10. Calculate the following derivatives: where y = v= ( + ) 4 ar + b (b) f'(x) where f(x) = (a,b,c,d are constants). c72 +

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Answer 1

The derivative of y = (a + bx)^4 with respect to x is dy/dx = 4(a + bx)^3 * b, and the derivative of f(x) = c^7 + d^(2x) with respect to x is df/dx = d^(2x) * ln(d) * 2.

(a) To find the derivative of y = v = (a + bx)^4 with respect to x, we can use the chain rule. Let's denote u = a + bx, then v = u^4. Applying the chain rule, we have:

dy/dx = d(u^4)/du * du/dx.

Differentiating u^4 with respect to u gives us 4u^3. And since du/dx is simply b (the derivative of bx with respect to x), the derivative of y with respect to x is:

dy/dx = 4(a + bx)^3 * b.

(b) For the function f(x) = c^7 + d^(2x), we need to differentiate with respect to x. The derivative of c^7 is 0 since it is a constant. The derivative of d^(2x) requires the use of the chain rule. Let's denote u = 2x, then f(x) = c^7 + d^u. The derivative is:

df/dx = 0 + d^u * d(u)/dx.

Differentiating d^u with respect to u gives us d^u * ln(d). And since du/dx is 2 (the derivative of 2x with respect to x), the derivative of f(x) is:

df/dx = d^(2x) * ln(d) * 2.

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Related Questions




Use the Root Test to determine whether the series convergent or divergent. 5n -2n n + 1 n = 1 Identify a an Evaluate the following limit. lim n-00 Tan Since lim Tan? V1, ---Select-- n00

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The Root Test is a convergence test used to determine whether a series converges or diverges. The given series 5n - 2n / n + 1 converges according to the Root Test.

Let's apply the Root Test to the series. We consider the limit as n approaches infinity of the nth root of the absolute value of the terms.

The nth term of the given series is (5n - 2n) / (n + 1). Taking the absolute value of the terms, we have |(5n - 2n) / (n + 1)|. Simplifying this expression gives |3 - (2/n)|.

Now, we need to calculate the limit as n approaches infinity of the nth root of |3 - (2/n)|. As n approaches infinity, (2/n) approaches zero. Hence, the expression inside the absolute value becomes |3 - 0|, which is equal to 3.

Therefore, the limit of the nth root of |(5n - 2n) / (n + 1)| is 3. Since the limit is a finite positive number, the Root Test tells us that the series converges.

In conclusion, the given series 5n - 2n / n + 1 converges according to the Root Test.

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Problem #7: Suppose that a population P(t) follows the following Gompertz differential equation. dP = 6P(17 – In P), dt with initial condition P(0) = 70. (a) What is the limiting value of the popula

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The limiting value of the population is approximately P = e¹⁷.

To find the limiting value of the population and the value of the population at t = 6, we can solve the given Gompertz differential equation. Let's proceed with the calculations:

(a) The limiting value of the population occurs when the growth rate, dP/dt, becomes zero. In other words, we need to find the equilibrium point where the population stops changing.

Given: dP/dt = 6P(17 - ln(P))

To find the limiting value, set dP/dt = 0:

0 = 6P(17 - ln(P))

Either P = 0 or 17 - ln(P) = 0.

If P = 0, the population would be extinct, so we consider the second equation:

17 - ln(P) = 0

ln(P) = 17

P = e¹⁷

Therefore, the limiting value of the population is approximately P = e¹⁷.

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Incomplete question:

Suppose that a population P(7) follows the following Gompertz differential equation.

dP dt = 6P(17-In P),

with initial condition P(0)= 70.

(a) What is the limiting value of the population?


please write down all the ateps and rules used to get the answer.
Find the limit, if it exists, or type 'DNE' if it does not exist. lim eV 1x2 +1y2 (x,y)+(2,-1) el

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The limit of the expression [tex]\[\lim_{{(x,y) \to (2,-1)}} e^{(x^2 + y^2)}\][/tex] does not exist (DNE).

Determine the limit?

To evaluate the limit, we consider the behavior of the expression as the variables x and y approach their given values of 2 and -1, respectively.

In this case, the expression involves the function [tex]\(e^{x^2 + y^2}\)[/tex], which represents the exponential of the sum of squares of x and y. As (x,y) approaches (2,-1), the function [tex]\(e^{x^2 + y^2}\)[/tex] will approach some value, or the limit may not exist.

However, in this case, we cannot determine the exact value of the limit or show that it exists. The exponential function [tex]\(e^{x^2 + y^2}\)[/tex] grows rapidly as the values of x and y increase, and its behavior near the point (2,-1) is not well-defined.

Therefore, we conclude that the limit of the expression[tex]\(\lim_{(x,y)\to (2,-1)}\)[/tex][tex]\(e^{x^2 + y^2}\)[/tex] does not exist (DNE).

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*
note that the answer is not r/q
he weekly revenue from a sale of engagement rings is increasing $25 per $1 increase in price. The price is decreasing at a rate of $0.80 for every additional ring sold. What is the marginal revenue? d

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The marginal revenue is equal to the price of an engagement ring plus the product of the number of rings sold and the rate at which the price decreases per additional ring sold, which is -$0.80.

To find the marginal revenue, we need to determine the rate of change of revenue with respect to the number of rings sold.

Let's denote the price of an engagement ring as P and the number of rings sold as N. The weekly revenue (R) can be expressed as:

[tex]R = P * N[/tex]

We are given that the price is increasing at a rate of $25 per $1 increase, so we can write the rate of change of price (dP/dN) as:

[tex]dP/dN = $25[/tex]

We are also given that the price is decreasing at a rate of $0.80 for every additional ring sold, which implies that the rate of change of price with respect to the number of rings (dP/dN) is:

[tex]dP/dN = -$0.80[/tex]

To find the marginal revenue (MR), we can use the product rule of differentiation, which states that the derivative of the product of two functions is the first function times the derivative of the second function plus the second function times the derivative of the first function.

Applying the product rule to the revenue function R = P * N, we have:

[tex]dR/dN = P * (dN/dN) + N * (dP/dN)[/tex]

Since dN/dN is 1, we can simplify the equation to:

[tex]dR/dN = P + N * (dP/dN)[/tex]

Substituting the given values, we have:

[tex]dR/dN = P + N * (-$0.80)[/tex]

The marginal revenue (MR) is the derivative of the revenue function with respect to the number of rings sold. So, the marginal revenue is:

[tex]MR = dR/dN = P + N * (-$0.80)[/tex]

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(a) In a survey on favorite parts of college, students were asked to choose their favorite professor (from a list of four popular professors), favorite meal in the dining hall (from a list of six popular meals), and favorite weekend activity (from a list of ten popular activities). Calculate the number of different ways the survey can be filled out if students select one from each category (b) What is the probability that a student who chose his or her selections totally at random chose the third one on each list? (Enter your probability as a fraction.) (c) After compiling the results from the survey described above, a follow-up survey is written with the top two in each category (top two professors, top two meals, and top two activities). Calculate the number of different ways the survey can be filled out if students select one from each category.

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if students select one option from each category, there are eight different ways that the follow-up survey can be filled out.

(a) To work out the quantity of various ways the study can be finished up, we really want to duplicate the quantity of decisions in every class.

The number of professors available: 4

Number of feasts to browse: Six options for weekend entertainment: 10 Methods for responding to the survey in total: 4 x 6 x 10 = 240, so there are 240 different ways to fill out the survey.

(b) The probability of selecting the third option from each list is calculated by dividing the number of   outcomes (choosing the third option) by the total number of possible outcomes if the student chooses their choices completely at random.

The number of lecturers: 4 (second and third are not picked)

Number of dinners: 6 (the 2nd and 3rd positions are not selected) Ten (the second and third positions are not selected) possible outcomes: 4 x 6 x 10 = 240 Positive outcomes for selecting the third option: 1 * 1 * 1 = 1 Probability = Positive outcomes / Total outcomes = 1 / 240. As a result, the probability that a student would select the third option from each list completely at random is 1/240.

c) The top two choices in each category are included in the follow-up survey after the initial survey's results have been compiled.

Number of teachers to look over: Two of the most popular meals are as follows: Two of the best options for weekend activities are as follows: 2 (the two highest numbers) The total number of ways to complete the follow-up survey: Therefore, if students select one option from each category, there are eight different ways that the follow-up survey can be filled out.

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6. Find an equation of the tangent line to the curve: y = sec(x) – 2cos(x), at the point ( 1). (3 marks)

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The equation of the tangent line to the curve y = sec(x) - 2cos(x) at the point (1) is y = 3x - 1.

To find the equation of the tangent line, we need to find the slope of the tangent at the given point (1) and use the point-slope form of a linear equation.

First, let's find the derivative of y with respect to x:

dy/dx = d/dx(sec(x) - 2cos(x))

= sec(x)tan(x) + 2sin(x)

Next, we evaluate the derivative at x = 1 to find the slope of the tangent line at the point (1):

dy/dx = sec(1)tan(1) + 2sin(1)

≈ 3.297

Now, we have the slope of the tangent line. Using the point-slope form with the point (1), we get:

y - y₁ = m(x - x₁)

y - y₁ = 3.297(x - 1)

y - 2 = 3.297x - 3.297

y = 3.297x - 1

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Sam has a 2/3 chance of scoring a point each time she throws from the free-throw
line in basketball. (You should assume that the probability of success for each throw is independent of
the result of other attempts.)
What is the expectation of the number of points that Sam will score from 3 throws?

Answers

The expectation of the number of points that Sam will score from 3 throws can be calculated by multiplying the number of throws (3) by the probability of scoring a point in each throw (2/3).

To find the expectation, we multiply the number of trials (in this case, the number of throws) by the probability of success in each trial. In this scenario, Sam has a 2/3 chance of scoring a point in each throw. Since there are 3 throws, we can calculate the expectation as follows:

Expectation = Number of throws * Probability of success

Expectation = 3 * (2/3)

Expectation = 2

Therefore, the expectation of the number of points that Sam will score from 3 throws is 2. This means that, on average, we can expect Sam to score 2 points out of 3 throws based on the given probability of success for each throw.

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Question 11 B0/10 pts 53 99 0 Details 5 Given the conic section r = find the x and y intercept(s) and the focus(foci). 1 + sin(0) Intercept(s): Focus(foci): Give answers as a list of one or more order

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The x-intercept(s) and y-intercept of the given conic section r = 1 + sin(θ) are not applicable. The conic section does not intersect the x-axis or the y-axis.

The equation of the given conic section is r = 1 + sin(θ), where r represents the distance from the origin to a point on the curve and θ is the angle between the positive x-axis and the line connecting the origin to the point. In polar coordinates, the x-intercept occurs when r equals zero, indicating that the curve intersects the x-axis. However, in this case, since r = 1 + sin(θ), it will never be equal to zero. Similarly, the y-intercept occurs when θ is either 0° or 180°, but sin(0°) = 0 and sin(180°) = 0, so the curve does not intersect the y-axis either.

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Find the angle between the vectors 17. (0,4); (-3,0) 18. (2,4); (1, -3) 19. (4,2);(8,4)

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17. The angle between vectors <0,4> and <-3,0> is 90 degrees.

18. The angle between vectors <2,4> and <1,-3> is arccos(-1 / (2√5)).

19. The angle between vectors <4,2> and <8,4> is arccos(5 / (2√20)).

17. To find the angle between vectors v1 = <0, 4> and v2 = <-3, 0>, we can use the dot product formula: cosθ = (v1 · v2) / (||v1|| ||v2||). Calculating the dot product and the magnitudes, we get cosθ = (0 × (-3) + 4 × 0) / (√(0² + 4²) × √((-3)² + 0²)). Simplifying, we find cosθ = 0 / (4 × 3) = 0, which implies θ = π/2 or 90°.

18. Using the same approach, for vectors v1 = <2, 4> and v2 = <1, -3>, we find cosθ = (-6 + 4) / (√(2² + 4²) × √(1² + (-3)²)) = -2 / (2√5 × 2) = -1 / (2√5), which implies θ = arccos(-1 / (2√5)).

19. Similarly, for vectors v1 = <4, 2> and v2 = <8, 4>, we find cosθ = (32 + 8) / (√(4² + 2²) × √(8² + 4²)) = 40 / (2√20 × 4) = 5 / (2√20), which implies θ = arccos(5 / (2√20)).

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The question is -

Find The Angle Between the Vectors,

17. <0,4>; <-3,0>

18. <2,4>; <1, -3>

19. <4,2>; <8,4>

: D. 1. The total cost of producing a food processors is C'(x) = 2,000 + 50x -0.5x² a Find the actual additional cost of producing the 21st food processor. b Use the marginal cost to approximate the cost of producing the 21st food processor.

Answers

a)The actual additional cost of producing the 21st food processor is $29.50.

b) Using the marginal cost approximation, the cost of producing the 21st food processor is $2,830.

a) To find the actual additional cost of producing the 21st food processor, we need to calculate the difference between the total cost of producing 21 processors and the total cost of producing 20 processors.

The total cost of producing x food processors is given by C(x) = 2,000 + 50x - 0.5x^2.

To find the cost of producing the 20th processor, we substitute x = 20 into the cost equation:

C(20) = 2,000 + 50(20) - 0.5(20)^2

= 2,000 + 1,000 - 0.5(400)

= 2,000 + 1,000 - 200

= 3,000 - 200

= 2,800

Now, we calculate the cost of producing the 21st processor:

C(21) = 2,000 + 50(21) - 0.5(21)^2

= 2,000 + 1,050 - 0.5(441)

= 2,000 + 1,050 - 220.5

= 3,050 - 220.5

= 2,829.5

The actual additional cost of producing the 21st food processor is the difference between C(21) and C(20):

Additional cost = C(21) - C(20)

= 2,829.5 - 2,800

= 29.5

Therefore, the actual additional cost of producing the 21st food processor is $29.50.

b) To approximate the cost of producing the 21st food processor using marginal cost, we need to find the derivative of the cost function with respect to x.

C'(x) = 50 - x

The marginal cost represents the rate of change of the total cost with respect to the number of units produced. So, to approximate the cost of producing the 21st processor, we evaluate the derivative at x = 20 (since the 20th processor has already been produced).

Marginal cost at x = 20:

C'(20) = 50 - 20

= 30

The marginal cost is $30 per unit. Since we are interested in the cost of producing the 21st food processor, we can approximate it by adding the marginal cost to the cost of producing the 20th processor.

Approximated cost of producing the 21st food processor = Cost of producing the 20th processor + Marginal cost

= C(20) + C'(20)

= 2,800 + 30

= 2,830

Therefore, using the marginal cost approximation, the cost of producing the 21st food processor is $2,830.

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For the curve given by r(t) = (2t, et, e9t), Find the derivative r' (t) = ( 9. Find the second derivative r(t) = ( Find the curvature at t = 0 K(0) = 1. 1. 1.

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The derivative of the curve r(t) = (2t, et, e9t) is r'(t) = (2, et, 9e9t). The second derivative of the curve is r''(t) = (0, et, 81e9t).

To find the curvature at t = 0, we can plug in the value of t into the formula for curvature, which is given by K(t) = ||r'(t) × r''(t)|| [tex]||r'(t)||^3[/tex].

To find the derivative of the curve r(t) = (2t, et, e9t), we take the derivative of each component of the curve with respect to t. The derivative of r(t) with respect to t is r'(t) = (2, et, 9e9t).

Next, we find the second derivative of the curve by taking the derivative of each component of r'(t). The second derivative of r(t) is r''(t) = (0, et, 81e9t).

To find the curvature at t = 0, we need to calculate the cross product of r'(t) and r''(t), and then calculate the magnitudes of these vectors. The formula for curvature is K(t) = ||r'(t) × r''(t)||  [tex]||r'(t)||^3[/tex].

By plugging in t = 0, we get K(0) = ||(2, 1, 0) × (0, 1, 81)|| / |[tex]|(2, 1, 0)||^3[/tex]. Simplifying further, we find that K(0) = 1.

In conclusion, the derivative of r(t) is r'(t) = (2, et, 9e9t), the second derivative is r''(t) = (0, et, 81e9t), and the curvature at t = 0 is K(0) = 1.

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(10 points) Evaluate the limits of following sequences. (a) lim (5n2 – 3)e-2n e n+too

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We need to evaluate the limit of the sequence (5n² – 3)e^(-2n) as n approaches infinity.

To find the limit of the given sequence, we can analyze the behavior of the exponential term e^(-2n) and the polynomial term 5n² – 3 as n becomes very large.

As n approaches infinity, the exponential term e^(-2n) tends to zero since the exponent -2n becomes increasingly negative. This is because e^(-2n) represents a rapidly decaying exponential function.

On the other hand, the polynomial term 5n² – 3 grows without bound as n increases. The dominant term in the polynomial is the n² term, which increases much faster than the constant term -3.

Considering these observations, we can conclude that the product of (5n² – 3)e^(-2n) approaches zero as n approaches infinity. Therefore, the limit of the sequence is 0.

In conclusion, the limit of the sequence (5n² – 3)e^(-2n) as n approaches infinity is 0. This is due to the exponential term becoming negligible compared to the polynomial term as n becomes very large.

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LINEARIZATION AND LAPLACE TRANSFORMS Question 1: Linearize the following differential equations dy +zy = dr a. d? dq = y2 + 2+ + = dt? dt b. dy dt ay +By? + y In y A, B, y: constants C. Q: constant dy

Answers

To linearize the given differential equations, we need to find the linear approximation of the nonlinear terms. In the first equation, the linearization involves finding the first derivative of y with respect to t, while in the second equation, we use logarithmic differentiation to linearize the nonlinear term. In both cases, the linearized equations help approximate the behavior of the original nonlinear equations.

a) To linearize the equation dy/dt + zy = r, we can write the linearized equation as d(y - y0)/dt + z(y - y0) = r - r0, where y0 and r0 are the values of y and r at a specific point. This linearization approximates the behavior of the original equation around the point (y0, r0). The linearization involves finding the first derivative of y with respect to t.

b) To linearize the equation dy/dt + ay + By^2 + yln(y) = Q, we can use logarithmic differentiation. Taking the natural logarithm of both sides of the equation, we get ln(dy/dt) + ln(y) + ln(a) + ln(B) + yln(y) = ln(Q). Then, we differentiate both sides with respect to t, resulting in 1/(y^2) * (dy/dt) + (1/y) * (dy/dt) + (1/y) * y + 0 + yln(y) * (dy/dt) = 0. This linearization allows us to approximate the behavior of the original nonlinear equation by neglecting higher-order terms.

In both cases, the linearized equations provide a simpler representation of the original equations, making it easier to analyze their behavior and approximate solutions.

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Find the value of y such that the points are collinear. (-6, -5), (12, y), (3, 5) y =

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To determine the value of y such that the points (-6, -5), (12, y), and (3, 5) are collinear, we can use the slope formula.

The slope between two points (x1, y1) and (x2, y2) is given by (y2 - y1) / (x2 - x1).

Using the first two points (-6, -5) and (12, y), we can calculate the slope:

slope = (y - (-5)) / (12 - (-6)) = (y + 5) / 18

Now, we compare this slope to the slope between the second and third points (12, y) and (3, 5):

slope = (5 - y) / (3 - 12) = (5 - y) / (-9) = (y - 5) / 9

For the points to be collinear, the slopes between any two pairs of points should be equal.

Setting the two slopes equal to each other, we have:

(y + 5) / 18 = (y - 5) / 9

Simplifying and solving for y:

2(y + 5) = y - 5

2y + 10 = y - 5

y = -15

Therefore, the value of y that makes the points (-6, -5), (12, y), and (3, 5) collinear is -15.

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1. For each of the following differential equations, determine the correct format of the particular solution, without bothering to determine the exact constants. (be sure to find the homogeneous solution of the corresponding equation first) (a) y" – 5y' - 6y = tet (b) y" + 2y' + 3y = 4 cos 5t (c) y" – y' = 3t2 + t sin 3t - 4tet (d) y" + 10y' + 25y = te-5t + 2t + sinh t (e) y + 4y' + 5y = 4e-2t - et cost - te-2 sint

Answers

(a) Particular solution is y_p(t) = (-1/11)t^2e^t

(b) Particular solution is y_p(t) = (2/9)cos(5t)

(c) Particular solution is y_p(t) = 0

(d) 2D + C = 1, -10D - 5A = 2, and -10B + 25A = sinh(t)

(e) Particular solution is y_p(t) = -e^(-2t) - (1/2)*cos(t) + (1/2)t^2e^(-2t) - (1/2)t^2cos(t).

Here are the particular solutions for the given differential equations:

(a) y" – 5y' – 6y = tet

Homogeneous solution: Characteristic equation is r^2 - 5r - 6 = 0. Solving, roots r1 = -1 and r2 = 6. The homogeneous solution is given by y_h(t) = C1e^(-t) + C2e^(6t), where C1 and C2 are constants.

Particular solution: y_p(t) = At^2e^t. Plug this into the differential equation and solve for A:

y_p''(t) - 5y_p'(t) - 6y_p(t) = tet

2Ae^t - 5(2Ate^t + At^2e^t) - 6(At^2e^t) = tet

2Ae^t - 10Ate^t - 5At^2e^t - 6At^2e^t = tet

(2A - 10At - 11At^2)e^t = tet

Comparing the coefficients of te^t and t^2e^t on both sides, we get:

2A - 10At - 11At^2 = t and 0 = t

Solving the first equation, we find A = -1/11 and substituting this value into the particular solution, we have:

y_p(t) = (-1/11)t^2e^t

Therefore, Particular solution is y_p(t) = (-1/11)t^2e^t.

(b) y" + 2y' + 3y = 4cos(5t)

Homogeneous solution: Characteristic equation is r^2 + 2r + 3 = 0. Solving, r1 = -1 + i√2 and r2 = -1 - i√2. y_h(t) = e^(-t)[C1cos(√2t) + C2sin(√2t)], where C1 and C2 are constants.

Particular solution: y_p(t) = Acos(5t) + Bsin(5t). Plug this:

y_p''(t) + 2y_p'(t) + 3y_p(t) = 4cos(5t)

-25Acos(5t) - 25Bsin(5t) + 10Asin(5t) - 10Bcos(5t) + 3Acos(5t) + 3Bsin(5t) = 4cos(5t)

Comparing the coefficients of cos(5t) and sin(5t) on both sides, we get:

-25A + 10A + 3A = 4 and -25B - 10B + 3B = 0

Solving, A = 4/18 = 2/9 and B = 0. Substituting, we have:

y_p(t) = (2/9)cos(5t)

Hence, Particular solution: y_p(t) = (2/9)cos(5t).

(c) y" – y' = 3t^2 + t*sin(3t) - 4te^t

Homogeneous solution: Characteristic equation is r^2 - r = 0. Solving, r1 = 0 and r2 = 1. The homogeneous solution is given by y_h(t) = C1 + C2e^t, where C1 and C2 are constants.

Particular solution: y_p(t) = At^3 + Bt^2 + Ct + De^t. Plug this into the differential equation and solve for A, B, C, and D:

y_p''(t) - y_p'(t) = 3t^2 + tsin(3t) - 4te^t

6A + 2B - C + De^t = 3t^2 + tsin(3t) - 4te^t

Comparing the coefficients of t^3, t^2, t, and e^t on both sides, we get:

6A = 0, 2B - C = 0, 0 = 3t^2 - 4t, and 0 = t*sin(3t)

A = 0. Substituting, we have 2B - C = 0, which implies C = 2B. The third equation represents a polynomial equation that can be solved to find t = 0 and t = 4/3 as roots. Therefore, t = 0 and t = 4/3 satisfy this equation. Substituting these values into the fourth equation, we find 0 = 0 and 0 = 0, which are satisfied for any value of t.

Hence, Particular solution is y_p(t) = 0.

(d) y" + 10y' + 25y = te^(-5t) + 2t + sinh(t)

Homogeneous solution: Characteristic equation is r^2 + 10r + 25 = 0. Solving, r1 = -5 and r2 = -5. Homogeneous solution y_h(t) = (C1 + C2t)e^(-5t), where C1 and C2 are constants.

Particular solution: y_p(t) = At + B + Cte^(-5t) + Dt^2e^(-5t). Plug this into the differential equation and solve for A, B, C, and D:

y_p''(t) + 10y_p'(t) + 25y_p(t) = te^(-5t) + 2t + sinh(t)

2D - 10Dt + Cte^(-5t) - 5Cte^(-5t) + 10Cte^(-5t) - 10B - 5At + 25At + 25B = te^(-5t) + 2t + sinh(t)

Comparing the coefficients of te^(-5t), t, and 1 on both sides, we get:

2D + C = 1, -10D - 5A = 2, and -10B + 25A = sinh(t)

To solve for A, B, C, and D, we need additional information about the non-homogeneous term for t.

(e) y + 4y' + 5y = 4e^(-2t) - e^t*cos(t) - te^(-2t)*sin(t)

Homogeneous solution: Characteristic equation is r + 4r + 5 = 0. Solving this equation, we find the roots r1 = -2 + i and r2 = -2 - i. The homogeneous solution is given by y_h(t) = e^(-2t)[C1cos(t) + C2sin(t)], where C1 and C2 are constants.

Particular solution: y_p(t) = Ae^(-2t) + Bcos(t) + Csin(t) + Dt^2e^(-2t) + Et^2cos(t) + Ft^2sin(t). Plug this into the differential equation and solve for A, B, C, D, E, and F:

y_p + 4y_p' + 5y_p = 4e^(-2t) - e^tcos(t) - te^(-2t)sin(t)

Ae^(-2t) + Bcos(t) + Csin(t) + 4(-2Ae^(-2t) - Bsin(t) + Ccos(t) - 2De^(-2t) + Ecos(t) - 2Fsin(t)) + 5(Ae^(-2t) + Bcos(t) + Csin(t)) = 4e^(-2t) - e^t*cos(t) - te^(-2t)*sin(t)

Comparing the coefficients of e^(-2t), cos(t), sin(t), t^2e^(-2t), t^2cos(t), and t^2*sin(t) on both sides, we get:

-2A + 4B + 5A - 2D = 4, -4B + C - 2E = 0, -4C - 2F = 0, -2A - 2D = 0, -2B + E = -1, and -2C - 2F = 0

Solving these equations, we find A = -1, B = -1/2, C = 0, D = 1/2, E = -1/2, and F = 0. Substituting these values into the particular solution, we have:

y_p(t) = -e^(-2t) - (1/2)*cos(t) + (1/2)t^2e^(-2t) - (1/2)t^2cos(t)

Therefore, Particular solution is y_p(t) = -e^(-2t) - (1/2)*cos(t) + (1/2)t^2e^(-2t) - (1/2)t^2cos(t).

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Henderson Section 6a: Problem 2 Previous Problem List Next (1 point) Find the solution of the exponential equation 10% = 15 in terms of logarithms. x = Preview My Answers Submit Answers You have attempted this problem 0 times. You have unlimited attempts remaining. Email instructor

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the solution of the exponential equation 10%x = 15 in terms of logarithms is [tex]x = -log_{10}(15)/log_{10}(10)[/tex].

The given exponential equation is 10%x = 15.

We need to find the solution of the exponential equation in terms of logarithms.

To solve the given equation, we first convert it to the logarithmic form using the following formula:

[tex]log_{a}(b) = c[/tex] if and only if [tex]a^c = b[/tex]

Taking logarithms to the base 10 on both sides, we get:

[tex]log_{10}10\%x = log_{10}15[/tex]

Now, by using the power rule of logarithms, we can write [tex]log_{10}10\%x[/tex] as [tex]x log_{10}10\%[/tex]

Using the change of base formula, we can rewrite [tex]log_{10}15[/tex] as [tex]log_{10}(15)/log_{10}(10)[/tex]

Substituting the above values in the equation, we get:

[tex]x log_{10}10\%[/tex] = [tex]log_{10}(15)/log_{10}(10)[/tex]

We know that [tex]log_{10}10\%[/tex] = -1, as [tex]10^{-1}[/tex] = 0.1

Substituting this value in the equation, we get:

x (-1) = [tex]log_{10}(15)/log_{10}(10)[/tex]

Simplifying the equation, we get:

x = -[tex]log_{10}(15)/log_{10}(10)[/tex]

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Use cylindrical coordinates Evaluate x2 dV, where E is the solid that lies within the cylinder x2 + y2 = 4, above the plane z = 0, and below the cone z2 = 25x2 + 25y2.

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To evaluate the expression [tex]x^2[/tex] dV within the given solid E, we can use cylindrical coordinates. The solid E lies within the cylinder [tex]x^2 + y^2 = 4[/tex], above the plane z = 0, and below the cone [tex]z^2 = 25x^2 + 25y^2[/tex].

To evaluate  [tex]x^2[/tex]dV, we need to express the volume element dV in cylindrical coordinates. In cylindrical coordinates, we have x = r*cos(θ), y = r*sin(θ), and z = z, where r is the distance from the origin to the point in the xy-plane, θ is the angle measured from the positive x-axis to the projection of the point onto the xy-plane, and z is the vertical coordinate.

The given solid lies within the cylinder [tex]x^2 + y^2 = 4[/tex], which can be expressed in cylindrical coordinates as [tex]r^2 = 4[/tex]. This implies that r = 2. Since the solid is above the plane z = 0, we know that z > 0.

Next, the solid lies below the cone [tex]z^2 = 25x^2 + 25y^2[/tex], which can be expressed in cylindrical coordinates as [tex]z^2 = 25r^2[/tex]. Taking the square root of both sides, we get z = 5r.

Therefore, the solid E can be described in cylindrical coordinates as 0 ≤ z ≤ 5r and 0 ≤ r ≤ 2.

To evaluate x² dV within this solid, we need to express x² in terms of cylindrical coordinates. Substituting x = r*cos(θ) into x², we have

x² = (r²cos²(θ)).

The volume element dV in cylindrical coordinates is given by dV = r dz dr dθ.Now we can set up the integral to evaluate x²dV within the solid E:

∫∫∫ x²dV = ∫∫∫(r²cos²(θ))(r dz dr dθ)

Integrating with respect to z, we have ∫0 to 5r (r³cos²(θ))dz.

Integrating with respect to r, we have ∫0 to 2 ∫0 to 5r (r³cos²(θ)) dz dr.

Integrating with respect to θ, we have ∫0 to 2 ∫0 to 5r ∫0 to 2π (r³*cos²(θ)) dθ dz dr.

Evaluating this triple integral will give us the final answer for x²dV within the solid E.

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The velocity function (in meters per second) for a certain particle, moving in a straight line, is v(t)=t^2-2t-8 for 1≤t≤6
 
A) Find the displacement of the particle over this period
 
B) Find the total distance by the particle over the time period

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the total distance traveled by the particle over the time period is 14/3 meters.

To find the displacement of the particle over the time period, we need to integrate the velocity function v(t) over the given interval.

A) Displacement:

The displacement is given by the definite integral of the velocity function v(t) over the interval [1, 6]:

Displacement = ∫[1, 6] (t^2 - 2t - 8) dt

To evaluate this integral, we can use the power rule of integration:

Displacement = [(1/3) * t^3 - t^2 - 8t] evaluated from 1 to 6

= [(1/3) * (6^3) - 6^2 - 8 * 6] - [(1/3) * (1^3) - 1^2 - 8 * 1]

= [72 - 36 - 48] - [1/3 - 1 - 8]

= -12 - (-22/3)

= -12 + 22/3

= (-36 + 22)/3

= -14/3

Therefore, the displacement of the particle over the time period is -14/3 meters.

B) Total Distance:

To find the total distance traveled by the particle over the time period, we need to consider the absolute value of the velocity function and integrate it over the interval [1, 6]:

Total Distance = ∫[1, 6] |t^2 - 2t - 8| dt

Since the velocity function is already non-negative for the given interval, we can calculate the total distance by evaluating the integral of v(t) directly:

Total Distance = ∫[1, 6] (t^2 - 2t - 8) dt

Using the same integral from part A, we can evaluate it as:

Total Distance = (-14/3) meters

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How many eggs are in 2 3/4 dozens grade 8 maths ​

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Answer:

33 eggs

Step-by-step explanation:

33 eggs, 12 in a dozen,

Please help. I will give brainliest

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My handwriting is a little bad but there u go!
Mark me as brainliest ✨

Determine whether the equation is exact. If it is exact, find the solution. If it is not, enter NS.
(4x2−2xy+5)dx+(5y2−x2+4)dy=0

Answers

The equation is exact, and its solution is given by[tex](4/3)x^3 - x^2y + 5x + 2y^2 = (5/3)y^3 - x^2y + 4y + (5/2)x^2 + C[/tex], where C is a constant..

The given equation is exact. To determine if an equation is exact, we check if the partial derivative of the function with respect to y is equal to the partial derivative of the function with respect to x. In this case,[tex]\frac{{\partial}}{{\partial y}}(4x^2 - 2xy + 5) = -2x \quad \text{and} \quad \frac{{\partial}}{{\partial x}}(5y^2 - x^2 + 4) = -2x[/tex]. Since the partial derivatives are equal, the equation is exact.

To find the solution, we integrate the coefficient of dx with respect to x and the coefficient of dy with respect to y. Integrating [tex]4x^2 - 2xy + 5[/tex] with respect to x gives [tex](4/3)x^3 - x^2y + 5x + g(y)[/tex], where g(y) is the constant of integration with respect to x. Then, integrating [tex]5y^2 - x^2 + 4[/tex] with respect to y gives [tex](5/3)y^3 - x^2y + 4y + h(x)[/tex], where h(x) is the constant of integration with respect to y.

To obtain the solution, we equate the mixed partial derivatives:[tex]\frac{{\partial}}{{\partial y}}\left(\frac{4}{3}x^3 - x^2y + 5x + g(y)\right) = \frac{{\partial}}{{\partial x}}\left(\frac{5}{3}y^3 - x^2y + 4y + h(x)\right)[/tex]. By comparing the terms, we find that g'(y) = 4y and h'(x) = 5x. Integrating both equations gives g(y) =[tex]2y^2 + C1[/tex]and h(x) = [tex](5/2)x^2 + C2[/tex], where C1 and C2 are constants of integration. Thus, the general solution to the exact equation is[tex](4/3)x^3 - x^2y + 5x + 2y^2 = (5/3)y^3 - x^2y + 4y + (5/2)x^2 + C.[/tex]

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Consider the following chart of values of a function f. X f(x) X f(x) 0.0 6.4 2.0 7.4 0.4 6.3 2.4 8.6 0.8 6.1 2.8 8.4 1.2 6.5 3.2 8.3 1.6 6.7 Use the Midpoint rule with the given data to approximate the value of 3.2 the integralf(a)dr. Notice that your answer in only as accurate as the 'input' we use, thus you need to round your answer to one decimal place. Hint: What is the n value? It is implied/given in the question and the data given.

Answers

Using the Midpoint rule, the approximate value of the integral ∫f(a) dx for the interval [3.2, 3.6] is approximately 3.32 (rounded to one decimal place).

To approximate the value of the integral ∫f(a) dx using the Midpoint rule with the given data, we need to calculate the areas of rectangles using the function values at the midpoints of the subintervals.

Looking at the given data, we can see that the subintervals have a width of 0.4 units (since the x-values increase by 0.4).

So, the value of n (the number of subintervals) is 2.

The midpoint of each subinterval is the average of the endpoints.

For the interval [3.2, 3.6], the midpoint is (3.2 + 3.6) / 2 = 3.4.

The corresponding function value at the midpoint is f(3.4) = 8.3.

Now, we can calculate the area of the rectangle by multiplying the function value by the width of the subinterval:

Area = f(3.4) * (3.6 - 3.2) = 8.3 * 0.4 = 3.32.

∴ For the interval [3.2, 3.6], value of the integral ∫f(a) dx≈3.32

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Find the area of the surface with parametric equations x = u^2, y = uv, z = v2/2, 0 ≤ u ≤ 5, 0 ≤ v ≤ 3.

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The surface area defined by the parametric equations x = u^2, y = uv, z = v^2/2 is 118.75 square units; where 0 ≤ u ≤ 5 and 0 ≤ v ≤ 3.

To is the area of ​​a place, we can use the model of that place for the parametric place. Formula:

A = ∫∫ (∂r/∂u) x (∂r/∂v)

dA

specifies the parametric equation where r(u, v) = (u^2, uv, v^2/2).

First we need to calculate the partial derivatives of (∂r/∂u) and (∂r/∂v):

∂r/∂u = (2u, v, 0)

∂r/∂v = (0 ) , u , v/2)

Next, we need to calculate the cross product of (∂r/∂u) x (∂r/∂v):

(∂r/∂u) x (∂r /∂v) = (v(v) /2, 2uv, -u^2)

Multiplying the size of the vector gives:

(∂r/∂u) x (∂r/∂v) = √( v^4/4 + 4u ^2v^2 + u ^4)

Now we integrate this magnitude at the given limit of u and v:

A = ∫[0.5]∫[0,3] √(v^4/4 + 4u^ 2v^2 + u^4) dv du

Calculating the two components together gives us the final answer:

A = 118.75 square units.

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Hint: Use method of undetermined coefficient Solve using the differential operator D=d/dx y" - 2y + 5y = 4efcos 2x + x2 ' 2

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The given differential equation is, $$y''-2y+5y=4\ e^{f}\cos 2x + x^2\ \mathbf{'\ }2\ ...(1)$$Here we need to use the method of undetermined coefficients to solve the above differential equation by using the differential operator D=d/dxStep-by-step explanation:

Using the differential operator D=d/dx, we can write the given differential equation as,$$(D^2-2D+5)y=4\ e^{f}\cos 2x + x^2\ \mathbf{'\ }2\ ...(2)$$The characteristic equation of the differential operator D^2 - 2D + 5 is given by, $$(D^2-2D+5)=0$$$$D=\frac{2\pm \sqrt{4-4\times 5}}{2}$$$$D=1\pm 2\mathrm{i}$$So, the general solution of the homogeneous differential equation $(D^2-2D+5)y=0$ is given by,$$y_h=e^{\alpha x}(c_1\cos \beta x+c_2\sin \beta x)$$$$y_h=e^{x}(c_1\cos 2x+c_2\sin 2x)$$where $\alpha=1$ and $\beta=2$.Now, let's find the particular solution of the given non-homogeneous differential equation.Using the method of undetermined coefficients, we assume the particular solution of the form,$$y_p=A\ e^{f}\cos 2x+B\ e^{f}\sin 2x+C\ x^2+D\ x$$Differentiating $y_p$ with respect to x, we get, $$y_p'=-2A\ e^{f}\sin 2x+2B\ e^{f}\cos 2x+2Cx+D$$$$y_p''=-4A\ e^{f}\cos 2x-4B\ e^{f}\sin 2x+2C$$Substituting these values in equation (2), we get, $$(-4A+10B)\ e^{f}\cos 2x+(-4B-10A)\ e^{f}\sin 2x+2C\ x^2+2D\ x=4\ e^{f}\cos 2x + x^2\ \mathbf{'\ }2$$Equating the real parts and imaginary parts, we get,$$\begin{aligned} -4A+10B&=4 \\ -4B-10A&=0 \end{aligned}$$$$A=-\frac{1}{2}$$and$$B=\frac{1}{5}$$Therefore, the particular solution of the given non-homogeneous differential equation is,$$y_p=-\frac{1}{2}\ e^{f}\cos 2x+\frac{1}{5}\ e^{f}\sin 2x+\frac{1}{2}\ x^2-\frac{1}{10}\ x$$Thus, the general solution of the given differential equation is,$$y=y_h+y_p$$$$y=e^{x}(c_1\cos 2x+c_2\sin 2x)-\frac{1}{2}\ e^{f}\cos 2x+\frac{1}{5}\ e^{f}\sin 2x+\frac{1}{2}\ x^2-\frac{1}{10}\ x$$

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it is often reasonable to assume that e(x) 5 0 and that x has a normal distribution. thus the pdf of any particular measurement error is

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The PDF of any particular measurement error is: f(x) = (1 / (σ * sqrt(2 * π))) * e^(-x^2 / (2 * σ^2))

Based on the given statement, we can assume that the expected value of the measurement error (e(x)) is equal to 0, which implies that on average, there is no systematic bias or tendency to overestimate or underestimate the true value. Additionally, it is assumed that the distribution of the measurement error follows a normal distribution, which means that the majority of the errors are small and close to zero, with fewer and fewer errors as they become larger in magnitude. The probability density function (pdf) of the measurement error would therefore be bell-shaped and symmetric around the mean of 0, with a spread or standard deviation that characterizes the variability of the errors.
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How many non-isomorphic trees with 5 vertices are there? (A tree is a connected graph with no cycles): (A) 1 (B) 2 (C) 3 (D) 4"

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There are 15 non-isomorphic trees with 5 vertices. Hence the option C is correct.

The question is asking about the number of non-isomorphic trees with five vertices.

A tree is a connected graph with no kind of cycles.

So, for the given problem, we are required to find out the total number of non-isomorphic trees with 5 vertices.

We know that the number of non-isomorphic trees with n vertices is equal to n*(n-2)

For the given problem, n = 5

Therefore, the number of non-isomorphic trees with 5 vertices is equal to 5*(5-2) = 15

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Find at least one point at which each function is not continuous
and state which of the 3 conditions in the definition of continuity
is violated at that point. a)/(x) = x + 1 x-1 Cx+1 if x1, b)/(x)
x-

Answers

The function a)/(x) = x + 1 is not continuous at x = 1, violating the condition of continuity at that point. The function b)/(x) is not specified, so it is not possible to identify a point where it is not continuous.

To determine points where a function is not continuous, we need to examine the three conditions of continuity:

The function is defined at the point: For the function a)/(x) = x + 1, it is defined for all real values of x, so this condition is satisfied.

The limit exists at the point: We calculate the limit of a)/(x) as x approaches 1. Taking the limit as x approaches 1 from the left side, we get lim(x→1-) (x + 1) = 2. Taking the limit as x approaches 1 from the right side, we get lim(x→1+) (x + 1) = 2. Both limits are equal, so this condition is satisfied.

The value of the function at the point is equal to the limit: Evaluating a)/(x) at x = 1, we get a)/(1) = 2. Comparing this with the limit we calculated earlier, we see that the function has the same value as the limit at x = 1, satisfying this condition of continuity.

Therefore, the function a)/(x) = x + 1 is continuous for all values of x, including x = 1. As for the function b)/(x), without specifying the actual function, it is not possible to identify a point where it is not continuous.

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Evaluate the improper integrat X2 or show that it wave Exercise 4 Evoldte timproper oregrar show that it is diesen

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To evaluate the improper integral ∫(x²)dx or determine if it diverges, we first integrate the function.

∫(x²)dx = (1/3)x³+ C,

where C is the constant of integration.

Improper integral ∫(x²)dx: Converges or Diverges?

Now, let's analyze the behavior of the integral at the boundaries to determine if it converges or diverges.

Case 1: Integrating from negative infinity to positive infinity (∫[-∞, ∞] (x²)dx):

For this case, we evaluate the limits of the integral at the boundaries:

∫[-∞, ∞] (x²)dx = lim┬(a→-∞)⁡〖(1/3)x³ 〗-lim┬(b→∞)⁡〖(1/3)x³ 〗.

As x³ grows without bound as x approaches either positive or negative infinity, both limits diverge to infinity. Therefore, the integral from negative infinity to positive infinity (∫[-∞, ∞] (x²)dx) diverges.

Case 2: Integrating from a finite value to positive infinity (∫[a, ∞] (x²dx):

For this case, we evaluate the limits of the integral at the boundaries:

∫[a, ∞] (x²)dx = lim┬(b→∞)⁡〖(1/3)x² 〗-lim┬(a→a)⁡〖(1/3)x² 〗.

The first limit diverges to infinity as x^3 grows without bound as x approaches infinity. However, the second limit evaluates to a finite value of (1/3)a², as long as a is not negative infinity.

Hence, if a is a finite value, the integral from a to positive infinity (∫[a, ∞] (x²)dx) diverges.

In summary, the improper integral of ∫(x²)dx diverges, regardless of whether it is integrated from negative infinity to positive infinity or from a finite value to positive infinity.

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A product's demand in each period follows a Normal distribution with mean 50 and standard deviation 6. The order up to level S is 225. Lead time is 3 periods. What is the stock out probability ? Show all calculations, formulas used and results.

Answers

The stockout probability is extremely small, as the z-score of 7.22 corresponds to a very high demand compared to the available stock.

What is probability?

Probability is a fundamental concept in mathematics and statistics that quantifies the likelihood of an event occurring. It represents a numerical measure between 0 and 1, where 0 indicates an event is impossible, and 1 denotes the event is certain to happen.

Given:

Mean demand per period[tex](\(\mu\))[/tex] = 50

Standard deviation of demand per period[tex](\(\sigma\))[/tex]= 6

Order-up-to level [tex](\(S\)) = 225[/tex]

Lead time [tex](\(L\)) = 3 periods[/tex]

We can calculate the demand during the lead time as follows:

Mean demand during the lead time: [tex]\(\mu_L = \mu \times L\)[/tex]

Standard deviation of demand during the lead time:[tex]\(\sigma_L = \sigma \times \sqrt{L}\)[/tex]

Substituting the given values, we have:

[tex]\(\mu_L = 50 \times 3 = 150\)\(\sigma_L = 6 \times \sqrt{3} \approx 10.39\)[/tex]

To calculate the stockout probability, we need to compare the demand during the lead time to the available stock. Since the demand follows a Normal distribution, we can use the z-score formula:

[tex]\(z = \frac{S - \mu_L}{\sigma_L}\)[/tex]

where \(S\) is the order-up-to level.

Substituting the values, we have:

[tex]\(z = \frac{225 - 150}{10.39} \approx 7.22\)[/tex]

We can then use a standard Normal distribution table or a statistical software to find the probability of a z-score being greater than 7.22. The stockout probability is equal to this probability.

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Find an equation of the sphere with center (-5, 1, 5) and radius 7. x2 + y2 +22 - 10x – 2y – 102 – 2=0| х +z What is the intersection of this sphere with the yz-plane?

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The equation of the sphere with center (-5, 1, 5) and radius 7 is

[tex]x^{2} +y^{2} +z^{2} +10x-2y-10z+2=0[/tex] . The intersection of the sphere with the yz-plane is given by the equation [tex]y^{2} +z^{2} -2y-10z+2=0[/tex].

To find the equation of the sphere with a center (-5, 1, 5) and radius of 7, we can use the general equation of a sphere:
[tex](x-h)^{2} +(y-k)^{2} +(z-l)^{2} =r^{2}[/tex]   where (h, k, l) is the center of the sphere, and r is the radius.

Substituting the given values, we have:

[tex](x+5)^{2} +(y-1)^{2} +(z-5)^{2} =7^{2}[/tex]

Expanding and simplifying, we get:

[tex]x^{2} +y^{2} +z^{2} +10x-2y-10z+2=0[/tex]

Therefore, the equation of the sphere with center (-5, 1, 5) and radius 7 is

[tex]x^{2} +y^{2} +z^{2} +10x-2y-10z+2=0[/tex]

Now, let's find the intersection of this sphere with the yz-plane, which means we need to find the values of y and z when x is zero (x = 0).

Substituting x = 0 into the equation of the sphere, we have:

[tex]y^{2} +z^{2} -2y-10z+2=0[/tex]

Since we're looking for the intersection with the yz-plane, we can set x = 0 in the equation of the sphere. The resulting equation is [tex]y^{2} +z^{2} -2y-10z+2=0[/tex]

Therefore, the intersection of the sphere with the yz-plane is given by the equation [tex]y^{2} +z^{2} -2y-10z+2=0[/tex].

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The fact that a thermometer "takes its own temperature" illustratesA) thermal equilibrium.B) energy conservation.C) the difference between heat and thermal energy.D) that molecules are constantly moving. which of the following threats would be classified as the actions of a hactivist? true/false : voltage across the coil is determined by the magnitude of the inductance of the coil and by the rate of change of current through the coil. Which type of energy is created by splitting atoms?A. FusionB. GeothermalC. FissionD. Tidal Question 6. Find the area of the portion of the plane 3x + 4y + 2z = 24 that lies in the first octant. What is the area of a rectangle whose width is n feet and whos length is 2 feet more than 3 times its width in terms of n? A business plan is a written document that sets out the basic idea underlying a business and its related startup considerations. a. True b. False. Write a descriptive paragraph on the topic mount rasdejen (5%) Each list represents a different social network for you and most likely it overlaps with other networks. Label the list that you develop for each number by giving a name for each list to represent a particular social network. You can create for example "a family tree," "a professional career support network," or "a personal advice network." You please choose a specific student laptop in Vietnam such as Acer Swift SF114 32 P2SG, Lenovo Ideapad S145 or other modelsand answer the following questions: 1. What are characteristics of the target market (Vietnamese students) related to buying the laptop model? Please explain the impact of the characteristics on buying decisions of the target market for buying the laptop model. 2. Analyze the marketing mix strategy of the manufacture for the laptop model and use your knowledge to evaluate the marketing mix strategy and suggest your marketing mix strategy for the laptop model. If the price of shipping crates used by most apple growers falls, the price of apples will a rise b. fall c. either a. or b. could happen as a result of a rise in the price of this fertilizer d. neither a nor b. is likely to happen as a result of a rise in the price of this fertilizer QUESTION 4 If apples and frozen pie crust (used to make apple pies) are goods that are complementary to each other, a fall in the price of shipping crates used by most apple growers will cause the demand for pie crust to a. rise b. fall c. first rise, then fall d. first fall, then rise. Describe the components of shareholders' equity. Under which section of a statement of cash flows would the proceeds received from the sale of long-term depreciable assets most likely appear? A. Operating cash flows B. Investing cash flows C. Long-term assets D. Financing cash flows All the accounts on this list are included in NOA?a) Cash and Cash Equivalentsb) Receivables, netc) Inventory, netd) Property, Plant & Equipment, nete) Goodwill, netf) Note Receivable, long-term Solve the problem. The Olymplo fare at the 1992 Summer Olympics was lit by a flaming arrow. As the arrow moved d feet horizontally from the archer assume that its height hd). In foet, was approximated by the function (d) -0.00342 .070 +69. Find the relative maximum of the function (175, 68.15) (350.1294) (175, 61.25) (0.6.9) Find all the antiderivatives of the following function. Check your work by taking the derivative. f(x) = 3 sin x + 5 The antiderivatives of f(x) = 3 sin x + 5 are F(x)=. = the approximate probability that the market will have a proportion of fish with dangerously high levels of mercury that is more than three standard errors above is html is the authoring language developed to create web pages and define the structure and layout of a web document. true false according to the clear and present danger test, speech may be restricteda. when it incites violent actionb. when it lacks a political purposec. whenever the u.s. is at ward. if it is deemed offensive to religious organizationse. if the writer or speaker is not a citizen of the u.s. Which of the following is LEAST likely to improve employee engagement?a) treating workers with trust and respectb) encouraging workers to be innovativec) identifying workers for job enlargementd) assigning workers to jobs that utilize their skills