4 x 25 = ? Use the distributive property. 4 × (20+5)

There are 55,440 different ways for the coach to select and order the 5 players for penalty kicks.

A soccer team has 11 players on the field at the end of a scoreless game. According to league rules, the coach must select 5 of the players and designate an order in which they will take penalty kicks. To determine the number of different ways the coach can do this, you need to calculate the number of permutations of 11 players taken 5 at a time. This can be calculated using the formula:

P(n, r) = n! / (n-r)!

Where n = 11 (total players) and r = 5 (players to be selected).

P(11, 5) = 11! / (11-5)!

P(11, 5) = 11! / 6!

P(11, 5) = 39,916,800 / 720

P(11, 5) = 55,440

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The coordinates of the critical point is none and the coordinates of endpoints for the function f(t) = 5t^3 + 5t on the given interval (-2, 2) are (-2, -70) and (2, 70) and the function is increasing in interval (-2,2).

To use the first derivative test to locate the relative extrema of the function f(t) = 5t^3 + 5t with domain (-2, 2), we first need to find the derivative of the function:

f'(t) = 15t^2 + 5

Next, we need to find the critical points by setting the derivative equal to zero and solving for t:

15t^2 + 5 = 0
t^2 = -1/3
t = ± sqrt(-1/3)

Since the square root of a negative number is not a real number, there are no critical points in the given domain (-2, 2).

Therefore, we need to check the endpoints of the domain to determine if they are relative extrema. Plugging in t = -2 and t = 2 into the original function, we get:

f(-2) = -70
f(2) = 70

So the endpoint at t = -2 is a relative minimum and the endpoint at t = 2 is a relative maximum.

To determine the intervals of increase and decrease, we can use the first derivative test. Since the derivative f'(t) = 15t^2 + 5 is positive for all values of t in the domain, the function is increasing on the entire interval (-2, 2).

Therefore, the coordinates of the critical points and endpoints for the function f(t) = 5t^3 + 5t on the given interval (-2, 2) are:

- No critical points in the given domain
- Endpoint at t = -2 is a relative minimum, coordinates: (-2, -70)
- Endpoint at t = 2 is a relative maximum, coordinates: (2, 70)
- The function is increasing on the entire interval (-2, 2)

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a. John Underpar's possible monetary outcomes are either winning, which is worth -$5 (the cost of the ticket).

b. the driver (worth $300) or having a worthless ticket (worth $0).

c) Probability of getting nothing = 79/80 = 0.9875
Probability of winning the driver = 1/80 = 0.0125
d. the expected value of buying a ticket is -$1.19, which means on average, a person can expect to lose $1.19 by buying a ticket.
e.the expected return to the club is $100 if all 80 tickets are sold.

a. John Underpar's possible monetary outcomes are either winning the Taylormade R9 10.5 regular flex driver, which is worth $300, or having a worthless ticket, which is worth -$5 (the cost of the ticket).

b. Actually, winning the driver is worth $300, not $295. So, Mr. Underpar's possible monetary outcomes are either winning the driver (worth $300) or having a worthless ticket (worth $0).

c. Mr. Underpar's "experiment" can be summarized as a probability distribution with the following probabilities:

Probability of getting nothing = 79/80 = 0.9875
Probability of winning the driver = 1/80 = 0.0125

d. The mean or expected value of the probability distribution can be calculated as:

Expected value = (Probability of winning the driver x Value of winning) + (Probability of getting nothing x Value of nothing)
Expected value = (0.0125 x $300) + (0.9875 x -$5)
Expected value = $3.75 - $4.94
Expected value = -$1.19

Therefore, the expected value of buying a ticket is -$1.19, which means on average, a person can expect to lose $1.19 by buying a ticket.

e. If all 80 tickets are sold, the expected return to the club can be calculated as:

Expected return = (Number of tickets sold x Price of a ticket) - Value of the prize
Expected return = (80 x $5) - $300
Expected return = $400 - $300
Expected return = $100

Therefore, the expected return to the club is $100 if all 80 tickets are sold.

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Based on the survey conducted by the alumni association, a sample of 100 alumni was taken from the population of all living alumni. Out of this sample, 64 alumni were in favor of firing the coach. To calculate the 95% confidence interval for the proportion of all living alumni who favor firing the coach, we can use the formula: CI = p ± z*(sqrt(p*(1-p)/n))

 To find the 95% confidence interval for the proportion p of all living alumni who favor firing the coach, follow these steps:

1. Identify the sample proportion (p-hat), which is the proportion of alumni in favor of firing the coach in the sample. In this case, p-hat = 64/100 = 0.64.

2. Determine the sample size (n), which is 100 in this case.

3. Find the standard error (SE) of the proportion using the formula SE = sqrt(p-hat * (1 - p-hat) / n). In this case, SE = sqrt(0.64 * (1 - 0.64) / 100) ≈ 0.048.

4. Find the critical value (z) for the 95% confidence interval. For a 95% confidence interval, the z-score is approximately 1.96.

5. Calculate the margin of error (ME) using the formula ME = z * SE. In this case, ME = 1.96 * 0.048 ≈ 0.094.

6. Finally, calculate the 95% confidence interval for p using the formula p-hat ± ME. In this case, the interval is 0.64 ± 0.094, which is approximately (0.546, 0.734).

So, the 95% confidence interval for the proportion of all living alumni who favor firing the coach is approximately (0.546, 0.734).

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When applying the integral test for the convergence of a series, we can use differential calculus to check if the function being integrated is decreasing. The integral test is a method for determining the convergence or divergence of a series by comparing it to an integral of a related function. If the integral of the function converges, then the series also converges, and if the integral diverges, then the series also diverges.

To apply the integral test, we need to first identify a function that is continuous, positive, and decreasing on the interval of interest. We then integrate this function from the starting point of the series to infinity. If the integral converges, then the series also converges, and if the integral diverges, then the series also diverges.

Differential calculus can be used to check that the function being integrated is decreasing. Specifically, we can use the first derivative of the function to determine if it is decreasing on the interval. If the derivative is negative, then the function is decreasing, and if the derivative is positive, then the function is increasing. If the derivative is zero, then the function may or may not be decreasing, depending on its behavior at that point.

Overall, the integral test and the use of differential calculus provide powerful tools for determining the convergence or divergence of a series. By identifying a suitable function and checking it's decreasing behavior using the derivative, we can use the integral test to evaluate the convergence of a wide range of series.

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Answer:

1/2 or 50%

Step-by-step explanation:

To find probability, put the number of biographies (chances the event will happen) over the number of books (sample space).

5/10 reduces to 1/2 or 50%.

Hope this helps!

Using the derivative, the expression for f(x) = 8x - 16

Since the graph of the derivative of f is shown,  The domain of f is the set of all x such that 0 < x < 4. Given that f(2) = 0, write an expression for f(x) in terms of x.

To do this , we proceed as follows.

Now, the f(x) is the area under the curve of f'(x)

So, f(x) = ∫f'(x)dx

So, f'(x) = ∫₀⁴f''(x)dx

Now,  ∫₀⁴f''(x)dx = area under the curve of f'(x)

= 1/2 × 4 × 4

= 2 × 4

= 8

So, f'(x) = 8

Now, f(x) = ∫f'(x)dx

f(x) = ∫8dx

f(x) = 8x + c

Now, we have that f(2) = 0

So, substituting this into the equation, we have that

f(2) = 8x + c

0 = 8(2) + c

0 = 16 + c

c = - 16

So, substituting c into f(x), we have that

f(x) = 8x - 16

So, f(x) = 8x - 16

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The expression that will give the correct lateral surface area of the rectangular prism = (14.5 + 14.5 + 7 + 7)(8.6)

The lateral surface of an object is for all the sides of the object, excluding its base and top (when they exist). The lateral surface area is defined as the area of the lateral surface. This is different from the total surface area, which is the lateral surface area together with the areas of the base and top.

The lateral surface area is given by the formula here as:

(LSA) = 2(l + w)h

Given the following:

l = 14.5

w = 7

h = 8.6

Thus:

Lateral surface area of the prism = 2(l + w)h = 2(14.5 + 7)8.6

Lateral surface area of the prism = (14.5 + 14.5 + 7 + 7)(8.6)

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(a) the rejection region is n overline x > kappa.

(b) kappa = 13/20 = 0.65. Since n overline x = 11 > kappa, we reject the null hypothesis and conclude that there is evidence in favor of the alternative hypothesis that theta > 0.45.

What is hypothesis?

A hypothesis is a proposed explanation or tentative answer to a research question or phenomenon. The null hypothesis is the default position that there is no significant difference between two groups or variables, while the alternative hypothesis proposes that there is a significant difference.

(a) According to Neyman-Pearson's lemma, the likelihood ratio is the most powerful test for a simple vs. a composite hypothesis. The likelihood function for the Bernoulli distribution is:

[tex]L(\theta | x) = \theta^k (1 - \theta)^{(n-k)[/tex]

where k is the number of successes in n trials. The likelihood ratio is:

[tex]\Lambda(x) = L(\theta_A | x) / L(\theta_0 | x)[/tex]

[tex]= (\theta_A^k (1 - \theta_A)^{(n-k)}) / (\theta_0^k (1 - \theta_0)^{(n-k)})[/tex]

Taking the logarithm and simplifying, we get:

[tex]log \Lambda(x) = k log(\theta_A / \theta_0) + (n-k) log((1 - \theta_A) / (1 - \theta_0))[/tex]

To define the rejection region, we need to find the value of kappa such that [tex]P(n overline x > kappa | \theta = \theta_0)[/tex] = alpha, where overline x is the sample mean. Since n overline x sim Bin(n, theta_0), we have:

[tex]P(n overline x > kappa | \theta = \theta_0) = 1 - P(n overline x < = kappa | \theta = \theta_0)\\= 1 - F(n overline x < = kappa | \theta = \theta_0)\\= 1 - sum from i=0 to floor(kappa*n) (n choose i) (\theta_0^i) ((1-\theta_0)^(n-i))[/tex]

where F is the cumulative distribution function of the binomial distribution. We can use a numerical method or a table to find kappa such that [tex]P(n overline x > kappa | \theta = \theta_0) = \alpha.[/tex]

Therefore, the rejection region is n overline x > kappa.

(b) Using the given values, we have k = 11, n = 20, [tex]\theta_0 = 0.45[/tex], and [tex]\theta_A = 0.65[/tex]. The sample mean is overline x = k/n = 0.55. To find kappa, we need to solve:

[tex]P(n overline x > kappa | \theta = \theta_0) = alpha\\1 - F(n overline x < = kappa | \theta = \theta_0) = 0.05\\F(n overline x < = kappa | \theta = \theta_0) = 0.95[/tex]

Using a binomial table, we find that the 0.95th percentile of the binomial distribution with n = 20 and theta = 0.45 is 13. Therefore, kappa = 13/20 = 0.65. Since n overline x = 11 > kappa, we reject the null hypothesis and conclude that there is evidence in favor of the alternative hypothesis that theta > 0.45.

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Answer:

Step-by-step explanation:

the answer is 5/21

Answer: 5/21, I multiplied the two fractions on a piece of paper then simplified the answer.

Answer

R is reflexive

R is not symmetric.

R is transitive

Explanation

(i) R is Reflexive: Yes, R is reflexive because for any (x, y) in RxR, (x, y) R (x, y) is true since x + x ≤ y + y.

(ii) R is Symmetric: No, R is not symmetric. Counterexample: (1, 2) R (0, 1) is true since 1 + 0 ≤ 2 + 1, but (0, 1) R (1, 2) is false since 0 + 1 > 1 + 2.

(iii) R is Transitive: Yes, R is transitive. If (x, y) R (z, t) and (z, t) R (u, v), then x + z ≤ y + t and z + u ≤ t + v. Adding these inequalities, we get x + z + z + u ≤ y + t + t + v. Simplifying, we have x + u ≤ y + v, which means (x, y) R (u, v).

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The z-score for a patient who takes ten days to recover is 2.24, which is closest to option c. 2.2.

To find the z-score for a patient who takes ten days to recover from a surgical procedure with a mean recovery time of 5.3 days and a standard deviation of 2.1 days, you can use the following formula:

Z-score = (X - μ) / σ

where X is the patient's recovery time (10 days), μ is the mean recovery time (5.3 days), and σ is the standard deviation (2.1 days).

1. Subtract the mean from the patient's recovery time: 10 - 5.3 = 4.7
2. Divide the result by the standard deviation: [tex]\frac{4.7}{2.1} = 2.24[/tex]

The z-score for a patient who takes ten days to recover is approximately 2.24. None of the given options match this value, so the correct answer is not listed.

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False. Cross-sectional designs do not show how causal processes occur over time, as they only provide a snapshot of a particular moment in time. Longitudinal designs are better suited for studying causal processes over time

Longitudinal designs are better suited for studying causal processes over time. However, cross-sectional designs can still have a high degree of internal validity, which refers to the extent to which a study accurately measures what it intends to measure.

False. Cross-sectional designs do not show how causal processes occur over time, as they only provide a snapshot of a particular moment in time.

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The leading term of the equation can be used to predict how many roots a polynomial will have.

To find the number of roots in a polynomial, look at the equation's leading phrase. A word with the most power is said to be leading.

Think about the linear formula x – 4 = 0.

The equation's highest power, 1, will only have one root.

We can check it by simplification

x = 4

The equation has only one root x = 4.

Consider the quadratic equation

10t² - t - 3 = 0

The equation's highest power, 2, will have two roots.

By simplifying and applying the middle term splitting approach, we can verify it.

10t² + 5t - 6t - 3 = 0

Taking out the common terms

5t (2t + 1) - 3 (2t + 1) = 0

(2t + 1) (5t - 3) = 0

t = -1/2 and t = 3/5

So the equation has two roots.

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Answer:

69

Step-by-step explanation:

first you need to know that median is middle of the data set so put the numbers in order from lowest to highest.

60, 62, 65, 69, 70, 70, 72 now find the number in the middle which is 69. and if there is ever 2 numbers in the middle find the number in between them.

Hope this helps!! Good luck

The price that Maura sell each scarf would be =$33. Maura sells each scarf for $33. That is option A.

To calculate the amount of money that Maura spends on each scarf the following is carried out.

The amount of money that she spends on the scarf material = $5.50

The percentage selling price of each scarf = 600% of $5.50

That is ;

= 600/100 × 5.50/1

= 3300/100

= $33.

Therefore, each price that is sold by Maura would probably cost a total of $33.

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To address the girl's allergies and alleviate her problems, it may be best to relocate to a less polluted area with cleaner air.

The sentence is talking about a girl who is facing allergy problems while living in a big city. The word "relocate" means to move from one place to another, which is a suitable option for the girl to avoid the allergy problems caused by living in the big city. Therefore, "relocate" is the correct word that fits in the sentence

Relocating may involve allocating resources and funds to find a suitable new home, and possibly even recreating a new lifestyle in a different environment. Ultimately, the goal is to collocate the girl in a location that is better suited to her health needs.

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If we can observe this behavior in the data or the context of the problem, we can infer that a is diagonal.

If the matrix a is diagonal, it means that its eigenvectors are orthogonal to each other. Geometrically, this means that the linear transformation t corresponding to a scales the input vector along the direction of the eigenvectors without rotating it.

More specifically, let λ1 and λ2 be the eigenvalues of a, and let v1 and v2 be the corresponding eigenvectors. If a is diagonal, then we have:

a * v1 = λ1 * v1

a * v2 = λ2 * v2

This means that the linear transformation t scales the input vector v1 by a factor of λ1 along the direction of v1, and scales the input vector v2 by a factor of λ2 along the direction of v2. Since v1 and v2 are orthogonal, this scaling does not rotate the input vector.

Geometrically, this means that the linear transformation t corresponding to a stretches or shrinks the input vector along the direction of the eigenvectors without rotating it. If we can observe this behavior in the data or the context of the problem, we can infer that a is diagonal.

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The equilibrium point is (1600, 80) in the form (x, y).

We need to find the point where the demand function D(x) is equal to the supply function S(x).

The functions are given as follows:
D(x) = 3200/√x
S(x) = 2x√

To find the equilibrium point, we need to set D(x) equal to S(x):

3200/√x = 2x√

Now, let's solve for x:

1. Isolate x by multiplying both sides by √x:
3200 = 2x√ * √x

2. Simplify by squaring both sides:
(3200)^2 = (2x√)^2

3. Perform the squaring:
10,240,000 = 4x^2

4. Divide both sides by 4 to isolate x^2:
2,560,000 = x^2

5. Take the square root of both sides:
x = √2,560,000
x = 1600

Now that we have x, we can find the corresponding price y by plugging x into either D(x) or S(x):

y = D(1600) = 3200/√1600
y = 3200/40
y = 80

So, the equilibrium point is (1600, 80) in the form (x, y).

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Here are some examples of formulas that contain a rational number that is not an integer is A = (1/2)bh and m = [tex](y_2 - y_1)/(x_2 - x_1)[/tex].

The formula for the circumference of a circle: C = 2πr, where π is a rational number approximately equal to 3.14159.

The formula for the area of a triangle: A = (1/2)bh, where b and h are the base and height of the triangle, respectively.

The formula for the Pythagorean theorem: [tex]a^2 + b^2 = c^2,[/tex] where a, b, and c are the sides of a right triangle and c is the length of the hypotenuse. The square root of a rational number may not be an integer.

The formula for the slope of a line: m = [tex](y_2 - y_1)/(x_2 - x_1)[/tex], where m is the slope and (x1, y1) and (x2, y2) are two points on the line.

The formula for compound interest: A = [tex]P(1 + r/n)^{nt[/tex], where A is the final amount, P is the principal amount, r is the annual interest rate (as a decimal), n is the number of times interest is compounded per year, and t is the number of years.

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Correct Question:

Mention all the formulas contain a rational number that is not an integer.

Answer:

True

Step-by-step explanation:

If you graph the two equations, you'll notice that they are reflections about the line [tex]y =x[/tex]

It appears that the quality control of the repair process has worked, but we cannot say this with complete certainty.

To determine if the quality control of the repair process has worked, we need to check if the machine has gone longer than expected without repairs.

The expected time between two repairs is given by the formula:

Expected time = α x β

So, in this case, the expected time between two repairs is:

Expected time = 3 x 4 = 12 days

Since it has been 30 days since the last repair, it appears that the quality control has worked and the machine has gone longer than expected without repairs. However, we cannot say this with certainty as there is still a probability of such a long time gap occurring even without any improvement in the repair process.

To make a more precise statement, we can calculate the probability of the machine going 30 days or longer without repairs, assuming the repair process has not improved.

Using the gamma distribution with α= 3 and β= 4, we can calculate this probability as:

P(X > 30) = 1 - P(X ≤ 30)

where X is the time between two repairs.

Using a gamma distribution calculator or software, we can find that:

P(X > 30) ≈ 0.028

This means that there is only a 2.8% chance of the machine going 30 days or longer without repairs if the repair process has not improved.

Therefore, based on this probability, it appears that the quality control of the repair process has worked, but we cannot say this with complete certainty.

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The probability that a randomly selected bolt will have a diameter greater than 0.60 cm is approximately 0.6915.

We know that the diameters of bolts produced on a certain machine are normally distributed with a mean (μ) of 0.62 cm and a standard deviation (σ) of 0.04 cm.

Let X be the diameter of a bolt. Then, X ~ N(μ, σ) = N(0.62, 0.04).

We need to find the probability that a randomly selected bolt will have a diameter greater than 0.60 cm.

P(X > 0.60) = P((X - μ)/σ > (0.60 - 0.62)/0.04) (standardizing X)

= P(Z > -0.5) (where Z ~ N(0,1) is the standard normal distribution)

Using the standard normal distribution table or calculator, we can find that P(Z > -0.5) is approximately 0.6915.

Therefore, the probability that a randomly selected bolt will have a diameter greater than 0.60 cm is approximately 0.6915.

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The end behavior of f(x)=(2+x2)(x2−36) is determined by the highest degree terms in the numerator and denominator. In this case, the highest degree terms are both x^4.

The numerator (2+x^2) will approach positive infinity as x approaches positive or negative  infinity because the x^2 term dominates.

The denominator (x^2-36) will approach positive infinity as x approaches positive or negative infinity because the x^2 term dominates.

Therefore, as x approaches positive or negative infinity, f(x) will approach positive infinity.

This is because the highest degree term in the function is x^4, which will dominate the function as x approaches infinity or negative infinity. Since the coefficient of x^4 is positive, the function will approach 0 from both sides as x becomes large or very negative.

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Answer:

D.) 42

Step-by-step explanation:

7 multiplied by 6 is 42, and since the function rule is to multiply by 6, we multiply the input, 7, by 6, to get the output, 42.

Answer:

the answer is D.42

Step-by-step explanation:

have a nice day.

Therefore, the slope of the line passing through the points (2,7) and (-1,6) is 1/3.

We must first subtract the y-coordinates from the x-coordinates in order to get the gradient or slope of a line, and then divide our two results. The ordered pairings two, negative two and four, eight serve as our x- and y-values in the calculation y two minus y one divided by x two minus x one.

The slope of a line passing through two points (x1, y1) and (x2, y2) can be found using the formula:

slope = [tex](y_2 - y_1) / (x_2 - x_1)[/tex]

Substituting the given points:

slope = (6 - 7) / (-1 - 2) = -1 / (-3) = 1/3

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The area of a rectangle is given by multiplying its length by its width. So, we have: Therefore, the area of the rectangle is 256x²m¹⁰.

When calculating a rectangle's area, we multiply the length by the width of the rectangle. The perimeter of a shape is the space surrounding it. Space inside a form is measured by area.  A closed figure's area is the portion of the plane that it occupys, whereas its perimeter is the space around it. The size of a plane or the area it encloses is expressed in square metres.

An example of a quadrilateral with equal and parallel opposite sides is a rectangle. It is a polygon with four sides and four angles that are each 90 degrees. A rectangle is a form with only two dimensions.

Area = length x width

Area = (8m³)² x (4x²m⁴)

Area = 64m⁶ x 4x²m⁴

Area = 256x²m¹⁰

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y(x) = y_c(x) + y_p(x)

To find the general solution of the given differential equations using the variation of parameters method:

(i) y" - 4y' + 3y = e^x

The complementary solution of the homogeneous equation is found by solving the characteristic equation:

r^2 - 4r + 3 = 0

(r - 1)(r - 3) = 0

The roots are r = 1 and r = 3, so the complementary solution is:

y_c(x) = C1e^x + C2e^(3x)

Now, we need to find the particular solution using the variation of parameters method. Assume the particular solution has the form:

y_p(x) = u1(x)e^x + u2(x)e^(3x)

where u1(x) and u2(x) are functions to be determined.

Differentiating y_p(x), we have:

y_p'(x) = u1'(x)e^x + u1(x)e^x + u2'(x)e^(3x) + 3u2(x)e^(3x)

y_p''(x) = u1''(x)e^x + 2u1'(x)e^x + u1(x)e^x + u2''(x)e^(3x) + 6u2'(x)e^(3x) + 9u2(x)e^(3x)

Substituting y_p(x), y_p'(x), and y_p''(x) back into the original equation, we get:

(u1''(x)e^x + 2u1'(x)e^x + u1(x)e^x + u2''(x)e^(3x) + 6u2'(x)e^(3x) + 9u2(x)e^(3x))

4(u1'(x)e^x + u1(x)e^x + u2'(x)e^(3x) + 3u2(x)e^(3x))

3(u1(x)e^x + u2(x)e^(3x)) = e^x

Now, we equate the coefficients of like terms on both sides of the equation:

e^x terms:

u1''(x) - 2u1'(x) + u1(x) = 1

e^(3x) terms:

u2''(x) + 6u2'(x) + 9u2(x) = 0

Solve these two differential equations to find u1(x) and u2(x). Once you have u1(x) and u2(x), substitute them back into the particular solution:

y_p(x) = u1(x)e^x + u2(x)e^(3x)

Finally, the general solution is given by:

y(x) = y_c(x) + y_p(x)

(ii) y" - 2y' + y = e^x / (x^2 + 1)

The process is similar to the first equation, but with a slight difference in the particular solution. Assume the particular solution has the form:

y_p(x) = u1(x)e^x + u2(x)e^xln(x^2 + 1)

Differentiate y_p(x) and substitute it back into the original equation to find u1(x) and u2(x). Then the general solution is given by:

y(x) = y_c(x) + y_p(x)

Note: Solving the differential equations for u1(x) and u2(x) in both cases can be quite involved, and the exact form of the particular solution may vary depending on the specific calculations.

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