7. use the laplace transforms to solve the ivp: ′′ − = (), (0) = 0, ′ (0) = 1, where

a) The Beta distribution that would be used to model p, the true defect rate is Beta(2, 8).

(b) Using the distribution P(.15 ≤p ≤.25) is 0.086.

(c) The new Beta distribution that you would use to model p is Beta(3, 17).

(d) Using the new distribution P(.15 ≤p ≤.25) is 0.004.

(a) The Beta distribution that we would use to model p is Beta(α, β), where α is the number of defective parts found in the sample and β is the number of working parts found in the sample. In this case, α = 2 and β = 8, so the Beta distribution is Beta(2, 8).

(b) Using the Beta(2, 8) distribution, we want to find P(.15 ≤p ≤.25). This is equivalent to finding the probability that p falls between 0.15 and 0.25. We can use a Beta distribution calculator or software to find this probability, which is approximately 0.086.

(c) To find the new Beta distribution, we need to combine the two samples. We now have a total of 3 defective parts and 17 working parts. Therefore, the new Beta distribution is Beta(3, 17).

(d) Using the Beta(3, 17) distribution, we want to find P(.15 ≤p ≤.25). Again, we can use a Beta distribution calculator or software to find this probability, which is approximately 0.004. This probability is smaller than the one we found in part (b) because the second sample had a lower proportion of defective parts, which reduced our uncertainty about the true defect rate.

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If a survey is taken at a movie theater in Winterville. The first 150 people who entered the theater were asked about their favorite type of movie. The  true about this situation is: C. The population is the total number of people who go to the movie theater, and the sample is the first 150 people at the theater.

In this situation, the survey was taken of the first 150 people who entered the movie theater. Therefore, the sample is the group of 150 people who were surveyed. The population of interest is the total number of people who go to the movie theater, as these are the individuals who could potentially have a favorite type of movie.

However, it is not practical to survey every person who goes to the movie theater, so a sample of 150 people was taken from the population.

Therefore, option C is the correct answer.

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The numerical value of x in the supplementary angle is 15.

Supplementary angles simply refer to the pair of angles that always sum up to 180°.

Given that; angle ZJ and ZK are supplementary angles:

Since the two angles are supplementary angles, their sum will equal 180 degrees.

Hence:

Angle ZJ + Angle ZK = 180

Plug in the values and solve for x

9x + 45 = 180

Subtract 45 from both sides

9x + 45 - 45 = 180 - 45

9x = 180 - 45

9x = 135

Divide both sides by 9

x = 135/9

x = 15

Therefore, x has a value of 15.

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a)There are 15,120 agent arrangements where order is important.b)The number of agent arrangements where order is not important is 1.

(a) When order is important, we are looking for the number of permutations. To calculate the number of agent arrangements for the 5 new customers, we use the formula:

nPr = n! / (n-r)!

where n is the number of agents (9), r is the number of customers (5), and ! represents the factorial.

9P5 = 9! / (9-5)!
= 9! / 4!
= 15,120

There are 15,120 agent arrangements where order is important.

(b) When order is not important, we are looking for the number of combinations. In this case, since each customer must be assigned an agent, there's only one way to distribute the agents, as all customers will receive service regardless of agent order. Therefore, the number of agent arrangements where order is not important is 1.

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The principle that does NOT reflect the RTI (Response to Intervention) model for math is.

d. providing intervention for all students, whether they need it or not.

The RTI model for math is designed to support students' learning by providing targeted interventions based on their specific needs.

The model emphasizes regularly monitoring students' progress to identify those who may require additional support. It also promotes screening all students for math ability to ensure early identification of struggling learners.

Additionally, evidence-based math instruction is a key principle of the RTI model, meaning that instructional strategies are based on research and proven to be effective. However, the principle that does not align with the RTI model is providing intervention for all students, whether they need it or not.

RTI focuses on providing interventions to students who demonstrate a need for additional support based on data and assessments, rather than providing intervention universally without regard to individual student needs.

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Regarding cross-sectional data sets, the following statements are true:

1. These data require attention to the frequency at which they are collected (weekly, monthly, yearly, etc.): This statement is true. Cross-sectional data sets are collected at a specific point in time or over a specific period, and the frequency of data collection is important for understanding the temporal context.

2. It can be assumed that the data were obtained through a random sampling of the underlying population: This statement is not necessarily true. While random sampling is desirable in statistical analysis, it cannot be assumed for cross-sectional data sets. The sampling method depends on the specific study design and data collection process.

3. The data are collected multiple times over several different time periods: This statement is not true. Cross-sectional data sets are collected at a single point in time or over a specific period, but they do not involve multiple data collection instances over different time periods.

4. Most observations are not independent across time: This statement is not true. Cross-sectional data sets focus on a specific time point or period, and therefore, the observations within the data set are typically independent and do not involve tracking changes over time.

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(a) The measure of angle 1 is  31.5⁰.

(b) The measure of angle 2 is  139⁰.

(c) The measure of angle 3 is  41⁰.

(d) The measure of angle 4 is  93⁰.

(e) The measure of angle 5 is  69.5⁰.

(f) The measure of angle 6 is  69.5⁰.

The value of the missing angles is calculated by applying intersecting chord theorem, which states that the angle at tangent is half of the arc angle of the two intersecting chords.

The measure of angle 1 is calculated as follows;

arc angle opposite 72.5⁰ = 2 x 72.5⁰ = 145⁰

missing arc angle = 360 - ( 145⁰ + 139)

missing arc angle = 76⁰

m∠1 = ¹/₂ ( 139 - 76) (exterior angle of intersecting secants)

m∠1 = ¹/₂ (63) = 31.5⁰

m∠5 = ¹/₂ (139⁰)

m∠5 = 69.5⁰ (interior angle of intersecting secants)

m∠2 = 2 x m∠5 (angle at center is twice angle at circumference)

m∠2 = 2 x 69.5 = 139⁰

m∠6 = ¹/₂ (139⁰)

m∠6 = 69.5⁰ (interior angle of intersecting secants)

The measure of angle 4 is calculated as follows;

θ = 180 - (72.5 + m∠6)

= 180 - (72.5 + 69.5)

= 180 - 142

= 38

Each base angle of angle 2 = ¹/₂ (180 - 139) = 20.5⁰

= 38 - 20.5⁰

= 17.5⁰

m∠4 = 180 - (17.5⁰ + m∠5) (sum of angles in a triangle)

m∠4 = 180 - (17.5 + 69.5)

m∠4 = 93⁰

The measure of angle 3 is calculated as follows;

m∠3 = ¹/₂ ( (360 - 139) - 139) (exterior angle of intersecting secants)

m∠3 = ¹/₂ (221 - 139)

m∠3 = 41⁰

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The correct answer is: Seahawks; they have a larger median value of 23 inches.

To determine which team has the largest overall size hat for their players, we need to compare the central tendency measures of the two sets of data.

The best measure of center to use in this case is the median, which represents the middle value of the data when arranged in ascending or descending order.
Looking at the two tables, we can see that the median value for the Pelicans is 22 inches, while the median value for the Seahawks is 23 inches.

Therefore, the Seahawks have a larger median hat size and can be considered to have the largest overall size hat for their players.
The median is the best measure of center to compare in this case, as it represents the middle value and is less affected by outliers or extreme values.

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The graphical representation that would be best to display the data is given as follows:

Histogram.

An histogram is a graph that shows the number of times each element of x was observed.

The four types of products are given as follows:

Each of these item would represent a bin, and the values of each bin are given as follows:

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Answer:

3/2x

Step-by-step explanation:

when writing an equation for a graph its change in y over change in x

it goes up 3 over 2 and it's a positive slope

so the answer is f

I think the area is 398.48m²

Answer:

72 percent

Step-by-step explanation:

There is a typo in the problem statement, as two restaurants are mentioned but only one is named. I will assume it was intended to say that 18 employees want to go to Restaurant A and 7 employees want to go to Restaurant B.

To find the fraction of employees who want to go to Restaurant A, we can divide the number of employees who want to go to Restaurant A by the total number of employees:

Fraction = Number of employees who want to go to Restaurant A / Total number of employees

Fraction = 18 / 25

So the fraction of employees who want to go to Restaurant A is 18/25.

To find the percentage of employees who want to go to Restaurant A, we can multiply the fraction by 100:

Percentage = Fraction * 100

Percentage = 18/25 * 100

Percentage = 72

So 72% of the employees want to go to Restaurant A.

To show that there is no € > 0 such that the E-neighborhood of X in R" is contained in U, we first need to understand what the E-neighborhood of X in R" means. There is no ε > 0 such that the ε-neighborhood of X in R² is contained in U.

The E-neighborhood of X in R" is the set of all points in R" that are within a certain distance E of X. In other words, it is the set of all points that are within E units of distance from any point in X.

Now, we know that X is a subset of (-1, 1) x 0 in R², which means that X consists of all points that lie between the interval (-1, 1) on the x-axis and 0 on the y-axis. We also know that U is an open ball of radius 1 centered at the origin in R², which means that U consists of all points that are within a distance of 1 unit from the origin.

If we assume that there is some € > 0 such that the E-neighborhood of X in R" is contained in U, then we can choose a point in X that is on the x-axis and is at a distance of E units from the origin. Let's call this point A.

Since A is in X, it lies between the interval (-1, 1) on the x-axis and 0 on the y-axis. However, since A is at a distance of E units from the origin, it must lie outside the open ball U of radius 1 centered at the origin.

This contradicts our assumption that the E-neighborhood of X in R" is contained in U. Therefore, there is no € > 0 such that the E-neighborhood of X in R" is contained in U.

To show there is no ε > 0 such that the ε-neighborhood of X in R² is contained in U, consider the following:

Let X denote the subset (-1, 1) x 0 of R², and let U be the open ball B(0, 1) in R², which contains X. Now, let's assume there exists an ε > 0 such that the ε-neighborhood of X is contained in U. This would mean that every point in X has a distance of less than ε to some point in U.

However, consider the point (-1, 0) in X. Since U is the open ball B(0, 1), the distance from (-1, 0) to the center of U, which is the point (0, 0), is equal to 1. Any ε-neighborhood of (-1, 0) in R² would have to include points that are further than 1 unit away from the center of U. This contradicts the assumption that the ε-neighborhood of X is contained in U.

Thus, there is no ε > 0 such that the ε-neighborhood of X in R² is contained in U.

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To find the function for the radius, we know that the rate of change of the radius is given as 3.3 feet per second. We can integrate this to get the function for the radius:

∫ dr/dt dt = ∫ 3.3 dt

r = 3.3t + C

We know that when t = 0, r = 0. So, we can solve for C as follows:

0 = 3.3(0) + C

C = 0

Therefore, the function for the radius is:

r(t) = 3.3t

To find the function for the area of the ripple in terms of r, we use the formula for the area of a circle:

A = πr^2

Substituting r = 3.3t, we get:

A(r) = π(3.3t)^2

A(r) = 34.56πt^2

Finally, to find (A o r)(t), we substitute r(t) into A(r) and get:

(A o r)(t) = A(r(t))

(A o r)(t) = A(3.3t)

(A o r)(t) = 34.56πt^2

The equation for the tangent plane at point P_0(2,1,2) on the surface 2x^2 + 4y^2 + 3z^2 = 24 is 5x + 4y + 3z = 20. The equation for the normal line at the point P_0(2,1,2) is parametrically represented by x = 2 + 5t, y = 1 + 4t, z = 2 + 3t.

To find the equation for the tangent plane, we first take the partial derivatives of the given surface equation with respect to x, y, and z, and evaluate them at point P_0(2,1,2). Then, we use these values and the point to write the equation for the tangent plane in the form Ax + By + Cz = D.  To find the equation for the normal line, we use the gradient vector of the surface equation at point P_0(2,1,2), which is orthogonal to the tangent plane at that point. This gradient vector provides the direction of the normal line, and we can use the point-slope form to write the equation for the line in terms of the given point and the direction vector.

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To solve without a calculator, we can use the identity cos(180° - θ) = -cosθ, which means that:

cos 20° = cos(180° - 20°) = -cos 160°

Substituting this into the original equation gives:

-3(-cos 160°) - 6 = 19 cos θ

Simplifying this expression gives:

3 cos 160° - 6 = 19 cos θ

Using the fact that cos 160° = cos(-20°), we can rewrite this as:

3 cos (-20°) - 6 = 19 cos θ

Now, using the identity cos(-θ) = cosθ, we get:

3 cos 20° - 6 = 19 cos θ

Adding 6 to both sides and dividing by 19, we obtain:

cos θ = (-3 cos 20° + 6)/19

Using a table of trigonometric values, we can find that cos 20° is approximately 0.9397. Substituting this value into the equation above, we get:

cos θ ≈ (-3 × 0.9397 + 6)/19

cos θ ≈ -0.628

Since -1 ≤ cos θ ≤ 1, there are no angles between 0° and 360° that satisfy the equation to the nearest 10th of a degree. Therefore, the answer is that there are no solutions.

For the two triangles, the appropriate option is D) The triangles aren't similar.

When on comparing the properties of two triangles and a common relations hold, then the triangles are said to be similar. The sides of the similar triangles will have a representative fraction.

Representative fraction is the ration that shows how the corresponding sides of two triangles relate.

In the given triangle on comparing their sides, we have;

KP/ KN = KL/ KM

12/ 15 = 8/ 10

But,

12/ 15 ≠ 8/ 10

Therefore the triangles are not similar. Thus option D) The triangles aren't similar.

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The speed over the given path is √(9+(7/())^2+(5/(())^2) at t=1, where the notation "()" represents the parameterization of the path.

To find the speed over the given path, we need to first take the derivative of the parameterization with respect to t. We get: ()'=<0, 7/(), 5/(())^2>. Then, we can evaluate this derivative at t=1 to get ()'(1)=<0,7,5>. The speed at t=1 is given by the magnitude of this vector, which is √(0^2+7^2+5^2)=√74. Therefore, the speed over the given path at t=1 is √74.

In summary, to find the speed over the given path at t=1, we first take the derivative of the parameterization with respect to t and evaluate it at t=1 to get the velocity vector. Then, we find the magnitude of this vector to get the speed, which is √74.

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If the price level rises and the money wage rate remains constant, the quantity of real GDP supplied decreases and there is a movement up along the short-run aggregate supply curve.

This happens because when the price level increases, the cost of production for firms increases as well. However, if the money wage rate remains constant, firms still pay the same amount for labor even though everything else costs more. This means that the profit margin for firms decreases, making it less profitable to produce as much output. As a result, the quantity of real GDP supplied decreases. This decrease in real GDP supplied results in a movement up along the short-run aggregate supply curve. The short-run aggregate supply curve shows the relationship between the price level and the quantity of real GDP supplied in the short run, assuming that the money wage rate remains constant. When the price level increases and the quantity of real GDP supplied decreases, there is a movement up along the curve, indicating a higher price level and lower real GDP supplied. In the long run, the money wage rate is flexible and will adjust to changes in the price level, allowing the economy to return to its natural level of output. This means that in the long run, the aggregate supply curve is vertical, indicating that changes in the price level do not affect the quantity of real GDP supplied.

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The probability and the classification of the events are given as follows:

A probability is calculated as the division of the desired number of outcomes by the total number of outcomes in the context of a problem/experiment.

Out of 18 boys at the party, 16 did both the trampoline and the darts, hence the probability is given as follows:

P(A and B) = 16/18 = 8/9.

The multiplication of the probabilities is given as follows:

8/18 x 4/18 = 4/9 x 4/18 = 16/162.

The multiplication is different of the probability, hence the events are not independent.

The problem is given by the image presented at the end of the answer.

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Answer:

1654 yd²

Step-by-step explanation:

Break the shape up into a rectangle and 2 triangles, find the area of each, then add together to get the total area.

A-rectangle = l x w = 45 x 25 = 1125

A-triangle1 = 1/2bh = 1/2(14)(25 + 12) = 259

A-triangle2 = 1/2(45)(12) = 270

Total area = 1125 + 259 + 270 = 1654 yd²

The weighted average estimator Yˉω​ is considered to estimate the expectation μ. To be an unbiased estimator, the weights ω1​, ω2​, and ω3​ should satisfy the condition that their sum is equal to 1.

(a) To calculate E[Yˉω​], we can take the expectation inside the summation:

E[Yˉω​] = E[ω1​Y1​ + ω2​Y2​ + ω3​Y3​]

= ω1​E[Y1​] + ω2​E[Y2​] + ω3​E[Y3​]

= ω1​μ + ω2​μ + ω3​μ

= μ(ω1​ + ω2​ + ω3​)

For Yˉω​ to be an unbiased estimator, its expectation should be equal to the parameter being estimated, which is μ. Therefore, we have the condition ω1​ + ω2​ + ω3​ = 1.

(b) To calculate V[Yˉω​], we need to determine the variance inside the weighted average:

V[Yˉω​] = V[ω1​Y1​ + ω2​Y2​ + ω3​Y3​]

= ω1​^2V[Y1​] + ω2​^2V[Y2​] + ω3​^2V[Y3​]

= ω1​^2σ^2 + ω2​^2σ^2 + ω3​^2σ^2

= σ^2(ω1​^2 + ω2​^2 + ω3​^2)

To minimize the variance V[Yˉω​], we need to find the weights ω1​, ω2​, and ω3​ that minimize the expression ω1​^2 + ω2​^2 + ω3​^2, while still satisfying the condition ω1​ + ω2​ + ω3​ = 1. One approach to find the minimum variance is by using calculus techniques, such as Lagrange multipliers, to optimize the expression under the constraint. Solving this optimization problem will yield the specific weights that minimize the variance of Yˉω​, and the justification lies in the mathematical derivation of the optimal solution.

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Answer:

Step-by-step explanation:

(-2 , 1)

Its clear from the figure itself .

The constant of proportionality is 1.25

The variables of hours worked, x, and wages earned y are proportional

when they can be expressed in the form;

y = c·x

Such that we have; Δy = c·Δx

Where;

Δy = Change in the y variable

Δx = Change in x variable

Therefore;

C = Δy / Δx

The constant of proportionality is therefore given by the rate of change of the graph which is found as follows;

C = 1/2 ÷ 2/5

C = 5/4

C = 1.25

Hence the constant of proportionality is 1.25.

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The bottom right graph shows the line of best fit for the data.

For a data-set, the definition of a residual is that it is the difference of the actual output value by the predicted output value, that is:

Residual = Observed - Predicted.

Hence the graph of the line of best fit should have the smallest possible residual values, meaning that the points on the scatter plot are the closest possible to the line.

For this problem, we have that the bottom right graph has the smaller residuals, hence it shows the line of best fit for the data.

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Therefore, The value of E°cell for the reaction that occurs when current is drawn from this cell at standard conditions is 1.20 V.

Explanation: The given cell is a galvanic cell. The standard cell potential for this cell can be calculated using the Nernst equation.
Ecell = E°cell - (0.0592/n) log Q
Here, n = number of electrons transferred = 2
At standard conditions, Q = 1, as all species are at their standard states.
Thus,
Ecell = E°cell - (0.0592/2) log 1
Ecell = E°cell
The standard cell potential can be calculated using standard reduction potentials for the given half-reactions.
Zn2+(aq) + 2e- → Zn(s)   E° = -0.76 V
Fe2+(aq) + 2e- → Fe(s)    E° = -0.44 V
E°cell = E°reduction (cathode) - E°reduction (anode)
E°cell = 0.44 - (-0.76) = 1.20 V

Therefore, The value of E°cell for the reaction that occurs when current is drawn from this cell at standard conditions is 1.20 V.

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The surface area of the pyramid is approximately 197.15 square inches.

To find the surface area of a pyramid, we need to add the area of the base to the area of the lateral faces. For a triangular pyramid, we can break down the lateral faces into three triangles and then find the area of each triangle.

First, we need to find the area of the equilateral triangle base. Since the legs of the equilateral triangle are all 10 inches long, the altitude of the triangle can be found using the Pythagorean theorem:

a² + (8.7)² = 10²

a² = 100 - (8.7)²

a ≈ 6.43

Therefore, the area of the base is:

A₁ = (1/2)bh = (1/2)(10)(6.43) = 32.15 square inches

Next, we need to find the area of each of the three lateral faces. Each of these faces is a triangle with base equal to 10 inches (one of the legs of the equilateral triangle) and height equal to the slant height of the pyramid, which is 11 inches. Therefore, the area of each of these triangles is:

A₂ = (1/2)bh = (1/2)(10)(11) = 55 square inches

Finally, we can add up the areas of the base and the three lateral faces to get the total surface area:

A = A₁ + 3A₂ = 32.15 + 3(55) = 197.15 square inches

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The length of the line drawn between points A and B is 13.454 unit length. Thus, the option C is the most appropriate answer to the given question.

The length of the line AB is described by the distance formula:

d = √ ( x₂ - x₁ )² + ( y₂ - y₁ )²

Coordinates of point A = (0, 10)

Coordinates of point B = (9, 0)

x₁ = 0

x₂ = 9

y₁ = 10

y₂ = 0

d = √ (9 - 0)² + (0 - 10)²

d = √ 81 + 100

d = √ 181

d = 13.45 unit length

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The latest start time of Activity A3 is 15 weeks.

We have the information from the question is:

We know that activity A3 could only be started after the completion of activity A1 and A2. The activity A2 can only be started after activity A1 is finished. Hence, to find the latest completion time, we need to find the time spend on both activity A1 and A2.

However, if the activities need to be performed sequentially (i.e., A1, followed by A2, and then A3):

=> Complete Activity A1, which takes 5 weeks.

=> Complete Activity A2, which takes 8 weeks. (Total time: 5 + 8 = 13 weeks)

=> Start and complete Activity A3, which takes 2 weeks. (Total time: 13 + 2 = 15 weeks)

In this case, the earliest completion time of Activity A3 is 15 weeks.

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To answer your question, we first need to define the terms "temperature", "variables", "liner", and "problem". Temperature refers to the degree of hotness or coldness of a substance or object.

Variables are factors that can change or be manipulated in an experiment or equation. A liner is a material used to cover or line a surface. And a problem refers to a situation or issue that needs to be resolved.

Now, let's address the given problem. The inhomogeneous liner PDE is a heat equation that describes the temperature distribution in a material over time. The variables in this equation are x and t, which represent the spatial and temporal dimensions, respectively. The liner in this context is the material being analyzed.

(a) The steady-state problem refers to the equilibrium state where the temperature distribution no longer changes over time. To find the steady-state solution u_ss(x), we set du/dt = 0 and solve for u(x) using the given boundary conditions. The solution is u_ss(x) = (1/L^2) * x * (L-x).

(b) The IBVP (Initial Boundary Value Problem) for the transient solution w(x,t) is given by the heat equation with the initial condition u(x,0) = 1 and the boundary conditions du/dx(0,t) = 0 and u(L,t) = 1.

(c) To solve for the transient solution using the method of separation of variables, we assume that w(x,t) can be expressed as a product of functions of x and t, i.e. w(x,t) = X(x)T(t). Substituting this into the heat equation and simplifying, we obtain two ordinary differential equations: X''(x) + (lambda/k)X(x) = 0 and T'(t) + (lambda/k)T(t) = (1/k)*x, where lambda is a separation constant. Solving for X(x) and T(t) separately, we obtain the general solution w(x,t) = (2/L) * (sum from n=1 to infinity) of [(1-(-1)^n)/(n*pi)^2 * sin(n*pi*x/L) * e^(-n^2*pi^2*k*t/L^2)].

(d) The final solution for the temperature is obtained by substituting the transient solution w(x,t) into the formula u(x,t) = u_ss(x) + w(x,t). Thus, the temperature distribution in the material at any time t is given by u(x,t) = (1/L^2) * x * (L-x) + (2/L) * (sum from n=1 to infinity) of [(1-(-1)^n)/(n*pi)^2 * sin(n*pi*x/L) * e^(-n^2*pi^2*k*t/L^2)].
(a) The steady-state problem is obtained by setting du/dt = 0: k * d^2u/dx^2 + x = 0, with boundary conditions du/dx = 0 at x = 0, and u = 1 at x = L. To find u_ss(x), integrate twice and apply the boundary conditions.

(b) The IBVP for the transient solution w(x, t) is given by: dw/dt = k * d^2w/dx^2, with boundary conditions dw/dx = 0 at x = 0, w = 0 at x = L, and initial condition w(x, 0) = u(x, 0) - u_ss(x).

(c) Using separation of variables, let w(x, t) = X(x) * T(t). Substitute into the IBVP and solve the resulting ODEs for X(x) and T(t).

(d) The final solution for the temperature u(x, t) is the sum of the steady-state solution u_ss(x) and the transient solution w(x, t).

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