, so her position at any time t can be represented as (-100, 4t).

After 2 hours (or 2 * 3600 seconds), the man's position is (0, -5 * 2 * 3600) = (0, -36000), and the woman's position is (-100, 4 * 2 * 3600) = (-100, 28800).

To find the distance between them, we can use the distance formula:

Distance = √((x2 - x1)^2 + (y2 - y1)^2)

where (x1, y1) and (x2, y2) are the coordinates of the two points.

Distance = √((-100 - 0)^2 + (28800 - (-36000))^2)

        = √(10000 + 12960000)

        = √(12970000)

        ≈ 3601.2 feet

To find the rate at which the people are moving apart, we need to find the rate of change of distance with respect to time. We differentiate the distance equation with respect to time:

d(Distance)/dt = d(√((x2 - x1)^2 + (y2 - y1)^2))/dt

Since the x-coordinates of both people are constant (0 and -100), their derivatives with respect to time are zero. Therefore, we only need to differentiate the y-coordinates:

d(Distance)/dt = d(√((0 - (-100))^2 + ((-36000) - 28800)^2))/dt

              = d(√(100^2 + (-64800)^2))/dt

              = d(√(10000 + 4199040000))/dt

              = d(√(4199050000))/dt

              = (1/2) * (4199050000)^(-1/2) * d(4199050000)/dt

              = (1/2) * (4199050000)^(-1/2) * 0

              = 0

Therefore, the rate at which the people are moving apart 2 hours after the man starts walking is 0 ft/s.

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For the function 2 2 f (x) = x² x3 find the value of f'(1). You don't have to use the limit definition of the derivative to find f'(x): you can use any rules we have learned so far. 1. Report the val

Answers

The value of f'(1) for the function f(x) = x^2 * x^3 is 15.

To find the derivative of the given function, we can use the power rule and the product rule.

The power rule states that the derivative of x^n is n * x^(n-1), and the product rule states that the derivative of the product of two functions u(x) and v(x) is u'(x) * v(x) + u(x) * v'(x).

Applying the power rule to the first term, we have f'(x) = 2x^(2-1) * x^3 = 2x^2 * x^3 = 2x^5.

Then, applying the product rule to the second term, we have f'(x) = x^2 * 3x^(3-1) = 3x^2 * x^2 = 3x^4.

Combining the derivatives of both terms, we have f'(x) = 2x^5 + 3x^4. Now, to find f'(1), we substitute x = 1 into the derivative expression: f'(1) = 2(1^5) + 3(1^4) = 2 + 3 = 5.

Therefore, the value of f'(1) for the given function is 5.

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Evaluate. (Be sure to check by differentiating!) 5 (629 - 4)** abitat dt ... Determine a change of variables from t to u. Choose the correct answer below. O A. u=t4 OB. u= 6t - 4 OC. U = 61-4 OD. u=t4-4 Write the integral in terms of u. 5 (62 - 4) ** dt = So du (Type an exact answer. Use parentheses to clearly denote the argument of each function.) Evaluate. (Be sure to check by differentiating!) (2-a)/** .. OC. u = 64- 4 OD. u=t4 - 4 Write the integral in terms of u. 5 (62 - 4)t* dt = SO du (Type an exact answer. Use parentheses to clearly denote the argument of each function.) Evaluate the integral 5 (62 - 4)** dt = (Type an exact answer. Use parentheses to clearly denote the argument of each function.)

Answers

First, let's clarify the given expression:

1) 5(6² - 4) ** abitat dt

It appears that you are trying to evaluate an integral, but there seems to be some missing information or incorrect notation.

is not clear, and the notation "**" is typically used to represent exponentiation, but it seems out of place in this context.

If you could provide more information or clarify the notation, I would be happy to assist you further in evaluating the integral.

2) Determine a change of variables from t to u.

The given options for the change of variables from t to u are:A. u = t⁴

B. u = 6t - 4C. u = 6⁽ᵗ ⁻ ⁴⁾

D. u = t⁴ - 4

Without additional context or information, it is difficult to determine the correct change of variables. However, based on the given options, the most likely choice would be A. u = t⁴.

3) Write the integral in terms of u.

To write the integral in terms of u, we would substitute the appropriate expression for u in place of t and adjust the limits of integration accordingly. However, since there is no specific integral given in the question, I cannot provide a direct answer.

4) Evaluate the integral 5(6² - 4) ** dt

Similar to the previous point, without a specific integral given, it is not possible to evaluate it directly. If you provide the integral or any further details, I will be glad to assist you in evaluating it.

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Let f (x) = x-1 Use the limit definition of the derivative to find f'(x) . Show what the limit definition is, and either show your work or explain how to find the limit. Finally, write out f'(x)

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The derivative of f(x) = x - 1 is f'(x) = 1. The limit definition of the derivative is given by: f'(x) = lim(h->0) [(f(x + h) - f(x))/h]

To find the derivative of the function f(x) = x - 1 using the limit definition, we first write out the limit definition and then apply it to the function.

The derivative, f'(x), represents the rate of change of the function at any given point.

The limit definition of the derivative is given by:

f'(x) = lim(h->0) [(f(x + h) - f(x))/h]

Applying this definition to the function f(x) = x - 1, we have:

f'(x) = lim(h->0) [(f(x + h) - f(x))/h]

= lim(h->0) [(x + h - 1 - (x - 1))/h]

= lim(h->0) [h/h]

= lim(h->0) 1

= 1

Therefore, the derivative of f(x) = x - 1 is f'(x) = 1. This means that the rate of change of the function f(x) = x - 1 is constant, and for any value of x, the slope of the tangent line to the graph of f(x) is 1.

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Find the first four non-zero terms of the Taylor series for f(x) = 16,7 centered at 16. ..

Answers

The first four non-zero terms of the Taylor series for f(x)=16.7 centered at x=16 are all equal to 16.7.

What is the Taylor series?

The Taylor series is a way to represent a function as an infinite sum of terms, where each term is a multiple of a power of the variable x and its corresponding coefficient. The Taylor series expansion of a function f(x) centered around a point a is given by:

[tex]f(x)=f(a)+f'(a)(x-a)+f"(a)\frac{(x-a)^2}{2!}+f'"(a)\frac{(x-a)^3}{3!}+f""(a)\frac{(x-a)^4}{4!}+...[/tex]

To find the Taylor series for the function f(x)=16.7 centered at x=16, we can use the general formula for the Taylor series expansion of a function.

The formula for the Taylor series expansion of a function f(x) centered at x=a is given by:

[tex]f(x)=f(a)+f'(a)(x-a)+f"(a)\frac{(x-a)^2}{2!}+f'"(a)\frac{(x-a)^3}{3!}+f""(a)\frac{(x-a)^4}{4!}+...[/tex]

Since the function f(x)=16.7 is a constant, its derivative and higher-order derivatives will all be zero. Therefore, the Taylor series expansion will only have the first term f(a) with all other terms being zero.

Plugging in the value a=16 and f(a)=16.7, we have:

f(x)=16.7

The Taylor series expansion for f(x)=16.7 centered at x=16 will be: 16.7

Therefore, the first four non-zero terms of the Taylor series for f(x)=16.7 centered at x=16 are all equal to 16.7.

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Find the standard matrices A and A' for T = T2 ∘
T1 and T' = T1 ∘ T2. T1: R2 → R2, T1(x, y) = (x − 2y, 3x + 4y)
T2: R2 → R2, T2(x, y) = (0, x)
A =
A' =

Answers

The standard matrix A for the transformation T1 is given by A = [[1, -2], [3, 4]]. The standard matrix A' for the transformation T' is given by A' = [[0, 1], [0, 3]].

To find the standard matrix A for the transformation T1, we need to determine how T1 affects the standard basis vectors in R2. The standard basis vectors in R2 are e1 = (1, 0) and e2 = (0, 1). Applying T1 to these vectors, we get T1(e1) = (1, -2) and T1(e2) = (3, 4). These resulting vectors become the columns of the matrix A.

Similarly, to find the standard matrix A' for the transformation T', we need to determine how T' affects the standard basis vectors in R2. Applying T2 to these vectors, we get T2(e1) = (0, 1) and T2(e2) = (0, 0). These resulting vectors become the columns of the matrix A'.

Therefore, the standard matrix A for T1 is A = [[1, -2], [3, 4]], and the standard matrix A' for T' is A' = [[0, 1], [0, 3]]. These matrices represent the linear transformations T1 and T' respectively, mapping vectors from R2 to R2.

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Evaluate the indefinite integral. (Use C for the constant of integration.) (In(x))40 dx Х x

Answers

[tex]\int\limits (In(x))^{40}xdx=\frac{1}{40} (ln(x))^{40}+C.[/tex] where C represents the constant of integration.

What is the indefinite integral?

The indefinite integral, also known as the antiderivative, of a function represents the family of functions whose derivative is equal to the original function (up to a constant).

The indefinite integral of a function f(x) is denoted as ∫f(x)dx and is computed by finding an expression that, when differentiated, gives f(x).

To evaluate the indefinite integral [tex]\int\limits (In(x))^{40}xdx[/tex], we can use integration by substitution.

Let's start by applying the substitution  u=ln(x). Taking the derivative of u with respect to x, we have [tex]du=\frac{1}{x}dx.[/tex]

Now, we can rewrite the integral in terms of u and du:

[tex]\int\limits (In(x))^{40}xdx=\int\limits u^{40}xdx[/tex]

Next, we substitute du and x in terms of u into the integral:

[tex]\int\limits u^{40}xdx=\int\limits u^{40}\frac{1}{u}du[/tex]

Simplifying further:

[tex]\int\limits u^{40}\frac{1}{u} du=\int\limits u^{39}du[/tex]

Now, we can integrate [tex]u^{39}[/tex] with respect to u:

[tex]\int\limits u^{39}du=\frac{1}{40} u^{40}+C,[/tex]

where C is the constant of integration.

Finally, substituting back u=ln(x):

[tex]\frac{1}{40} (ln(x))^{40}+C.[/tex]

So, the indefinite integral of [tex]\int\limits (In(x))^{40}xdx[/tex] is[tex]\frac{1}{40} (ln(x))^{40}+C.[/tex]

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Second Order Homogeneous Equation. Consider the differential equation E : x(t) – 4.x'(t) + 4x(t) = 0. (i) Find the solution of the differential equation E. (ii) Assume x(0) = 1 and x'(0) = 2 and find the solution of E associated to these conditions.

Answers

The solution to the differential equation E: x(t) - 4x'(t) + 4x(t) = 0 is given by x(t) = c₁e^(2t) + c₂te^(2t).

What is the solution to the given second-order homogeneous differential equation E?

The solution to the given second-order homogeneous differential equation E is x(t) = c₁e^(2t) + c₂te^(2t).

To find the solution to the second-order homogeneous differential equation E, we can assume a solution of the form x(t) = e^(rt), where r is a constant. Substituting this into the differential equation, we get the characteristic equation r^2 - 4r + 4 = 0. Solving this quadratic equation, we find that r = 2 is a repeated root.

When we have a repeated root, the general solution takes the form x(t) = (c₁ + c₂t)e^(rt). Plugging in the value r = 2, the solution becomes x(t) = (c₁ + c₂t)e^(2t).

To find the specific solution associated with the initial conditions x(0) = 1 and x'(0) = 2, we substitute these values into the general solution. From x(0) = 1, we get c₁ = 1. Differentiating the general solution, we have x'(t) = (c₂ + 2c₂t)e^(2t). Plugging in x'(0) = 2, we obtain c₂ = 2.

Substituting the values of c₁ and c₂ into the general solution, we get the particular solution x(t) = e^(2t) + 2te^(2t) associated with the given initial conditions.

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11) The Alternating Series Test (-1)" 12) Ratio Test n!n 3 gh (2n+3)! 3n+5 13) Find the first four terms of the Taylor Series expansion about Xo = 0 for f(x) = 1-x

Answers

The first four terms of the Taylor series expansion of f(x) = 1 - x about x₀ = 0 are 1, -x, 0, and 0.

The Alternating Series Test is used to determine whether an alternating series converges or diverges. If a series satisfies the alternating sign condition (the terms alternate between positive and negative) and the terms decrease in magnitude as the series progresses, then the series converges. This means that the sum of the series approaches a finite value.

The Ratio Test is a convergence test that involves calculating the limit of the ratio of consecutive terms in a series. If the limit is less than 1, the series converges absolutely. If the limit is greater than 1 or infinite, the series diverges. If the limit is exactly 1, the test is inconclusive and does not provide information about the convergence or divergence of the series.

To find the first four terms of the Taylor series expansion of f(x) = 1 - x about x₀ = 0, we need to calculate the derivatives of f(x) and evaluate them at x₀. The Taylor series expansion is given by:

f(x) = f(x₀) + f'(x₀)(x - x₀) + f''(x₀)(x - x₀)²/2! + f'''(x₀)(x - x₀)³/3! + ...

Since x₀ = 0, f(x₀) = 1. The first derivative of f(x) is f'(x) = -1, the second derivative is f''(x) = 0, and the third derivative is f'''(x) = 0. Substituting these values into the Taylor series expansion, we have:

f(x) = 1 - 1(x - 0) + 0(x - 0)²/2! + 0(x - 0)³/3! + ...

Simplifying this expression gives:

f(x) = 1 - x

Therefore, the first four terms of the Taylor series expansion of f(x) = 1 - x about x₀ = 0 are 1, -x, 0, and 0.

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Consider the following function: f(x) = V9 - 12 -X For parts (a) and (b), give your answer in interval notation using STACK's interval functions. For example, enter co(2,5) for 2

Answers

a) The domain of f(x) is (-∞, 9]. This can be written in interval notation as co(-inf, 9].

b) The range of f(x) is (-∞, -3]. This can be written in interval notation as co(-inf, -3].

Based on the assumption that the function is f(x) = √(9 - x²).

To find the domain of this function using interval notation, we need to determine the values of x for which the function is defined. The function is defined as long as the expression under the square root is non-negative, i.e., 9 - x² ≥ 0. To solve this inequality, we can rewrite it as: x² ≤ 9 Taking the square root of both sides, we get: -3 ≤ x ≤ 3 Now, using interval notation, we can represent this domain as: [-3, 3] So, the domain of the given function f(x) = √(9 - x²) is [-3, 3] in interval notation.

For f(x) = V9 - 12 -X,

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Consider the curve parameterized by: x = 2t³/2 - 1 and y = 5t. a. (6 pts) Find an equation for the line tangent to the curve at t = 1. b. (6 pts) Compute the total arc length of the curve on 0 ≤ t ≤ 1.

Answers

The total arc length of the curve on 0 ≤ t ≤ 1 is given by the integral ∫[0 to 1] √[9t⁴/4 + 25] dt.

To find the equation of the tangent line to the curve at t = 1, we need to compute the derivatives dx/dt and dy/dt. Taking the derivatives of the given parameterization, we have dx/dt = 3t^(1/2) and dy/dt = 5. Evaluating these derivatives at t = 1, we find dx/dt = 3 and dy/dt = 5.

The slope of the tangent line at t = 1 is given by the ratio dy/dt over dx/dt, which is 5/3. Using the point-slope form of a line, where the slope is m and a point (x₁, y₁) is known, we can write the equation of the tangent line as y - y₁ = m(x - x₁). Plugging in the values y₁ = 5(1) = 5 and m = 5/3, we obtain the equation of the tangent line as y - 5 = (5/3)(x - 1), which can be simplified to 3y - 15 = 5x - 5.

To compute the total arc length of the curve for 0 ≤ t ≤ 1, we use the formula for arc length: L = ∫(a to b) √(dx/dt)² + (dy/dt)² dt. Plugging in the derivatives dx/dt = 3t^(1/2) and dy/dt = 5, we have L = ∫(0 to 1) √(9t)² + 5² dt. Simplifying the integrand, we get L = ∫(0 to 1) √(81t² + 25) dt.

To evaluate this integral, we need to find the antiderivative of √(81t² + 25). This can be done by using appropriate substitution techniques or integration methods. Once the antiderivative is found, we can evaluate it from 0 to 1 to obtain the total arc length of the curve.

Note: Without further information about the specific form of the antiderivative or additional integration techniques, it is not possible to provide a numerical value for the total arc length. The exact computation of the integral depends on the specific form of the function inside the square root.

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The difference between the roots of the equation 2x^2 -7x+c=0, what is c

Answers

The difference between the roots of the equation 2x² - 7x + c = 0 is determined by the value of c being less than or equal to 49/8.

The difference between the roots of the equation 2x² - 7x + c = 0 is determined by finding the roots of the equation first. To find the roots, the equation can be rewritten by using the quadratic formula as follows:

x = [-b ± √(b² - 4ac)]/2a

Plugging in the values of a = 2, b = -7, and c = c, we get

x = [-(-7) ± √(72 - 4(2)(c))]/4

x = [7 ± √(49 - 8c)]/4

For x to be real, the term under the square root must be greater than or equal to 0. So,

49 - 8c ≥ 0

This simplifies to

8c ≤ 49

Therefore, c must be less than or equal to 49/8 for the roots of the equation to be real.

Hence, the difference between the roots of the equation 2x² - 7x + c = 0 is determined by the value of c being less than or equal to 49/8.

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please help, will give thumbs up
Find the equation of the plane passing through the three given points P(4,-1,2), Q(1.-1, 1). R(3, 1, 1) OX-y-32-1 Ox+y3z-3 O x + y + 3z - 9 O x-3y + z = 9 x + 3y + 2 - 3

Answers

The equation of the plane passing through the points P(4, -1, 2), Q(1, -1, 1), and R(3, 1, 1) is: 2x - 2y + 6z - 22 = 0

To find the equation of the plane passing through three points, we can use the formula for a plane in three-dimensional space. The equation of a plane can be expressed as:

Ax + By + Cz + D = 0

where A, B, and C are the coefficients of the variables x, y, and z, respectively, and D is a constant.

Let's use the points P(4, -1, 2), Q(1, -1, 1), and R(3, 1, 1) to find the equation of the plane.

To determine the coefficients A, B, C, and D, we can substitute the coordinates of any of the given points into the equation and solve for D. Let's use point P(4, -1, 2) as an example:

A(4) + B(-1) + C(2) + D = 0

4A - B + 2C + D = 0

Now we need to find the values of A, B, and C. To do this, we can use the direction vectors formed by two pairs of points on the plane (PQ and PR). The direction vectors can be found by subtracting the coordinates of one point from the other.

Direction vector PQ = Q - P = (1 - 4, -1 - (-1), 1 - 2) = (-3, 0, -1)

Direction vector PR = R - P = (3 - 4, 1 - (-1), 1 - 2) = (-1, 2, -1)

Now we have two direction vectors (-3, 0, -1) and (-1, 2, -1) on the plane. We can find the cross product of these two vectors to obtain the normal vector of the plane, which will give us the values of A, B, and C in the equation.

Normal vector = (PQ) x (PR) = (-3, 0, -1) x (-1, 2, -1)= (2, -2, 6)

Now we have the values A = 2, B = -2, and C = 6. To find D, we substitute the coordinates of point P into the equation:

4(2) - (-1)(-2) + 2(6) + D = 0

8 + 2 + 12 + D = 0

D = -22

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The
average value of y= k(x) equals 4 for 1 <_x <_6 and equals 5
for 6 <_x <_ 8. Find the average value of k(x) for 1 <_x
<_8.

Answers

The average value of the function k(x) over the interval 1 ≤ x ≤ 8 is 9/7. This means that on average, the function k(x) takes the value of 9/7 over the entire interval.

To find the average value of the function k(x) over the interval 1 ≤ x ≤ 8, we need to consider the two subintervals: 1 ≤ x ≤ 6 and 6 ≤ x ≤ 8, where the function has different average values.

Given that the average value of k(x) is 4 for 1 ≤ x ≤ 6, we can express this as an integral:

∫[1,6] k(x) dx = 4.

Similarly, the average value of k(x) is 5 for 6 ≤ x ≤ 8:

∫[6,8] k(x) dx = 5.

To find the average value of k(x) over the entire interval 1 ≤ x ≤ 8, we can combine these two integrals:

∫[1,6] k(x) dx + ∫[6,8] k(x) dx = 4 + 5.

Now, we want to find the average value of k(x) over the interval 1 ≤ x ≤ 8, which can be expressed as:

∫[1,8] k(x) dx = ?

To find this value, we need to divide the combined integral of k(x) over the entire interval by the length of the interval.

The length of the interval 1 ≤ x ≤ 8 is 8 - 1 = 7.

So, the average value of k(x) over the interval 1 ≤ x ≤ 8 is:

(∫[1,6] k(x) dx + ∫[6,8] k(x) dx) / (8 - 1).

Substituting the known values of the two integrals:

(4 + 5) / 7 = 9 / 7.

Therefore, the average value of k(x) for 1 ≤ x ≤ 8 is 9/7.

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Select the values that make the inequality-2 true. Then write an equivalent
inequality, in terms of s.
(Numbers written in order from least to greatest going across.)
00
07
011
04
08
12
Equivalent Inequality: 828
05
D9
16

Answers

The solution to the given Inequality expression is: s ≥ -8

How to solve the Inequality problem?

Inequalities could be in the form of greater than, less than, greater than or equal to and less than or equal to.

We are given the inequality expression as:

s/-2 ≤ 4

Divide both sides by -1/2 and this changes the inequality sign to give us:

s ≥ 4 * -2

s ≥ -8

Thus, all values greater than or equal to -8 are possible values of s in the inequality.

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Complete question is:

Select the values that make the inequality s/-2 ≤ 4 true. Then write an equivalent inequality, in terms of s.

Convert the rectangular equation to an equation in cylindrical coordinates and spherical coordinates. x2 + y2 +z2 = 216 (a) Cylindrical coordinates (b) Spherical coordinates

Answers

(a) Cylindrical coordinates r² + z² = 216

(b) Spherical coordinates r² = 216/ sin² φ

The rectangular equation x² + y² + z² = 216 can be converted into cylindrical coordinates and spherical coordinates as follows:

(a) Cylindrical coordinates

In cylindrical coordinates, x = r cos θ, y = r sin θ, and z = z.

Substituting these values in the given equation, we get:

r² cos² θ + r² sin² θ + z² = 216

=> r² + z² = 216

This is the equation in cylindrical coordinates.

(b) Spherical coordinates

In spherical coordinates,

x = r sin φ cos θ,

y = r sin φ sin θ, and

z = r cos φ.

Substituting these values in the given equation, we get:

r² sin² φ cos² θ + r² sin² φ sin² θ + r² cos² φ = 216

=> r² (sin² φ cos² θ + sin² φ sin² θ + cos² φ) = 216

=> r² = 216/ sin² φ

This is the equation in spherical coordinates.

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Let f(x) = 25(x - 2) (x2 + 3) Use logarithmic differentiation to determine the derivative. f'(x) =

Answers

The derivative of f(x) = 25(x - 2)(x^2 + 3) using logarithmic differentiation is f'(x) = 25(3x^2 - 4x + 3).

To find the derivative of the function f(x) = 25(x - 2)(x^2 + 3) using logarithmic differentiation, we follow these steps: Take the natural logarithm of both sides of the equation: ln(f(x)) = ln[25(x - 2)(x^2 + 3)]. Apply the logarithmic property of multiplication: ln(f(x)) = ln(25) + ln(x - 2) + ln(x^2 + 3)

Differentiate both sides of the equation with respect to x: (1/f(x)) * f'(x) = 0 + (1/(x - 2))(1) + (1/(x^2 + 3))(2x). Simplify the expression: f'(x)/f(x) = (1/(x - 2)) + (2x/(x^2 + 3)). Multiply both sides of the equation by f(x): f'(x) = f(x) * [(1/(x - 2)) + (2x/(x^2 + 3))]. Substitute the expression of f(x): f'(x) = 25(x - 2)(x^2 + 3) * [(1/(x - 2)) + (2x/(x^2 + 3))]. Simplifying further, we have: f'(x) = 25[(x^2 + 3) + 2x(x - 2)]. Expanding and simplifying: f'(x) = 25(x^2 + 3 + 2x^2 - 4x), f'(x) = 25(3x^2 - 4x + 3).

Therefore, the derivative of f(x) = 25(x - 2)(x^2 + 3) using logarithmic differentiation is f'(x) = 25(3x^2 - 4x + 3).

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please help me with question 10
Muha QUESTION 10 The function/66) 232-37-72 - 95 is indicated in the diagram blow. (-5:), Che the streets and D and Eure the minst points of AC-5:0) AN 10.1 Calelate the coordinates of und 99 10.2 Cal

Answers

Given the function f(x) = x² - 6x - 95, we are to calculate the coordinates of the y-intercept and the x-intercepts of the graph of the function in question 10.

We are also to find the interval in which the function is increasing or decreasing.10.1.

Calculation of the y-intercept We recall that the y-intercept is the point at which the graph of the function intersects the y-axis.

At the y-intercept, x = 0.

Therefore, substituting x = 0 in the equation of the function,

we have y = f(0) = (0)² - 6(0) - 95 = -95

Therefore, the coordinates of the y-intercept are (0, -95).10.2.

Calculation of the x-intercepts

We recall that the x-intercepts are the points at which the graph of the function intersects the x-axis.

At the x-intercept, y = 0.

Therefore, substituting y = 0 in the equation of the function,

we have:0 = x² - 6x - 95Applying the quadratic formula,

we have:x = (-b ± √(b² - 4ac)) / 2aWhere a = 1, b = -6, and c = -95.

Substituting the values of a, b, and c, we have:

x = (6 ± √(6² - 4(1)(-95))) / 2(1)x

= (6 ± √(36 + 380)) / 2x = (6 ± √416) / 2x

= (6 ± 8√26) / 2x

= 3 ± 4√26

Therefore, the coordinates of the x-intercepts are (3 + 4√26, 0) and (3 - 4√26, 0).

The interval of Increase or Decrease of the function to find the interval of increase or decrease, we have to first find the critical points.

Critical points are points at which the derivative of the function is zero or undefined.

Therefore, we have to differentiate the function f(x) = x² - 6x - 95.

Applying the power rule of differentiation,

we have f'(x) = 2x - 6Setting f'(x) = 0, we have:

2x - 6 = 0x = 3At x = 3, the function attains a minimum.

Therefore, we have the following intervals:

The function is decreasing on the interval (-∞, 3) and is increasing on the interval (3, ∞).

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if (xn) is bounded and diverges, then there exist two subsequences of (xn) that converge to dierent limits.

Answers

If the sequence (xn) is bounded but diverges, then there exist two subsequences of (xn) that converge to different limits.

Suppose (xn) is a bounded sequence that diverges. This means that the sequence does not have a single limit as n approaches infinity. However, since the sequence is bounded, it remains within a certain range of values.

By the Bolzano-Weierstrass theorem, any bounded sequence has a convergent subsequence. Therefore, we can select a subsequence (xnk) that converges to some limit L1.

Since the original sequence (xn) diverges, there must exist values in the sequence that are arbitrarily far from the limit L1. We can select another subsequence (xnm) such that the terms in this subsequence are far away from L1.

By the definition of convergence, any subsequence that converges to a limit L is also convergent to L. Therefore, the subsequence (xnk) converges to L1, while the subsequence (xnm) does not converge to L1.

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Submit Answer 22. [0/1 Points] DETAILS PREVIOUS ANSWERS Evaluate \ / + (x - 2y + z) ds. S: z = 6 - X, 0 sxs 6, Osy s5 67 Х Need Help? Read It

Answers

To evaluate the given line integral ∫√(1 + (x - 2y + z)^2) ds over the curve S: z = 6 - x, 0 ≤ x ≤ 6, 0 ≤ y ≤ 5, we need to parameterize the curve and calculate the corresponding line integral.

We start by parameterizing the curve S. Since z = 6 - x, we can rewrite the curve as a parametric equation: r(t) = (t, y, 6 - t), where 0 ≤ t ≤ 6 and 0 ≤ y ≤ 5.

Next, we need to calculate the length element ds. For a parametric curve, ds is given by ds = ||r'(t)|| dt, where r'(t) is the derivative of r(t) with respect to t. In this case, r'(t) = (1, 0, -1), so ||r'(t)|| = √(1^2 + 0^2 + (-1)^2) = √2.

Now, we substitute the parameterization and the length element into the line integral:

∫√(1 + (x - 2y + z)^2) ds = ∫√(1 + (t - 2y + 6 - t)^2) √2 dt.

Simplifying the integrand, we have ∫√(1 + (6 - 2y)^2) √2 dt.

Finally, we evaluate this integral over the given interval 0 ≤ t ≤ 6, taking into account the range of y (0 ≤ y ≤ 5), to obtain the value of the line integral.

In conclusion, to evaluate the line integral ∫√(1 + (x - 2y + z)^2) ds over the given curve, we parameterize the curve, calculate the length element ds, substitute into the line integral expression, and evaluate the resulting integral over the specified interval.

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2. Using the minor and cofactor method, find the inverse of the given 3x3 matrix [4 2 1 3 5 2. 1 3-3 ]

Answers

The inverse of the given 3x3 matrix [4 2 1; 3 5 2; 1 3 -3] using the minor and cofactor method is [1/23 -1/23 1/23; -1/23 8/23 1/23; 1/23 1/23 -2/23].

To find the inverse of a 3x3 matrix using the minor and cofactor method, we follow these steps:

Calculate the determinant of the given matrix.

Find the cofactor matrix by calculating the determinants of the 2x2 matrices formed by excluding each element of the original matrix.

Create the adjugate matrix by transposing the cofactor matrix.

Divide each element of the adjugate matrix by the determinant of the original matrix to obtain the inverse matrix.

Applying these steps to the given matrix [4 2 1; 3 5 2; 1 3 -3], we calculate the determinant to be -23. Then, we find the cofactor matrix and transpose it to obtain the adjugate matrix. Finally, dividing each element of the adjugate matrix by -23 gives us the inverse matrix [1/23 -1/23 1/23; -1/23 8/23 1/23; 1/23 1/23 -2/23].


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D) These systems, being in their early stages, offer a framework for more improvements and features to be included.136) Which of the following is essential if an organization is to follow a low-cost leadership strategy?136) _____ A) market leadership on product quality B) focus on a segment or sector of the market C) relentless search for ways to reduce operating expenses D) product differentiation to distinguish itself from competitors137) Which of the following is the role of a Chief Privacy Officer in an organization?137) _____ A) helping shape the policies that govern the protection of confidential information B) ensuring that private information of customers is protected from natural disasters C) overseeing the use of technology and innovation in the organization D) improving the organization's ability to capture, nurture, and disseminate knowledge Exam: 04.01 Synthesizing InformationQuestion 2(Multiple Choice Worth 5 points)(04.01 MC)Read the following expository prompt option. Answer the question that follows.Write a multi-paragraph expository essay for an academic audience about the factors that contribute to people surviving extreme situations. Your expository essay must be based on this prompt and topic, and it must incorporate ideas and information found in the sources provided. Use your best writing to complete an essay that:is focused on your central ideacombines evidence from multiple sources with your own elaboration to develop your ideasis organized and includes transitions within and among ideasprovides citations for quoted material and source ideasdemonstrates correct use of grammar and language appropriate to the taskWhich of the following statements best paraphrases what the student should accomplish in their writing? I will write to describe a situation in which I was scared and had to use my survival instincts. I will use only personal experiences in my writing. I will write to convince the audience to take a survival skills class. I may incorporate my own opinions about the topic. I will write to explain the characteristics of people who are able to survive terrible situations. I will synthesize evidence from the sources given to support a central idea. I will write to tell a fictional story about a natural disaster and a character who survived with superhuman skills. I do not need to worry about logic if my story is good. match the following. 1 . kinetic energy heat energy coming from inside the earth 2 . nuclear energy energy of moving objects 3 . tidal power light amplification by stimulated emission of radiation 4 . laser the energy released when atoms are split apart or fused together in atomic reactions 5 . solar energy stored energy 6 . potential energy energy produced by or coming from the sun 7 . geothermal to be in charge of supervision or management 8 . stewardship produced by or coming from the tides For each of the series, show whether the series converges or diverges and state the test used. (a) (3)! n=0 (b) n=1 sin,