Solve the differential equation y" + 4y' - 5y = 2x - 1 by first finding the particular solution, Yp, and then finding the general solution. You may use the results from the previous problem.

Answers

Answer 1

The general solution of the given differential equation is [tex]Y = Yc + Yp = c1e^x + c2e^(-5x) + (-2/5)x - 13/25[/tex]. 

To find a definite solution Yp, assume a definite solution of the form Yp = ax + b. where a and b are constants. Taking the derivative of Yp gives Yp' = a and Yp" = 0. Substituting these derivatives into the original differential equation gives:

0 + 4a - 5(ax + b) = 2x - 1.

Simplifying the equation, -5ax + (4a - 5b) = 2x - 1. Equalizing the coefficients of equal terms on both sides gives -5a = 2 and 4a - 5b = -1. Solving these equations gives a = -2/5 and b = -13/25. So the special solution is Yp = (-2/5)x - 13/25.

To find the general solution, we need to consider the complement Yc, which is the solution of the homogeneous equation [tex]y" + 4y' - 5y = 0[/tex]. Using the result of the previous problem, we obtain the general solution of the homogeneous equation It turns out that the equation is Yc = c1e^x + c2e^(-5x) where c1 and c2 are constants.

Combining the special solution and the complement, the general solution of the given differential equation is [tex]Y = Yc + Yp = c1e^x + c2e^(-5x) + (-2/5)x - 13/25[/tex].

Therefore, the general solution contains both complement functions and special solutions, and can completely represent all solutions of a given differential equation.


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Related Questions

The radius of a circle is 19 m. Find its area to the nearest whole number.

Answers

Answer:

1,134 m²

Step-by-step explanation:

area of a circle = πr²

value of π = 3.14

= 3.14 * (19)²

= 3.14 * 361

= 1,133.54

by rounding off to the nearest whole number,

area of a circle = 1,134 m²

Answer:

1134

Step-by-step explanation:

area of a circle is πrsquare

and π=3.14 so 3.14 multiplied by 19 square=1133.54 approximated to the nearest whole number is 1134

consider the cosine function cos : r → r. decide whether this function is injective and whether it is surjective. what if it had been defined as cos : r → [−1,1]?

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The cosine function, cos: R → R, is not injective but is surjective. If the function had been defined as cos: R → [-1, 1], it would still not be injective, but it would be surjective.

The cosine function, cos: R → R, is not injective because it fails the horizontal line test. The cosine function oscillates between values of -1 and 1 over the entire real number line, repeating its values after every period of 2π. This means that multiple input values (angles) can produce the same output value (cosine). Therefore, there exist different real numbers that map to the same value under the cosine function, making it not injective.

However, the cosine function is surjective because it takes on every value in the range of real numbers. For any given real number y, there exists an input value x such that cos(x) = y. This is because the cosine function has a range of (-1, 1), and it covers all values in that range as it oscillates.

If the cosine function had been defined as cos: R → [-1, 1], the function would still not be injective because it would still fail the horizontal line test. However, it would remain surjective because the range of the function matches the specified interval [-1, 1], and every value within that interval can be reached by the cosine function.

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Question Consider the following double integral 1 = 2₂ dy dx. By converting I into an equivalent double integral in polar coordinates, we obtain: 1 = f for dr de 1 = 2² dr do This option None of th

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The conversion of the given double integral [tex]1 = 2_2 dy dx[/tex] does not result in the option "[tex]1 = f[/tex] for [tex]dr d\theta[/tex]" or "[tex]1 = 2^2 dr d\theta[/tex]". The correct option is "None of these".

To convert a double integral from rectangular coordinates (dy dx) to polar coordinates, we use the transformation formula dx dy = r dr dθ. Applying this formula to the given integral, we have:

[tex]1 = 2_2 dy dx\\= 2_2 dy dx\\= 2_2 r dr d\theta[/tex] [Using the conversion formula]

However, this does not match either of the options given. The correct expression for the equivalent double integral in polar coordinates is 1 = 2₂ r dr dθ. This indicates that the integration is performed over the range of values for r and θ that define the desired region.

Therefore, the given options do not correctly represent the equivalent double integral in polar coordinates for the given integral. The correct answer is "None of these".

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Consider the following equation: In(4x + 5) + 4x = 25. Find an integer n so that the interval (n, n+1) contains a solution to this equation. n

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Given equation is ln(4x + 5) + 4x = 25. We are required to find an integer n so that the interval (n, n+1) contains a solution to this equation.

To solve this equation, we have to use numerical methods. We can use the trial and error method or use graphical methods to find the solution.Let's consider the graphical method:First, let's plot the graphs of y = ln(4x + 5) + 4x and y = 25 and see where they intersect. We can use the Desmos graphing calculator for this.Step 1: Visit the Desmos Graphing Calculator website.Step 2: Enter the equations y = ln(4x + 5) + 4x and y = 25 in the given field.Step 3: Adjust the window of the graph to see the intersection points, which are shown in the image below.Image of the graph shown on Desmos calculator.The graph of y = ln(4x + 5) + 4x intersects the graph of y = 25 in the interval (4, 5).Thus, n = 4.Therefore, the solution is as follows:n = 4.

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II WILL GIVE GOOD RATE FOR GOOD ANSWER
: Question 2 Second Order Homogeneous Equation. Consider the differential equation & : x"(t) – 4x'(t) + 4x(t) = 0. (i) Find the solution of the differential equation E. (ii) Assume x(0) = 1 and x'(0

Answers

i. The general solution of the differential equation is given by:

[tex]x(t) = C_1e^{(2t)} + C_2te^{(2t)[/tex]

ii. The solution of the differential equation E: x"(t) - 4x'(t) + 4x(t) = 0 is x(t) = [tex]e^{(2t)[/tex].

What is homogeneous equation?

If f x, y is a homogeneous function of degree 0, then d y d x = f x, y is said to be a homogeneous differential equation. As opposed to this, the function f x, y is homogeneous and of degree n if and only if any non-zero constant, f x, y = n f x, y

To solve the given second-order linear homogeneous differential equation E: x"(t) - 4x'(t) + 4x(t) = 0, let's find the solution using the characteristic equation method:

(i) Finding the general solution of the differential equation:

Assume a solution of the form [tex]x(t) = e^{(rt)}[/tex], where r is a constant. Substituting this into the differential equation, we have:

[tex]r^2e^{(rt)} - 4re^{(rt)} + 4e^{(rt)} = 0[/tex]

Dividing the equation by [tex]e^{(rt)[/tex] (assuming it is non-zero), we get:

[tex]r^2 - 4r + 4 = 0[/tex]

This is a quadratic equation that can be factored as:

(r - 2)(r - 2) = 0

So, we have a repeated root r = 2.

The general solution of the differential equation is given by:

[tex]x(t) = C_1e^{(2t)} + C_2te^{(2t)[/tex]

where [tex]C_1[/tex] and [tex]C_2[/tex] are constants to be determined.

(ii) Assuming x(0) = 1 and x'(0) = 2:

We are given initial conditions x(0) = 1 and x'(0) = 2. Substituting these values into the general solution, we can find the specific solution of the differential equation associated with these conditions.

At t = 0:

[tex]x(0) = C_1e^{(2*0)} + C_2*0*e^{(2*0)} = C_1 = 1[/tex]

At t = 0:

[tex]x'(0) = 2C_1e^{(2*0)} + C_2(1)e^{(2*0)} = 2C_1 + C_2 = 2[/tex]

From the first equation, we have [tex]C_1 = 1[/tex]. Substituting this into the second equation, we get:

[tex]2(1) + C_2 = 2[/tex]

[tex]2 + C_2 = 2[/tex]

[tex]C_2 = 0[/tex]

Therefore, the specific solution of the differential equation associated with the given initial conditions is:

x(t) = [tex]e^{(2t)[/tex]

So, the solution of the differential equation E: x"(t) - 4x'(t) + 4x(t) = 0 is x(t) = [tex]e^{(2t)[/tex].

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(1 point) Write each vector in terms of the standard basis vectors i, j, k. (2,3) = = (0, -9) = = (1, -5,3) = = 000 (2,0, -4) = =

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To write each vector in terms of the standard basis vectors i, j, k, we express the vector as a linear combination of the standard basis vectors. The standard basis vectors are i the = (1, 0, 0), j = (0, 1, 0), and k = (0, 0, 1).

1) (2, 3) = 2i + 3j

2) (0, -9) = 0i - 9j = -9j

3) (1, -5, 3) = 1i - 5j + 3k

4) (2, 0, -4) = 2i + 0j - 4k = 2i - 4k

By expressing the given vectors in terms of the standard basis vectors, we represent them as the linear combinations of the i, j, and the k vectors.

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The Mean Value Theorem: If f is continuous on a closed interval (a,b) and differentiable on (a,b), then there is at least one point c in (a,b) such that f'(a) f(b) – f(a) b-a (a) (3 points) The dist

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The Mean Value Theorem states that If f is continuous on a closed interval (a,b) and differentiable on (a,b), then there is at least one point c in (a,b) such that f'(a) f(b) – f(a) b-a (a). The average velocity of the object over the time interval [a,b] is equal to the instantaneous velocity of the object at time c.

The average velocity of the object over the time interval [a,b] is given by:

(a) (3 points) (f(b) - f(a))/(b - a)

The instantaneous velocity of the object at time c is given by the derivative of the distance function f at time c, or f'(c). We want to show that there exists a time c in [a,b] such that these two velocities are equal, or:

f'(c) = (f(b) - f(a))/(b - a)

By the Mean Value Theorem, since f is continuous on [a,b] and differentiable on (a,b), there exists a time c in (a,b) such that:

f'(c) = (f(b) - f(a))/(b - a)

Therefore, there exists a time c in [a,b] such that the average velocity of the object over the time interval [a,b] is equal to the instantaneous velocity of the object at time c.

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52 cards in the deck of cards which are divided into 4 different
colors. When randomly selecting five cards, what is the probability
that you get all of them of the same colour?

Answers

the probability of getting all five cards of the same color (in this case, all hearts) is approximately 0.000494 or 0.0494%.

To calculate the probability of getting all five cards of the same color, we need to consider the number of favorable outcomes (getting five cards of the same color) and the total number of possible outcomes (all possible combinations of five cards).

There are four different colors in the deck: hearts, diamonds, clubs, and spades.

assume we want to calculate the probability of getting all five cards of hearts.

Favorable outcomes: There are 13 hearts in the deck, so we need to choose 5 hearts out of the 13 available.

Possible outcomes: We need to choose 5 cards out of the total 52 cards in the deck.

The probability can be calculated as:

P(5 cards of hearts) = (Number of favorable outcomes) / (Total number of possible outcomes)                     = (Number of ways to choose 5 hearts) / (Number of ways to choose 5 cards from 52)

Number of ways to choose 5 hearts = C(13, 5) = 13! / (5!(13-5)!) = 1287

Number of ways to choose 5 cards from 52 = C(52, 5) = 52! / (5!(52-5)!) = 2598960

P(5 cards of hearts) = 1287 / 2598960 ≈ 0.000494

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Question * Let D be the region bounded below by the cone z = √x² + y² and above by the sphere x² + y² + z² = 25. Then the z-limits of integration to find the volume of D, using rectangular coor

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To find the volume of the region D bounded below by the cone [tex]z=\sqrt{x^2+y^2}[/tex] and above by the sphere [tex]x^2+y^2+z^2=25[/tex], using rectangular coordinates, the z-limits of integration need to be determined. The z-limits depend on the intersection points of the cone and the sphere.

To determine the z-limits of integration for finding the volume of region D, we need to find the intersection points of the cone [tex]z=\sqrt{x^2+y^2}[/tex] and the sphere [tex]x^2+y^2+z^2=25[/tex]. Setting these equations equal to each other, we have [tex]\sqrt{x^2+y^2}=\sqrt{25-x^2-y^2}[/tex]. Squaring both sides, we get [tex]x^2+y^2=25-x^2-y^2[/tex]. Simplifying, we obtain [tex]2x^2+2y^2=25[/tex]. Rearranging, we have [tex]x^2+y^2=12.5[/tex]. This equation represents the intersection curve between the cone and the sphere. By examining this curve, we can determine the z-limits of integration.

Since the cone is defined as [tex]z=\sqrt{x^2+y^2}[/tex], the lower z-limit is given by z = 0. For the upper z-limit, we need to find the z-coordinate of the intersection curve between the cone and the sphere. By substituting [tex]x^2+y^2=12.5[/tex] into the equation of the cone, we have [tex]z=\sqrt{12.5}[/tex]. Therefore, the upper z-limit is [tex]z=\sqrt{12.5}[/tex]. Hence, the z-limits of integration for finding the volume of region D using rectangular coordinates are 0 to [tex]\sqrt{12.5}[/tex].

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Use the formula for the sum of a geometric series to find the sum. (Use symbolic notation and fractions where needed. Enter the symbol oo if the series diverges.) M8 12(-2)" – 71 8" = 00 n=0 Incorre

Answers

The sum of the given geometric series, M = Σ(12(-2)^n), where n starts from 0, is ∞ (infinity).


The given series is M = Σ(12(-2)^n), where n starts from 0.

To find the sum of the geometric series, we can use the formula:
M = a * (1 - r^N) / (1 - r)
where M is the sum, a is the first term, r is the common ratio, and N is the number of terms. In this case, a = 12, r = -2, and N approaches infinity as it's not specified.

Since the absolute value of the common ratio (|-2| = 2) is greater than 1, the series will diverge. Therefore, the sum of the series is ∞ (infinity).

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18. Evaluate the integral (show clear work!): fxsin x dx

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The integral of f(x) * sin(x) dx is -f(x) * cos(x) + integral of f'(x) * cos(x) dx + C, where C is the constant of integration.

To evaluate the integral of f(x) * sin(x) dx, we use integration by parts. The formula for integration by parts states that ∫ u dv = u v - ∫ v du, where u and v are functions of x.

Let's choose u = f(x) and dv = sin(x) dx. Taking the derivatives and antiderivatives, we have du = f'(x) dx and v = -cos(x).

∫ f(x) * sin(x) dx

Using integration by parts, let's choose u = f(x) and dv = sin(x) dx.

Differentiating u, we have du = f'(x) dx.

Integrating dv, we have v = -cos(x).

Applying the integration by parts formula:

∫ f(x) * sin(x) dx = -f(x) * cos(x) - ∫ (-cos(x)) * f'(x) dx

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Which of the following statement is true for the alternating series below? 2 Ž(-1)" 3" +3 n=1 Select one: Alternating Series test cannot be used, because bn = 3.73 2 is not decreasing. " Alternating Series test cannot be used, 2 because lim +0. 1- 3" + 3 The series converges by Alternating Series test. none of the others. O The series diverges by Alternating Series test

Answers

For the alternating series ((2 sum_n=1infty (-1)n (3n + 3)), the following statement is true: "The series converges by the Alternating Series test."

According to the Alternating Series test, if a series satisfies both of the following requirements: (1) the absolute value of the terms is dropping, and (2) the limit of the series as it approaches infinity is zero.

We have the sequence "a_n = 3n + 3" in the provided series. Even though the statement does not specify directly that the value of (|a_n|) is decreasing, we can see that as n increases, the terms (3n) grow larger and the value of (a_n) alternates in sign. This shows that the value of (|a_n|) is probably declining.

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Find the solution of the system of equations.



7

=
−x−7y=



41
−41


6

=
x−6y=



37
−37

Answers

The required values x is -1 and y is 6.

Given that the system of equations are ;

Equation 1: -x-7y = -41 and Equation 2: x-6y = -37.

To find the values of x and y, consider two equations and  solve by elimination method. That states cancel any one variable either by adding or  subtracting, then the other variable can be found by substituting the one variable in any one equation.

Add equation 1 and equation 2 gives,

[tex]\begin{array}{cccc}-x&-7y&=-41\\x&-6y&=-37\\+&-----&--------\\0&-13y&=-78\end{array}[/tex]

That implies, -13y = -78

Divide by -13 on both sides gives,

y = 6.

Substitute the value y = 6 in the equation 2 gives,

x - 6 (6) = -37

On multiplying gives,

x - 36 = -37

On adding by 36 on both sides gives,

x = -1.

Hence, the required values x is -1 and y is 6.

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If æ(t) = ln (10t) and y(t) = 5t+3, eliminate the parameter to write the parametric equations as a Cartesian equation. Select the correct answer below: x = ln (2y – 6) O x = ln (2y – š) O x = ln (50y +30) O x = ln (2y – 30)

Answers

The parametric equations can be expressed as a Cartesian equation:

x = ln(2y - 6).

To eliminate the parameter and write the parametric equations as a Cartesian equation, we need to express the parameter (t) in terms of the Cartesian variables (x and y). Let's begin by solving the second equation for t:

y(t) = 5t + 3

Subtracting 3 from both sides:

5t = y - 3

Dividing both sides by 5:

t = (y - 3) / 5

Now we can substitute this value of t into the first equation:

æ(t) = ln(10t)

æ((y - 3) / 5) = ln(10((y - 3) / 5))

æ((y - 3) / 5) = ln(2(y - 3))

So, the correct answer is:

x = ln(2(y - 3))

Therefore, the option "x = ln(2y - 6)" is the correct answer.

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(b) y = 1. Find for each of the following: (a) y = { (c) +-7 (12 pts) 2. Find the equation of the tangent line to the curve : y += 2 + at the point (1, 1) (Ppts) 3. Find the absolute maximum and absol

Answers

2. The equation of the tangent line to the curve [tex]y = x^2+ 2[/tex] at the point (1, 1) is y = 2x - 1.

3. The absolute maximum value of f(x) = -12x + 1 on the interval [1, 3] is -11, and the absolute minimum value is -35.

2. Find the equation of the tangent line to the curve: [tex]y = x^2+ 2[/tex] at the point (1, 1).

To find the equation of the tangent line, we need to determine the slope of the tangent line at the given point and use it to form the equation.

Given point:

P = (1, 1)

Step 1: Find the derivative of the curve

dy/dx = 2x

Step 2: Evaluate the derivative at the given point

m = dy/dx at x = 1

m = 2(1) = 2

Step 3: Form the equation of the tangent line using the point-slope form

[tex]y - y_1 = m(x - x_1)y - 1 = 2(x - 1)y - 1 = 2x - 2y = 2x - 1[/tex]

3. Find the absolute maximum and absolute minimum values of f(x) = -12x + 1 on the interval [1, 3].

To find the absolute maximum and minimum values, we need to evaluate the function at the critical points and endpoints within the given interval.

Given function:

f(x) = -12x + 1

Step 1: Find the critical points by taking the derivative and setting it to zero

f'(x) = -12

Set f'(x) = 0 and solve for x:

-12 = 0

Since the derivative is a constant and does not depend on x, there are no critical points within the interval [1, 3].

Step 2: Evaluate the function at the endpoints and critical points

f(1) = -12(1) + 1 = -12 + 1 = -11

f(3) = -12(3) + 1 = -36 + 1 = -35

Step 3: Determine the absolute maximum and minimum values

The absolute maximum value is the largest value obtained within the interval, which is -11 at x = 1.

The absolute minimum value is the smallest value obtained within the interval, which is -35 at x = 3.

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The complete question is -

2. Find the equation of the tangent line to the curve: y += 2 + at the point (1, 1).

3. Find the absolute maximum and absolute minimum values of f(x) = -12x +1 on the interval [1, 3].

please use calculus 2 techniques all work.
thank you
Find the equation for the line tangent to the curve 2ey = x + y at the point (2, 0). Explain your work. Use exact forms. Do not use decimal approximations.

Answers

Simplifying the equation, we have y = 2x - 4, which is the equation of the tangent line to the curve at the point (2, 0).

To find the equation of the tangent line, we first need to find the derivative of the curve. Taking the derivative of the given equation with respect to x will give us the slope of the tangent line at any point on the curve.Differentiating the equation 2ey = x + y with respect to x using the chain rule, we get d/dx(2ey) = d/dx(x + y). The derivative of ey with respect to x can be found using the chain rule, which gives us d(ey)/dx = (d(ey)/dy) * (dy/dx) = ey * (dy/dx).

Applying the derivative to the equation, we have 2ey * (dy/dx) = 1 + 1. Simplifying, we get (dy/dx) = (2ey)/(2ey - 1).Next, we evaluate the derivative at the given point (2, 0). Substituting x = 2 and y = 0 into the derivative, we have (dy/dx) = (2e0)/(2e0 - 1) = 2/1 = 2.Now that we have the slope of the tangent line, we can use the point-slope form of a line, y - y1 = m(x - x1), where (x1, y1) is the given point (2, 0), and m is the slope 2. Plugging in the values, we get y - 0 = 2(x - 2).

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= = = 7. (40 pts) Solve the following ODE Y" +4y' + 4y = e-4t[u(t) – uſt – 1)] y(0) = 0; y'(0) = -1" ignore u(t-1) t for the Fall 2021 final exam

Answers

Using the inverse Laplace Transform, we get y(t) = (1/2)[tex]e^{-2t}[/tex]  + (1/2)t [tex]e^{-2t}[/tex] + u(t-1)[(t-1)[tex]e^{2(t-1)}[/tex]- 1/2]. Finally, the solution of the ODE is y(t) = (1/2)[tex]e^{-2t}[/tex] + (1/2)t [tex]e^{-2t}[/tex]  + u(t-1)[(t-1)[tex]e^{2(t-1)}[/tex] - 1/2] for t in the interval [0, infinity).

Solve the ODE Y" + 4y' + 4y

= e-4t[u(t) – uſt – 1)] y(0)

= 0; y'(0) = -1 :

Given ODE is Y" + 4y' + 4y = e-4t[u(t) – u(t - 1)].

First, we need to solve the homogeneous equation Y" + 4y' + 4y = 0.

Let, Y = e^rt

We get r² [tex]e^rt[/tex] + 4r[tex]e^rt[/tex] + 4 [tex]e^rt[/tex] = 0

On dividing by e^rt, we get the quadratic equation r² + 4r + 4

= 0(r+2)^2 = 0r = -2 [Repeated root]

So, the solution of the homogeneous equation Y" + 4y' + 4y

= 0 is Yh

= c1 [tex]e^{-2t}[/tex]+ c2t [tex]e^{-2t}[/tex]

Now, we consider the non-homogeneous part of the given equation i.e., e^{-4t}[u(t) - u(t-1)]

Using Laplace Transform, we get

Y(s) = [LHS]Y"(s) + 4Y'(s) + 4Y(s)

= [RHS] [tex]e^{-4t}[/tex][u(t) - u(t-1)] ... (1)                                                               [tex]e^{-s}[/tex]

Applying Laplace Transform,

we get LY(s) = s²Y(s) - sy(0) - y'(0) + 4(sY(s) - y(0)) + 4Y(s)

= 1/(s+4) - 1/(s+4)  [tex]e^{-s}[/tex]LY(s) = (s²+4s+4)Y(s) + 1/(s+4) - 1/(s+4)  [tex]e^{-s}[/tex] + s ... (2)

Solving for Y(s), we get Y(s) = [1/(s+4) - 1/(s+4)[tex]e^{-s}[/tex]/(s²+4s+4)+ s/(s²+4s+4)Y(s)

= [[tex]e^{-s}[/tex]/(s+4)]/(s+2)² + [(s+2)/(s+2)²]Y(s) = [[tex]e^{-s}[/tex]/(s+4)]/(s+2)² + [s+2]/(s+2)²

Now, using the inverse Laplace Transform, we get y(t) = (1/2)[tex]e^{-2t}[/tex] + (1/2)t [tex]e^{-2t}[/tex]  + u(t-1)[(t-1) [tex]e^{2(t-1)}[/tex] - 1/2]

Finally, the solution of the ODE is y(t) = (1/2)[tex]e^{-2t}[/tex]  + (1/2)t [tex]e^{-2t}[/tex] + u(t-1)[(t-1)[tex]e^{2(t-1)}[/tex] - 1/2] for t in the interval [0, infinity).

The solution of the ODE is y(t) = (1/2)[tex]e^{-2t}[/tex] + (1/2)t [tex]e^{-2t}[/tex]  + u(t-1)[(t-1)[tex]e^{2(t-1)}[/tex]- 1/2]

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help will mark brainliest

Answers

Answer:

Median = 70

Lower Quartile = 52

Upper Quartile = 76

Interquartile range = 24

Step-by-step explanation:

Since you've already correctly identified the minimum and maxiumum, we simply need to find the lower and upper quartiles, and the interquartile range.

Step 1:  Find the median:

The median lies in the middle of the data. Because there are 11 values in the data set, we know that there will be 5 values to the left and right of the median.  Also, the values are already in numerical order so we can find the median directly without having to rearrange the numbers.  

Thus, the median is 70.

Step 2:  Find the Lower Quartile (Q1):

To find the lower quartile, we find the middle number of the 5 values to the left of the median.  Out of 46, 48, 52, 62, and 70, 52 lies in the middle so its the lower quartile.

Step 3:  Find the Upper Quartile (Q3):

To find the upper quartile, we find the middle number of the 5 values to the right of the median.Out of 71, 74, 76, 76, and 78, 76 lies in the middle so its the upper quartile.

Step 4:  Find the interquartile range (IQR)

The interquartile range is the difference between the upper and lower quartile.76 - 52 = 24.  Thus, the interquartile range is 24.

solve the following problems. Show your 1) Let u(x,y) = cos(2x) cosh(2y)
Show that the function u is harmonic,

Answers

The function u(x, y) = cos(2x) cosh(2y) needs to be shown as harmonic, which means it satisfies Laplace's equation.

To show that u(x, y) is harmonic, we need to confirm that it satisfies Laplace's equation, which states that the sum of the second partial derivatives with respect to x and y should equal zero.

Taking the partial derivatives of u(x, y) with respect to x and y:

∂u/∂x = -2sin(2x) cosh(2y)

∂u/∂y = 2cos(2x) sinh(2y)

Next, we compute the second partial derivatives:

∂²u/∂x² = -4cos(2x) cosh(2y)

∂²u/∂y² = 4cos(2x) cosh(2y)

Adding the second partial derivatives:

∂²u/∂x² + ∂²u/∂y² = -4cos(2x) cosh(2y) + 4cos(2x) cosh(2y) = 0

Since the sum of the second partial derivatives equals zero, we can conclude that u(x, y) = cos(2x) cosh(2y) is a harmonic function.

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A triangle is made of points A(1, 2, 1), B(2, 5, 3) and C(0, 1, 2). Use vectors to find the area of this triangle.

Answers

To find the area of a triangle using vectors, we can use the formula:

Area = 1/2 * |AB x AC|

where AB is the vector from point A to B, AC is the vector from point A to C, and x represents the cross product. Given the coordinates of points A, B, and C, we can calculate the vectors AB and AC:

AB = B - A = (2, 5, 3) - (1, 2, 1) = (1, 3, 2)

AC = C - A = (0, 1, 2) - (1, 2, 1) = (-1, -1, 1)

Now, we can calculate the cross product of AB and AC:

AB x AC = (1, 3, 2) x (-1, -1, 1)

To calculate the cross product, we can use the determinant:

|i   j   k|

|1   3   2|

|-1 -1   1|

Expanding the determinant, we have:

= i * (3 * 1 - 2 * -1) - j * (1 * 1 - 2 * -1) + k * (1 * -1 - (-1) * 3)

= i * (3 + 2) - j * (1 + 2) + k * (-1 + 3)

= i * 5 - j * 3 + k * 2

= (5, -3, 2)

Now, we can calculate the magnitude of the cross product:

|AB x AC| = √([tex]5^2 + (-3)^2 + 2^2[/tex]) = √38

Finally, we can calculate the area of the triangle:

Area = 1/2 * |AB x AC| = 1/2 * √38

Therefore, the area of the triangle formed by points A(1, 2, 1), B(2, 5, 3), and C(0, 1, 2) is 1/2 * √38.

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$9500 is​ invested, part of it at ​12% and part of it at ​9%.
For a certain​ year, the total yield is ​$1032.00.
1a. How much was invested at 12%
1b. How much was invested at 9%
--------"

Answers

$5,900.00 was invested at 12% and the remaining amount ($9500 - $5,900.00 = $3,500.00) was invested at 9%.

Let's assume that the amount invested at 12% is x dollars. Since the total investment is $9500, the amount invested at 9% would be ($9500 - x) dollars. The total yield for the year is given as $1032.00.

To calculate the yield from the investment at 12%, we multiply the amount invested at 12% (x) by the interest rate of 12% (0.12): 0.12x. Similarly, the yield from the investment at 9% can be calculated by multiplying the amount invested at 9% ($9500 - x) by the interest rate of 9% (0.09): 0.09($9500 - x).

The total yield is the sum of the yields from the two investments, which is given as $1032.00. Therefore, we can write the equation: 0.12x + 0.09($9500 - x) = $1032.00.

Simplifying the equation, we have: 0.12x + 0.09($9500) - 0.09x = $1032.00.

0.03x + 0.09($9500) = $1032.00.

0.03x + $855.00 = $1032.00.

0.03x = $1032.00 - $855.00.

0.03x = $177.00.

x = $177.00 / 0.03.

x ≈ $5,900.00.

Therefore, approximately $5,900.00 was invested at 12% and the remaining amount ($9500 - $5,900.00 = $3,500.00) was invested at 9%.

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3. A sum of RM5,000 has been used to purchase an annuity that requires periodic payment at every quarter-end for 3 years. The rate of interest is 6% compounded quarterly. (a) How much is the payment to be made at the end of every quarter? (b) Calculate the interest charged on the annuity.

Answers

RM261.84 is the payment to be made at the end of every quarter. RM1,857.92 is the interest charged on the annuity.

To calculate the payment to be made at the end of every quarter, we can use the formula for the present value of an annuity:

PV = PMT * (1 - (1 + r)^(-n)) / r

Where:

PV = Present value of the annuity

PMT = Payment to be made at the end of every quarter

r = Interest rate per period

n = Number of periods

In this case, the present value (PV) is RM5,000, the interest rate (r) is 6% compounded quarterly, and the number of periods (n) is 3 years, which is equivalent to 12 quarters.

(a) Calculate the payment to be made at the end of every quarter:

PV = PMT * (1 - (1 + r)^(-n)) / r

5000 = PMT * (1 - (1 + 0.06/4)^(-12)) / (0.06/4)

Let's solve this equation for PMT:

5000 = PMT * (1 - (1.015)^(-12)) / (0.015)

5000 * (0.015) = PMT * (1 - (1.015)^(-12))

75 = PMT * (1 - 0.7136)

PMT * 0.2864 = 75

PMT = 75 / 0.2864

PMT ≈ RM261.84

So, the payment to be made at the end of every quarter is approximately RM261.84.

(b) Calculate the interest charged on the annuity:

To calculate the interest charged on the annuity, we can subtract the total amount of payments made from the initial investment:

Total Payments = PMT * n

Total Payments = RM261.84 * 12

Total Payments ≈ RM3,142.08

Interest Charged = PV - Total Payments

Interest Charged = RM5,000 - RM3,142.08

Interest Charged ≈ RM1,857.92

Therefore, the interest charged on the annuity is approximately RM1,857.92.

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let H be the set of all polynomials of the form P(t)=a+bt^2 where a and b are in R and b>a. determine whether H is a vector space.if it is not a vector space determine which of the following properties it fails to satisfy. A: contains zero vector B:closed inder vector addition C: closed under multiplication by scalars A) His not a vector space; does not contain zero vector B) His not a vector space; not closed under multiplication by scalars and does not contain zero vector C) H is not a vector space; not closed under vector addition D) H is not a vector space; not closed under multiplication by scalars.

Answers

The set H of polynomials of the form P(t) = a + bt², where a and b are real numbers with b > a, is not a vector space. It fails to satisfy property C: it is not closed under vector addition.

In order for a set to be a vector space, it must satisfy several properties: containing a zero vector, being closed under vector addition, and being closed under multiplication by scalars. Let's examine each property for the set H:

A) Contains zero vector: The zero vector in this case would be the polynomial P(t) = 0 + 0t² = 0. However, this polynomial does not have the form a + bt² with b > a, as required by H. Therefore, H does not contain a zero vector.

B) Closed under vector addition: To check this property, we take two arbitrary polynomials P(t) = a + bt² and Q(t) = c + dt² from H and try to add them. The sum of these polynomials is (a + c) + (b + d)t². However, it is possible to choose values of a, b, c, and d such that (b + d) is less than (a + c), violating the condition b > a. Hence, H is not closed under vector addition.

C) Closed under multiplication by scalars: Multiplying a polynomial P(t) = a + bt² from H by a scalar k results in (ka) + (kb)t². Since a and b can be any real numbers, there are no restrictions on their values that would prevent the resulting polynomial from being in H. Therefore, H is closed under multiplication by scalars.

In conclusion, the set H fails to satisfy property C: it is not closed under vector addition. Therefore, H is not a vector space.

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Find the derivative of the function by using the rules of differentiation. f(t) = 6+2 + VB + f'(t) Need Help? Read It 8. [-/2 Points] DETAILS TANAPCALC10 3.1.042. MY NC Find the slope and an equation

Answers

Answer:

The derivative of f(t) = 6t + 2 + VB is f'(t) = 6.

- The slope of the function is 6, indicating a constant rate of change.

- The equation of the function remains f(t) = 6t + 2 + VB.

Step-by-step explanation:

To find the derivative of the given function, we need to assume that "VB" represents a constant term, as it does not include any variable dependence. Thus, the function can be rewritten as:

f(t) = 6t + 2 + VB

To find the derivative, we apply the power rule of differentiation, which states that the derivative of a constant multiplied by a variable raised to the power of 1 is equal to the constant itself.

The derivative of the function f(t) = 6t + 2 + VB is:

f'(t) = 6

The derivative of a constant term is always zero since it does not involve any variable dependence. Therefore, the derivative of VB is zero.

Now, let's discuss the slope and equation. The derivative represents the slope of the function at any given point. In this case, the slope is a constant value of 6. This means that the function f(t) = 6t + 2 + VB has a constant slope of 6, indicating that it is a straight line with a constant rate of change.

The equation of the function f(t) = 6t + 2 + VB itself does not change after taking the derivative. It remains f(t) = 6t + 2 + VB.

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Let Ps be the regular (planar) triangle. We are going to colorize the three vertices of Ps by 4 different colors (Cyan, Magenta, Yellow, Black). We will identify two colorings of the triangle are the same if two colored triangles can be exactly agreed by a suitable rotation or a reflection. Using Burnside's
formula, determine how many different colored regular triangles are possible.

Answers

Given: We have the regular (planar) triangle named Ps with three vertices colored with 4 different colors (Cyan, Magenta, Yellow, Black).

We need to identify two colorings of the triangle are the same if two colored triangles can be exactly agreed by a suitable rotation or a reflection. Using Burnside's formula, we have to determine how many different colored regular triangles are possible.

Burnside's Lemma:Let X be a finite set and let G be a finite group of permutations of X. Let an element of G be denoted by g. For each g ∈ G let Xg be the set of points in X left fixed by g. Then the number of orbits of X under G is given by:Orbit of G under X= (1/|G|) ∑g∈G |Xg|The group G is the group of symmetries of a regular triangle or an equilateral triangle and it has the following six elements:R0: the identity permutationR120: a counter-clockwise rotation by 120 degreesR240: a counter-clockwise rotation by 240 degrees S1: a reflection through a line going from one vertex through the opposite midpointS2: a reflection through a line going from another vertex through the opposite midpointS3: a reflection through a line going from one side's midpoint through the opposite vertexThe permutation R0 has 4 fixed points since it does not move any vertex. (4 points)

Each of the permutations R120 and R240 has 0 fixed points because every vertex gets moved by these rotations. (0 points)The permutation S1 has 2 fixed points. The two fixed points are the vertices that are not on the line of reflection, and every other point is reflected to a different point. (2 points)The permutation S2 also has 2 fixed points, which are the same as the fixed points of S1. (2 points)The permutation S3 has 3 fixed points, which are the midpoints of each side. (3 points)Thus, by Burnside's formula, we have for the triangle:

[tex]Number of Orbits = (1/|G|) ∑g∈G |Xg|[/tex]

Where, |G|=6=1/6*(4+0+0+2+2+3)=11/3≈3.67

Thus, there are approximately 3.67 different colored regular triangles that are possible when three vertices of a regular triangle are colored with 4 different colors and two colorings of the triangle are the same if two colored triangles can be exactly agreed by a suitable rotation or a reflection.

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Determine the derivative for each of the following. A)y=g3x b) y-in (3x*+2x+1) C) y-esinc3x) 0) y=x²4x

Answers

To determine the derivative of y = x²-4x, we use the power rule of differentiation. The power rule states that if y = [tex]x^{n}[/tex], then dy/dx = n[tex]x^{n-1}[/tex]. Here, n=2, so that we have dy/dx = 2x⁽²⁻¹⁾ - 4 × d/dx(x) = 2x - 4 = 2(x - 2)Therefore, the derivative of y = x²-4x is 2(x - 2).

The derivative of a function is the rate of change of that function at a given point. Here are the solutions to each of the following problems:

Derivative of y = g3x

To determine the derivative of y=g3x,

first consider that 3x is the argument of g(x).

Next, let u=3x, so that y=g(u).

Using the chain rule, we have dy/du=g'(u),

and du/dx=3. Combining these, we have:

dy/dx = dy/du × du/dx = g'(u) × 3 = 3g'(3x).

Therefore, the derivative of y = g3x is 3g'(3x).

Derivative of y = in (3x×+2x+1)

To determine the derivative of y = in (3x² + 2x + 1), we will use the chain rule and derivative of the natural logarithm function. The derivative of the natural logarithm function is given by:

d/dx (in x) = 1/x,

so that we have:

d/dx (in (3x² + 2x + 1)) = (1/(3x² + 2x + 1)) × d/dx (3x² + 2x + 1)

Using the chain rule, we find d/dx (3x² + 2x + 1) = 6x + 2, so that:

d/dx (in (3x² + 2x + 1)) = (1/(3x² + 2x + 1)) × (6x + 2) = (6x + 2)/(3x² + 2x + 1)

Therefore, the derivative of y = in (3x² + 2x + 1) is (6x + 2)/(3x² + 2x + 1).

Derivative of y = esin(c3x)

To find the derivative of y = e(sin(c3x)), we use the chain rule. Using this rule, the derivative is given by:

d/dx (e(sin(c3x))) = e(sin(c3x)) × d/dx (sin(c3x))

Using the derivative of the sine function, we have:

d/dx (sin(c3x)) = c3cos(c3x)

Therefore, the derivative of y = e sin(c3x) is given by:

d/dx (e(sin(c3x))) = e(sin(c3x)) × d/dx (sin(c3x))

= e(sin(c3x)) × c3cos(c3x) = c3e(sin(c3x))cos(c3x)

Derivative of y = x²-4x

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The Point on the plane 2x + 3y - z=1 that is closest to the point (1.1.-2) is

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the point on the plane 2x + 3y - z = 1 that is closest to the point (1, 1, -2) is (1 - (3/2)y, y, 1).

The values of x and y may vary, but z is always equal to 1.

To find the point on the plane 2x + 3y - z = 1 that is closest to the point (1, 1, -2), we can use the concept of orthogonal projection.

The vector normal to the plane is given by the coefficients of x, y, and z in the equation.

this case, the normal vector is (2, 3, -1).

Now, let's consider a vector from the point on the plane (x, y, z) to the point (1, 1, -2). This vector can be represented as (1 - x, 1 - y, -2 - z).

Since the normal vector is orthogonal (perpendicular) to any vector on the plane, the dot product of the normal vector and the vector from the point on the plane to (1, 1, -2) should be zero.

(2, 3, -1) • (1 - x, 1 - y, -2 - z) = 0

Expanding the dot product:

2(1 - x) + 3(1 - y) - (2 + z) = 0

Simplifying the equation:

2 - 2x + 3 - 3y - 2 - z = 0

-2x - 3y - z = -3

We also have the equation of the plane given as 2x + 3y - z = 1. We can solve this system of equations to find the values of x, y, and z.

Solving the system of equations:

-2x - 3y - z = -3

2x + 3y - z = 1

Adding the two equations together:

-2x - 3y - z + 2x + 3y - z = -3 + 1

-2z = -2

z = 1

Substituting z = 1 into one of the equations:

2x + 3y - 1 = 1

2x + 3y = 2

Let's solve for x in terms of y:

2x = 2 - 3y

x = 1 - (3/2)y

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Consider the parametric curve given by =²+1 and y=1²-2t+1 At what point on the curve will the slope of the tangent line be 1? O (3, 1) O (1, 1) O There is no such a point. O (9,9)

Answers

Considering the parametric curve given by =²+1 and y=1²-2t+1, the point on the curve where the slope of the tangent line is 1 is (3, 1).

To find the point on the curve where the slope of the tangent line is 1, we need to determine the values of t that satisfy this condition. We can start by finding the derivatives of x and y with respect to t.

Taking the derivative of x = t^2 + 1, we get dx/dt = 2t.

Taking the derivative of y = 1^2 - 2t + 1, we get dy/dt = -2.

The slope of the tangent line at a point on the curve is given by dy/dx, which is equal to dy/dt divided by dx/dt.

Therefore, we have dy/dx = dy/dt / dx/dt = -2 / 2t = -1/t.

To find the point where the slope of the tangent line is 1, we need to solve the equation -1/t = 1. Solving for t gives us t = -1.

However, this value of t is not valid because the parameter t cannot be negative for the given curve.

Therefore, there is no point on the curve where the slope of the tangent line is 1. The correct answer is "There is no such point."

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15 POINTS
Simplify the expression

Answers

Answer:

[tex] \frac{ {d}^{4} }{ {c}^{3} } [/tex]

Step-by-step explanation:

[tex] {c}^{2} \div {c}^{5} = \frac{1}{ {c}^{3} } [/tex]

[tex] {d}^{5} \div {d}^{1} = {d}^{4} [/tex]

Therefore

[tex] = \frac{ {d}^{4} }{ {c}^{3} } [/tex]

Hope this helps

Find the area of the kite.

Answers

Answer:

18m²

Step-by-step explanation:

area = areas of top left triangle + bottom left + top right + bottom right

= (1/2 X 2 X 3) + (1/2 X 2 X 3) + (1/2 X 3 X 4) + (1/2 X 3 X 4)

= 3 + 3 + 6 + 6

= 18 m²

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