Determine all values of the constant real number k so that the function f(x) is continuous at x = -4. ... 6x2 + 28x + 16 X+4 X

Answers

Answer 1

In order for the function f(x) to be continuous at x = -4, the limit of f(x) as x approaches -4 should exist and should be equal to f(-4). So, let's first find f(-4).

[tex]f(-4) = 6(-4)^2 + 28(-4) + 16(-4+4) = 192 - 112 + 0 = 80[/tex]Now, let's find the limit of f(x) as x approaches -4. We will use the factorization of the quadratic expression to simplify the function and then apply direct substitution.[tex]6x² + 28x + 16 = 2(3x+4)(x+2)So,f(x) = 2(3x+4)(x+2)/(x+4)[/tex]Now, let's find the limit of f(x) as x approaches[tex]-4.(3x+4)(x+2)/(x+4) = ((3(x+4)+4)(x+2))/(x+4) = (3x+16)(x+2)/(x+4[/tex])Now, applying direct substitution for x = -4, we get:(3(-4)+16)(-4+2)/(-4+4) = 80/-8 = -10Thus, we have to find all values of k such that the limit of f(x) as x approaches -4 is equal to f(-4).That is,(3x+16)(x+2)/(x+4) = 80for all values of x that are not equal to -4. Multiplying both sides by (x+4), we get:(3x+16)(x+2) = 80(x+4)Expanding both sides,

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Related Questions

Use Green's Theorem to evaluate • [F F = (√x + 3y, 2x + = 1x - x² from (0,0) to (1,0) and the line segment from (1,0) to and C consists of the arc of the curve y (0,0). F. dr, where

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The line integral ∫C F · dr, where F = (√x + 3y, 2x + y - x²), and C consists of the line segment from (0,0) to (1,0) and the arc of the curve y = x² from (1,0) to (0,0), is equal to -1.

To evaluate the line integral ∫C F · dr using Green's Theorem, we first need to calculate the curl of the vector field F.

Green's Theorem states that the line integral of a vector field F around a simple closed curve C is equal to the double integral of the curl of F over the region D bounded by C.

Let's start by calculating the curl of F:

∇ × F = (∂/∂x, ∂/∂y, ∂/∂z) × (√x + 3y, 2x + y - x²)

To find the curl, we take the determinant of the partial derivatives with respect to x, y, and z:

∇ × F = (∂/∂x, ∂/∂y, ∂/∂z) × (√x + 3y, 2x + y - x²)

= (∂/∂y(2x + y - x²) - ∂/∂z(√x + 3y), ∂/∂z(√x + 3y) - ∂/∂x(√x + 3y), ∂/∂x(2x + y - x²) - ∂/∂y(2x + y - x²))

= (-3, 1, 2 - 1)

= (-3, 1, 1)

Now, we can apply Green's Theorem:

∫C F · dr = ∬D (∇ × F) · dA

Since the region D is the area enclosed by the curve C, we need to find the limits of integration. The curve C consists of two parts: the line segment from (0,0) to (1,0) and the arc of the curve y = x² from (1,0) to (0,0).

For the line segment from (0,0) to (1,0), we can parameterize the curve as r(t) = (t, 0) for t ∈ [0, 1].

For the arc of the curve y = x² from (1,0) to (0,0), we can parameterize the curve as r(t) = (t, t²) for t ∈ [1, 0].

Now, let's evaluate the line integral using Green's Theorem:

∫C F · dr = ∬D (∇ × F) · dA

= ∫[0,1]∫[0,0] (-3, 1, 1) · (dx, dy) + ∫[1,0]∫[t²,0] (-3, 1, 1) · (dx, dy)

Evaluating the first integral over the region [0,1]∫[0,0]:

∫[0,1]∫[0,0] (-3, 1, 1) · (dx, dy) = ∫[0,1]∫[0,0] -3dx + dy

= ∫[0,1] -3dx + 0

= -3x ∣[0,1]

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

= -3

Evaluating the second integral over the region [1,0]∫[t²,0]:

∫[1,0]∫[t²,0] (-3, 1, 1) · (dx, dy) = ∫[1,0]∫[t²,0] -3dx + dy

= ∫[1,0] -3dx + dy

= -3x ∣[t²,0] + y ∣[t²,0]

= -3(0) - (-3t²) + 0 - t²

= 3t² - t²

= 2t²

Now we can sum up the two integrals:

∫C F · dr = ∫[0,1]∫[0,0] (-3, 1, 1) · (dx, dy) + ∫[1,0]∫[t²,0] (-3, 1, 1) · (dx, dy)

= -3 + 2t² ∣[0,1]

= -3 + 2(1)² - 2(0)²

= -3 + 2

= -1

Therefore, the line integral ∫C F · dr, where F = (√x + 3y, 2x + y - x²), and C consists of the line segment from (0,0) to (1,0) and the arc of the curve y = x² from (1,0) to (0,0), is equal to -1.

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Solid A and Solid B are similar. The surface area of Solid A is 675 m2 and the surface area of Solid B is 432 m2. If the volume of Solid B is 960 m3, find the
volume of Solid A.18 mm 15 mm SA = 52 in2SA = 637 in2®

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Volume of Solid A is 1,080 m3. The surface area ratio of Solid A to Solid B is 5:3.

To find the volume of Solid A, we need to use the surface area ratio between Solid A and Solid B. The ratio of the surface areas is given as 675 m2 for Solid A and 432 m2 for Solid B. We can set up a proportion to find the volume ratio.

The surface area ratio of Solid A to Solid B is 675 m2 / 432 m2, which simplifies to 5/3. Since the volume of Solid B is given as 960 m3, we can multiply the volume of Solid B by the volume ratio to find the volume of Solid A.

Volume of Solid A = (Volume of Solid B) x (Volume ratio)

= 960 m3 x (5/3)

= 1,600 m3 x 5/3

= 1,080 m3.

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Write the system x' = e³tx − 2ty +3 sin(t), y' = 8 tan(t) y + 3x − 5 cos (t) in the form d = P(t) [ * ] + ƒ (t). dty Use prime notation for derivatives and write a and à ʼ, etc., instead of æ(t), î '(t), or da. ]-[ = ][ +

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The given system of equations x' = [tex]e^{(3t)}[/tex]x - 2ty + 3sin(t), y' = 8tan(t)y + 3x - 5cos(t) can be written as:

[tex]\frac{d}{d t}=\left[\begin{array}{cc}e^{3 t} & 2 t \\-2 t & -e^{3 t}\end{array}\right]\left[\begin{array}{l}x \\y\end{array}\right]+\left[\begin{array}{c}3 \sin (t) \\-5 \cos (t)\end{array}\right][/tex]

The system of equations is given by:

x' = [tex]e^{(3t)}[/tex]x - 2ty + 3sin(t)

y' = 8tan(t)y + 3x - 5cos(t)

To write the system in the desired form, we first rearrange the equations as follows:

x' - [tex]e^{(3t)}[/tex]x + 2ty = 3sin(t)

y' - 3x - 8tan(t)y = -5cos(t)

Now, we can identify the coefficients and functions in the system:

P(t) = [tex]e^{3t}[/tex]

q(t) = 2t

f₁(t) = 3sin(t)

f₂(t) = -5cos(t)

Using this information, we can rewrite the system in the desired form:

x' - P(t)x + q(t)y = f₁(t)

y' - q(t)x - P(t)y = f₂(t)

Thus, the system can be written as:

[tex]d=\left[\begin{array}{l}x^{\prime} \\y^{\prime}\end{array}\right]=\left[\begin{array}{cc}P(t) & q(t) \\-q(t) & -P(t)\end{array}\right]\left[\begin{array}{l}x \\y\end{array}\right]+\left[\begin{array}{l}f_1(t) \\f_2(t)\end{array}\right][/tex]

In the given notation, this becomes:

d = P(t) [ * ] + f(t)

where [ * ] represents the coefficient matrix and f(t) represents the vector of functions.

The complete question is:

"Write the system

x' = [tex]e^{(3t)}[/tex]x - 2ty + 3sin(t)

y' = 8tan(t)y + 3x - 5cos(t)

in the form d/dt=P(t) [ * ] + ƒ (t).

Use prime notation for derivatives."

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Let 4(x,y) = e3ay+159" and let F be the gradient of p. Find the circulation of F around the circle of radius 3 with center at the point (5, 6). Circulation =

Answers

To find the circulation of vector field F around the circle of radius 3 with center (5, 6), we need to evaluate the line integral of F along the circle. Answer : ∫[0, 2π] (3a * e^(3a(6+3sin(t))+159)) * (-3sin(t), 3cos(t)) dt

First, let's find the gradient of p, denoted as ∇p.

Given that p(x, y) = e^(3ay+159), we can find ∇p as follows:

∂p/∂x = 0  (since there is no x in the expression)

∂p/∂y = 3a * e^(3ay+159)

So, ∇p = (0, 3a * e^(3ay+159)).

Next, let's parameterize the circle of radius 3 centered at (5, 6). We can use polar coordinates:

x = 5 + 3 * cos(t)

y = 6 + 3 * sin(t)

where t varies from 0 to 2π to cover the entire circle.

Now, the circulation of F around the circle can be calculated as the line integral:

Circulation = ∮ F · dr

where dr is the differential arc length along the circle parameterized by t.

Since F is the gradient of p, we have F = ∇p.

So, the circulation simplifies to:

Circulation = ∮ ∇p · dr

Now, let's calculate the line integral:

Circulation = ∮ ∇p · dr

           = ∮ (0, 3a * e^(3ay+159)) · (dx, dy)

           = ∫[0, 2π] (3a * e^(3ay+159)) * (dx/dt, dy/dt) dt

Substituting the parameterization of the circle into the integral, we get:

Circulation = ∫[0, 2π] (3a * e^(3a(6+3sin(t))+159)) * (-3sin(t), 3cos(t)) dt

Now, you can evaluate this integral to find the circulation of F around the circle of radius 3 centered at (5, 6).

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Describe in words the region of ℝ3
represented by the inequalities.
x2 + z2≤ 9, 0
≤ y
≤ 1
Here,
x2 + z2≤
9
or, equivalently,
x2 + z2
≤ 3
which describes the set of all points

Answers

The region in ℝ³ represented by the inequalities[tex]x² + z² ≤ 9[/tex]and 0 ≤ y ≤ 1 can be described as a cylindrical region extending vertically along the y-axis, with a circular base centered at the origin and a radius of 3 units.

The inequality [tex]x² + z² ≤ 9[/tex]represents a circular region in the x-z plane, centered at the origin and with a radius of 3 units. This means that all points within or on the circumference of this circle satisfy the inequality. The inequality[tex]0 ≤ y ≤ 1[/tex] indicates that the y-coordinate must lie between 0 and 1, restricting the vertical extent of the region. Combining these constraints, we obtain a cylindrical region that extends vertically along the y-axis, with a circular base centered at the origin and a radius of 3 units.

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solve this system of linear equations -4x+3y=-17 -3x4y=-11

Answers

Answer:

  (x, y) = (5, 1)

Step-by-step explanation:

You want the solution to the system of equations ...

-4x +3y = -17-3x +4y = -11

Solution

A quick solution is provided by a graphing calculator. It shows the point of intersection of the two lines to be (x, y) = (5, 1).

Elimination

You can multiply one equation by 3 and the other by -4 to eliminate a variable.

  3(-4x +3y) -4(-3x +4y) = 3(-17) -4(-11)

  -12x +9y +12x -16y = -51 +44

  -7y = -7

  y = 1

And the other way around gives ...

  -4(-4x +3y) +3(-3x +4y) = -4(-17) +3(-11)

  16x -12y -9x +12y = 68 -33

  7x = 35

  x = 5

So, the solution is (x, y) = (5, 1), same as above.

<95141404393>

The value of x and y in the given system of linear equations: -4x+3y=-17 and -3x+4y=-11 is  x=5 and y=1.

Given:  -4x+3y=-17    -(i)

            -3x+4y=-11     -(ii)

To solve the above equations, multiply equation (i) by 3 and equation (ii) by 4.

On multiplying equation (i) by 3 and equation (ii) by 4, we get,

            -12x+9y=-51   -(iii)

            -12x+16y=-44  -(iv)

Solve the equations (iii) and (iv) simultaneously,

to solve the equations simultaneously subtract equations (iii) and (iv),

On subtracting equations (iii) and (iv), we get

             -7y=-7

               y=1

Putting the value of y in either of the equation (i) or (ii),

             -4x+3(1)=-17

             -4x=-17-3

             -4x=-20

                x=5

Therefore, the solution of the system of linear equations: -4x+3y=-17 and -3x+4y=-11 are  x=5 and y=1.

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The Correct Question is: Solve this system of linear equations -4x+3y=-17 -3x+4y=-11

             

find C on the directed line segment AB with A(-2, 6) and B(8,1) such that AC:CB = 2:3

Answers

To find the point C on the directed line segment AB such that the ratio of AC to CB is 2:3, we can use the concept of the section formula. By applying the section formula, we can calculate the coordinates of point C.

The section formula states that if we have two points A(x1, y1) and B(x2, y2), and we want to find a point C on the line segment AB such that the ratio of AC to CB is given by m:n, then the coordinates of point C can be calculated as follows:

Cx = (mx2 + nx1) / (m + n)

Cy = (my2 + ny1) / (m + n)

Using the given points A(-2, 6) and B(8, 1), and the ratio AC:CB = 2:3, we can substitute these values into the section formula to calculate the coordinates of point C. By substituting the values into the formula, we obtain the coordinates of point C.

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the list below shows the number of miles sophia hiked on each of 7 days. 1.6 , 3.1 , 1.5 , 2.0 , 1.1 , 1.8, 1.5 what was the mean number of miles she hiked each day?

Answers

Therefore, the mean number of miles Sophia hiked each day is approximately 1.8 miles.

To find the mean number of miles Sophia hiked each day, we need to calculate the average by summing up all the values and dividing by the total number of days.

Sum of miles hiked = 1.6 + 3.1 + 1.5 + 2.0 + 1.1 + 1.8 + 1.5 = 12.6

Total number of days = 7

Mean number of miles = Sum of miles hiked / Total number of days = 12.6 / 7 ≈ 1.8

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The gradient of f(x,y)=x²y-y3 at the point (2,1) is 4i+j O 4i-5j O 4i-11j O 2i+j O

Answers

The gradient of f(x, y) at the point (2, 1) is given by the vector (4i + 1j).

To find the gradient of the function f(x, y) = x²y - y³, we need to compute the partial derivatives with respect to x and y and evaluate them at the given point (2, 1).

Partial derivative with respect to x:

∂f/∂x = 2xy

Partial derivative with respect to y:

∂f/∂y = x² - 3y²

Now, let's evaluate these partial derivatives at the point (2, 1):

∂f/∂x = 2(2)(1) = 4

∂f/∂y = (2)² - 3(1)² = 4 - 3 = 1

Therefore, the gradient of f(x, y) at the point (2, 1) = (4i + 1j).

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Find the coordinates of the foci for the hyperbola. ) (y+2) (x-4)2 16 = 1 9 Find the equations of asymptotes for the hyperbola. y2 – 3x2 + 6y + 6x – 18 = 0

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To find an angle that is coterminal with a standard position angle measuring -315 degrees and is between 0° and 360°, we can add or subtract multiples of 360° to the given angle until we obtain an angle within the desired range.

Starting with the angle -315°, we can add 360° repeatedly until we obtain a positive angle between 0° and 360°.

-315° + 360° = 45°

Now we have an angle of 45°, which is between 0° and 360° and is coterminal with the initial angle of -315°.

Therefore, an angle that is coterminal with a standard position angle measuring -315° and is between 0° and 360° is 45°.

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Solve the linear programming problem by the method of corners. (There may be more than one correct answer.) Maximize P = x + 4y subject to x + y 4 2x + y s x20, ΣΟ The maximum is P = 14 X at (x, ) = (0,4 1.)

Answers

Therefore, the maximum value of P is P = -32, and it occurs at the point (x, y) = (16, -12).

To solve the linear programming problem using the method of corners, we first need to identify the corner points of the feasible region, which is defined by the given constraints.

The constraints are:

x + y ≤ 4

2x + y ≤ x20

x ≥ 0, y ≥ 0

To find the corner points, we solve the system of equations formed by the equality signs of the constraints.

For the first constraint, x + y ≤ 4, equality holds when x + y = 4. Solving for y, we have y = 4 - x.

For the second constraint, 2x + y ≤ 20, equality holds when 2x + y = 20. Solving for y, we have y = 20 - 2x.

Now we can find the corner points by substituting the y-values obtained from the equalities into the inequalities and checking if the x-values satisfy the given constraints.

For y = 4 - x:

Substituting y = 4 - x into the second constraint:

2x + (4 - x) ≤ 20

Simplifying: x + 4 ≤ 20

x ≤ 16

So, one corner point is (x, y) = (16, 4 - 16) = (16, -12).

For y = 20 - 2x:

Substituting y = 20 - 2x into the first constraint:

x + (20 - 2x) ≤ 4

Simplifying: -x + 20 ≤ 4

x ≥ 16

So, another corner point is (x, y) = (16, 20 - 2(16)) = (16, -12).

Now, we have two corner points: (16, -12) and (16, -12). We can calculate the objective function P = x + 4y for these points to find the maximum value:

For (16, -12):

P = 16 + 4(-12) = -32

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Write each expression as a product of trigonometric functions. See Example 8.
cos 4x - cos 2x
sin 102° - sin 95°
cos 5x + cos 8x
cos 4x + cos 8x
sin 25° + sin(-48°)
sin 9x - sin 3x

Answers

We are given several expressions involving trigonometric functions and need to rewrite them as products of trigonometric functions.

cos 4x - cos 2x: Using the cosine difference formula, we can write this expression as 2sin((4x + 2x)/2)sin((4x - 2x)/2) = 2sin(3x)sin(x).

sin 102° - sin 95°: Again, using the sine difference formula, we can rewrite this expression as 2cos((102° + 95°)/2)sin((102° - 95°)/2) = 2cos(98.5°)sin(3.5°).

cos 5x + cos 8x: This expression cannot be simplified further as a product of trigonometric functions.

cos 4x + cos 8x: Similarly, this expression cannot be simplified further.

sin 25° + sin(-48°): We know that sin(-x) = -sin(x), so we can rewrite this expression as sin(25°) - sin(48°).

sin 9x - sin 3x: Using the sine difference formula, we can express this as 2cos((9x + 3x)/2)sin((9x - 3x)/2) = 2cos(6x)sin(3x).

In summary, some of the given expressions can be simplified as products of trigonometric functions using the appropriate trigonometric identities, while others cannot be further simplified.

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The following polar equation describes a circle in rectangular coordinates: r=18cosθ Locate its center on the circle's radius and explanin your answer
(x0,y0)=
R=

Answers

Therefore, the center of the circle is located at (x0, y0) = (18cosθ, 18sinθ) and the radius of the circle is R = 18.

The given polar equation is r = 18cosθ, which describes a circle in rectangular coordinates.

To locate the center of the circle, we can observe that the equation is of the form r = a*cosθ, where "a" represents the radius of the circle.

Comparing this with the given equation, we can see that the radius of the circle is 18.

The center of the circle is located on the radius, which means it lies on the line passing through the origin (0,0) and is perpendicular to the line with the angle θ.

Since the radius is fixed at 18, the center of the circle is located at a point on this radius. Thus, the coordinates of the center can be expressed as (x0, y0) = (18cosθ, 18sinθ).

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Similar to 2.4.59 in Rogawski/Adams. Let f(x) be the function 7x-1 for x < -1, ax + b for -15x5, f(x) = 1x-1 for x > } Find the value of a, b that makes the function continuous. (Use symbolic notation and fractions where needed.) help (fractions) a= 1 b=

Answers

The f(x) is the function 7x-1 for x < -1, ax + b for -15x5, f(x) = 1x-1 for x > } The value of a =7 ,  b = -43.

To make the function continuous, we need to ensure that the function values at the endpoints of each piece-wise segment match up.

Starting with x < -1, we have:

lim x->(-1)^- f(x) = lim x->(-1)^- (7x-1) = -8

f(-1) = 7(-1) - 1 = -8

So the function is continuous at x = -1.

Moving on to -1 ≤ x ≤ 5, we have:

f(-1) = -8

f(5) = a(5) + b

We need to choose a and b such that these two values match up. Setting them equal, we get:

a(5) + b = -8

Next, we consider x > 5:

f(5) = a(5) + b

f(7) = 1(7) - 1 = 6

We need to choose a and b such that these two values also match up. Setting them equal, we get:

a(7) + b = 6

We now have a system of two equations with two unknowns:

a(5) + b = -8

a(7) + b = 6

Subtracting the first equation from the second, we get:

a(7) - a(5) = 14

a = 14/2 = 7

Substituting back into either equation, we get:

b = -8 - a(5) = -8 - 35 = -43

Therefore, the values of a and b that make the function continuous are:

a = 7 and b = -43.

So the function is:

f(x) = 7x - 1    for x < -1

      7x - 43   for -1 ≤ x ≤ 5

       x - 1  for x > 5

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For the vector field F = ⟨− y, x, z ⟩
and the surface that is the part of the paraboloid z = 1 − x^2 − y^2 that is
above the plane z = 0 and having an edge at z = 0
Calculate ∬S∇ × F⋅dS∬S∇ × F⋅dS to three exact decimal places

Answers

The double integral will be ∬R (4xy + 2x - 2y) sqrt(4x^2 + 4y^2 + 1) dx dy.

To calculate the surface integral of ∇ × F ⋅ dS over the given surface, we need to follow these steps:

1. Determine the normal vector to the surface S:

The surface S is defined by the equation z = 1 − x^2 − y^2, which is a paraboloid. The normal vector to the surface can be found by taking the gradient of the function representing the surface:

∇f = ⟨-2x, -2y, 1⟩

2. Calculate the curl of F:

∇ × F =

det |i  j  k|

    |-y  x  z|

    |-2x  -2y  1|

  = ⟨-2y - 1, -1 - 0, -2x⟩

  = ⟨-2y - 1, -1, -2x⟩

3. Compute the dot product of ∇ × F and the normal vector ∇f:

∇ × F ⋅ ∇f = (-2y - 1)(-2x) + (-1)(-2y) + (-2x)(1)

          = 4xy + 2x - 2y

4. Calculate the magnitude of the normal vector ∇f:

|∇f| = [tex]sqrt((-2x)^2 + (-2y)^2 + 1^2)[/tex]

    = sqrt(4x^2 + 4y^2 + 1)

5. Determine the area element dS:

The area element dS is given by dS = |∇f| dA, where dA represents the infinitesimal area on the xy-plane.

Since the surface is defined by z = 1 − x^2 − y^2 and it lies above the plane z = 0, we can use dA = dx dy.

6. Set up the double integral:

∬S ∇ × F ⋅ dS = ∬R (∇ × F ⋅ ∇f) |∇f| dA

Here, R represents the region on the xy-plane that projects onto the surface S.

7. Determine the limits of integration:

The region R is the projection of the surface S onto the xy-plane, which is a disk with radius 1 centered at the origin.

Therefore, the limits of integration are:

-√(1 - x^2) ≤ y ≤ √(1 - x^2)

-1 ≤ x ≤ 1

8. Evaluate the double integral:

∬S ∇ × F ⋅ dS = ∬R (4xy + 2x - 2y) sqrt(4x^2 + 4y^2 + 1) dx dy

This integral requires numerical evaluation. To obtain an exact decimal approximation, it is necessary to use numerical methods or software such as a computer algebra system or numerical integration software.

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A soccer ball is kicked upward from a height of 5 ft with an initial velocity of 48 ft/s. How high will it go? Use - 32 ft/s for the acceleration caused by gravity, Ignore air resistance. Answer 2 Poi

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The maximum height reached by the soccer ball is approximately -67.25 ft. Note that the negative sign indicates that the ball is below the initial height, as it is on its way back down.

To find the maximum height reached by the soccer ball, we can use the kinematic equation for vertical motion under constant acceleration due to gravity:

h = h₀ + v₀t - (1/2)gt²

Where:

h is the final height (maximum height)

h₀ is the initial height (5 ft)

v₀ is the initial velocity (48 ft/s)

g is the acceleration due to gravity (-32 ft/s²)

t is the time it takes to reach the maximum height (unknown)

At the maximum height, the velocity will be 0, so we can set v = 0 and solve for t:

0 = v₀ - gt

Rearranging the equation, we have:

gt = v₀

Solving for t:

t = v₀ / g

Now we can substitute this value of t into the equation for height to find the maximum height:

h = h₀ + v₀t - (1/2)gt²

h = 5 + 48(v₀ / g) - (1/2)g(v₀ / g)²

h = 5 + 48(v₀ / g) - (1/2)(v₀ / g)²

h = 5 + 48(48 / -32) - (1/2)(48 / -32)²

h = 5 - 72 - (1/2)(3/2)

h = 5 - 72 - 9/4

h = -67 - 9/4

h ≈ -67.25 ft

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Solve ë(t) + 4x(t) + 3x(t) = 9t, x(0) = 2, *(0) = 1 using the Laplace transform. = =

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The solution to the given differential equation is x(t) = 9/8 * (1 - t - e⁽⁻⁸ᵗ⁾), with the initial conditions x(0) = 2 and x'(0) = 1.

to solve the given differential equation using laplace transform, we will take the laplace transform of both sides of the equation and solve for x(s), where x(s) is the laplace transform of x(t).

the given differential equation is:

x'(t) + 4x(t) + 3x(t) = 9t

taking the laplace transform of both sides, we get:

sx(s) + x(s) + 4x(s) + 3x(s) = 9/s²

combining like terms, we have:

(s + 8)x(s) = 9/s²

now, we can solve for x(s) by isolating it:

x(s) = 9 / (s² * (s + 8))

to find the inverse laplace transform of x(s), we need to decompose the expression into partial fractions. we can express x(s) as:

x(s) = a / s + b / s² + c / (s + 8)

multiplying both sides by the common denominator, we get:

9 = a(s² + 8s) + bs(s + 8) + cs²

expanding and equating the coefficients, we get the following system of equations:

a + b + c = 0    (coefficient of s²)8a + 8b = 0      (coefficient of s)

8a = 9           (constant term)

solving this system of equations, we find:a = 9/8

b = -9/8c = -9/8

now, we can rewrite x(s) in terms of partial fractions:

x(s) = 9/8 * (1/s - 1/s² - 1/(s + 8))

taking the inverse laplace transform of x(s), we get the solution x(t):

x(t) = 9/8 * (1 - t - e⁽⁻⁸ᵗ⁾)

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use
the product, quotient, or chain rules
Use "shortcut" formulas to find Dx[log₁0(arccos (2*sinh (x)))]. Notes: Do NOT simplify your answer. Sinh(x) is the hyperbolic sine function from

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the derivative Dx[log₁₀(arccos(2sinh(x)))] is given by the expression:[tex](1/(arccos(2sinh(x))log(10))) * (-2cosh(x))/\sqrt(1 - 4*sinh^2(x))[/tex].

What is derivative?

The derivative of a function represents the rate at which the function changes with respect to its independent variable.

To find Dx[log₁₀(arccos(2*sinh(x)))], we can use the chain rule and the logarithmic differentiation technique. Let's break it down step by step.

Start with the given function: f(x) = log₁₀(arccos(2*sinh(x))).

Apply the chain rule to differentiate the composition of functions. The chain rule states that if we have g(h(x)), then the derivative is given by g'(h(x)) * h'(x).

Identify the innermost function: h(x) = arccos(2*sinh(x)).

Differentiate the innermost function h(x) with respect to x:

h'(x) = d/dx[arccos(2*sinh(x))].

Apply the chain rule to differentiate arccos(2sinh(x)). The derivative of [tex]arccos(x) is -1/\sqrt(1 - x^2)[/tex]. The derivative of sinh(x) is cosh(x).

[tex]h'(x) = (-1/\sqrt(1 - (2sinh(x))^2)) * (d/dx[2sinh(x)]).\\\\= (-1/\sqrt(1 - 4sinh^2(x))) * (2*cosh(x)).[/tex]

Simplify h'(x):

[tex]h'(x) = (-2cosh(x))/\sqrt(1 - 4sinh^2(x)).[/tex]

Now, differentiate the outer function g(x) = log₁₀(h(x)) using the logarithmic differentiation technique. The derivative of log₁₀(x) is 1/(x*log(10)).

g'(x) = (1/(h(x)*log(10))) * h'(x).

Substitute the expression for h'(x) into g'(x):

[tex]g'(x) = (1/(h(x)log(10))) * (-2cosh(x))/\sqrt(1 - 4*sinh^2(x)).[/tex]

Finally, substitute h(x) back into g'(x) to get the derivative of the original function f(x):

[tex]f'(x) = g'(x) = (1/(arccos(2sinh(x))log(10))) * (-2cosh(x))/\sqrt(1 - 4sinh^2(x)).[/tex]

Therefore, the derivative Dx[log₁₀(arccos(2sinh(x)))] is given by the expression:

[tex](1/(arccos(2sinh(x))log(10))) * (-2cosh(x))/\sqrt(1 - 4*sinh^2(x)).[/tex]

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identify the kind of sample that is described. a news reporter at a family amusement park asked a random sample of kids and a random sample of adults about their experience at the park. the sample is a sample.

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The kind of sample that is described is a random sample. A random sample is a type of probability sampling method where every member of the population has an equal chance of being selected for the sample.

In this case, the news reporter selected a random sample of kids and a random sample of adults at the family amusement park, which means that every kid and every adult had an equal chance of being selected to participate in the survey. Random sampling is important because it ensures that the sample is representative of the population, which allows for more accurate and generalizable conclusions to be drawn from the results.

By selecting a random sample, the news reporter can report on the experiences of a diverse group of individuals at the amusement park.

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The cylindrical coordinates of the point with rectangular coordinates (3,-3,-7), under 0≤0 ≤2л are (r,0,2)=(3√2, ((7)/4), -7) O (r.0,2)=(3√√/2, ((7) /4).7) O (r.0,2)=(2√/2, ((7)/4), -7) O

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The cylindrical coordinates of the point (3, -3, -7) under 0 ≤ θ ≤ 2π are (r, θ, z) = (3√2, (7π)/4, -7)

In cylindrical coordinates, a point is represented by the coordinates (r, θ, z), where r is the radial distance from the origin to the point, θ is the azimuthal angle measured counterclockwise from the positive x-axis in the xy-plane, and z is the height along the z-axis.

For the given rectangular coordinates (3, -3, -7), we can convert them to cylindrical coordinates as follows:

1. Radial Distance (r): The radial distance r is the distance from the origin to the point in the xy-plane.

It can be calculated using the formula r = √(x² + y²), where x and y are the rectangular coordinates in the xy-plane.

In this case, x = 3 and y = -3, so we have:

r = √(3² + (-3)²) = √(9 + 9) = √18 = 3√2.

2. Azimuthal Angle (θ): The azimuthal angle θ is determined by the location of the point in the xy-plane.

Since the given point lies in the negative x-axis quadrant, the angle θ will be π + arctan(y/x).

In this case, x = 3 and y = -3, so we have:

θ = π + arctan((-3)/3) = π - arctan(1) = π - π/4 = (7π)/4.

3. Height (z): The height z remains the same in both coordinate systems. In this case, z = -7.

Therefore, the cylindrical coordinates of (3, -3, -7) are (r, θ, z) = (3√2,(7π)/4, -7).

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7. (12 points) Calculate the line integral /F. F.dr, where F(x, y, z) = (xy, x2 + y2 + x2, yz) and C is the boundary of the parallelogram with vertices (0,0,1),(0,1,0), (2,0,-1), and (2,1, -2).

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the line integral ∫F·dr along the boundary of the parallelogram is equal to 3.

To calculate the line integral ∫F·dr, we need to parameterize the curve C that represents the boundary of the parallelogram. Let's parameterize C as follows:

r(t) = (2t, t, -t - 2)

where 0 ≤ t ≤ 1.

Next, we will calculate the differential vector dr/dt:

dr/dt = (2, 1, -1)

Now, we can evaluate F(r(t))·(dr/dt) and integrate over the interval [0, 1]:

∫F·dr = ∫F(r(t))·(dr/dt) dt

      = ∫((2t)(t), (2t)² + t² + (2t)², t(-t - 2))·(2, 1, -1) dt

      = ∫(2t², 6t², -t² - 2t)·(2, 1, -1) dt

      = ∫(4t² + 6t² - t² - 2t) dt

      = ∫(9t² - 2t) dt

      = 3t³ - t² + C

To find the definite integral over the interval [0, 1], we can evaluate the antiderivative at the upper and lower limits:

∫F·dr = [3t³ - t²]₁ - [3t³ - t²]₀

      = (3(1)³ - (1)²) - (3(0)³ - (0)²)

      = 3 - 0

      = 3

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- Given that f(x) = ax3 - 8x2 - 9x + b is exactly divisible by 3x - 2 and leaves a remainder of 6 when divided by x, find the values of a and b. Determine m and n so that 3x3 + mx2 – 5x +n is divisi

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To find the values of a and b, we can use the Remainder Theorem and the factor theorem. The values of m and n are determined to be m = -7 and n = 0.

According to the Remainder Theorem, when a polynomial f(x) is divided by x - c, the remainder is equal to f(c). Similarly, the factor theorem states that if f(c) = 0, then x - c is a factor of f(x). Given that f(x) is exactly divisible by 3x - 2, we can set 3x - 2 equal to zero and solve for x:

3x - 2 = 0

3x = 2

x = 2/3

Since f(x) is divisible by 3x - 2, we know that f(2/3) = 0.

Substituting x = 2/3 into the equation f(x) = ax^3 - 8x^2 - 9x + b, we get:

f(2/3) = a(2/3)^3 - 8(2/3)^2 - 9(2/3) + b = 0

Simplifying further:

(8a - 32 - 18 + 3b)/27 = 0

8a - 50 + 3b = 0

8a + 3b = 50 ...........(1)

Next, we are given that f(x) leaves a remainder of 6 when divided by x. This means that f(0) = 6. Substituting x = 0 into the equation f(x) = ax^3 - 8x^2 - 9x + b, we get:

f(0) = 0 - 0 - 0 + b = 6

Simplifying further:

b = 6 ...........(2)

Therefore, the values of a and b are determined to be a = 1 and b = 6.

Now, let's move on to the second part of the question:

We need to determine values of m and n so that 3x^3 + mx^2 - 5x + n is divisible by 2x + 1.

Since 3x^3 + mx^2 - 5x + n is divisible by 2x + 1, we can set 2x + 1 equal to zero and solve for x:

2x + 1 = 0

2x = -1

x = -1/2

Substituting x = -1/2 into the equation 3x^3 + mx^2 - 5x + n, we get:

3(-1/2)^3 + m(-1/2)^2 - 5(-1/2) + n = 0

Simplifying further:

(-3/8) + (m/4) + (5/2) + n = 0

(4m - 12 + 40 + 16n)/8 = 0

4m + 16n + 28 = 0

4m + 16n = -28

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Question X Find the area A of the region that is bounded between the curve f(x)= 3-In (x) and the line g(x) interval [1,7]. Enter an exact answer. Provide your answer below: A= 2 units +1 over the

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The area A of the region bounded between the curve f(x) = 3 - ln(x) and the line g(x) over the interval [1,7] is 2 units + 1/7.

To find the area of the region, we need to compute the definite integral of the difference between the two functions over the given interval. The curve f(x) = 3 - ln(x) represents the upper boundary, while the line g(x) represents the lower boundary.

Integrating the difference of the functions, we have:

A = ∫[1,7] (3 - ln(x)) - g(x) dx

Simplifying the integral, we get:

A = ∫[1,7] (3 - ln(x) - g(x)) dx

We need to find the equation of the line g(x) to proceed further. The line passes through the points (1, 0) and (7, 0) since it is a straight line. Therefore, g(x) = 0.

Now, we can rewrite the integral as:

A = ∫[1,7] (3 - ln(x)) - 0 dx

Integrating this, we get:

A = [3x - x ln(x)] | [1,7]

Substituting the limits of integration, we have:

A = (3 * 7 - 7 ln(7)) - (3 * 1 - 1 ln(1))

Simplifying further, we get:

A = 21 - 7 ln(7) - 3 + 0
A = 18 - 7 ln(7)

Hence, the exact answer for area A is 18 - 7 ln(7) square units.

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Use the fourier transform analysis equation (5.9) to calculate the fourier transforms of:
(a) (½)^n-1 u[n-1]
(b) (½)^|n-1|

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We will use Equation (5.9) of Fourier transform analysis to calculate the Fourier transforms of the given sequences: (a) (½)^(n-1)u[n-1] and (b) (½)^|n-1|. F(ω) = Σ (½)^(n-1)e^(-jωn) for n = 1 to ∞.  F(ω) = Σ (½)^(n-1)e^(-jωn) for n = -∞ to ∞

(a) To calculate the Fourier transform of (½)^(n-1)u[n-1], we substitute the given sequence into Equation (5.9). Considering the definition of the unit step function u[n-1] (which is 1 for n ≥ 1 and 0 for n < 1), we can rewrite the sequence as (½)^(n-1) for n ≥ 1 and 0 for n < 1. Thus, we obtain the Fourier transform as:

F(ω) = Σ (½)^(n-1)e^(-jωn)

Evaluating the summation, we get:

F(ω) = Σ (½)^(n-1)e^(-jωn) for n = 1 to ∞

(b) To calculate the Fourier transform of (½)^|n-1|, we again substitute the given sequence into Equation (5.9). The absolute value function |n-1| can be expressed as (n-1) for n ≥ 1 and -(n-1) for n < 1. Thus, we have the Fourier transform as:

F(ω) = Σ (½)^(n-1)e^(-jωn) for n = -∞ to ∞

In both cases, the specific values of the Fourier transforms depend on the range of n considered and the values of ω. Further evaluation of the summations and manipulation of the resulting expressions may be required to obtain the final forms of the Fourier transforms for these sequences.

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will only upvote if correct and fast 5. The plane curve represented by x(t)=t-sin t and y(t) = 1- cost or 0 < t < 2π a) Find the slope of the tangent line to the curve for b) Find an equation of the

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The slope of the tangent line to the curve represented by x(t) = t - sin(t) and y(t) = 1 - cos(t) for 0 < t < 2π is given by dy/dx = (dy/dt) / (dx/dt).

The equation of the tangent line can be determined using the point-slope form, where the slope is the derivative of y(t) with respect to t evaluated at the given t-value.

To find the slope of the tangent line to the curve, we need to calculate the derivatives of x(t) and y(t) with respect to t. The derivative of x(t) can be found using the chain rule:

dx/dt = d(t - sin(t))/dt = 1 - cos(t).

Similarly, the derivative of y(t) is:

dy/dt = d(1 - cos(t))/dt = sin(t).

Now, we can calculate the slope of the tangent line using the formula dy/dx:

dy/dx = (dy/dt) / (dx/dt) = (sin(t)) / (1 - cos(t)).

For part (b), to find an equation of the tangent line, we need a specific t-value within the given interval (0 < t < 2π). Let's assume we want to find the equation of the tangent line at t = t₀. The slope of the tangent line at that point is dy/dx evaluated at t₀:

m = dy/dx = (sin(t₀)) / (1 - cos(t₀)).

Using the point-slope form of the equation of a line, we can write the equation of the tangent line as:

y - y₀ = m(x - x₀),

where (x₀, y₀) represents the point on the curve corresponding to t = t₀. Substituting the values of m, x₀, and y₀ into the equation will give you the specific equation of the tangent line at that point.

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Is Monopharm a natural monopoly? Explain.
b) What is the highest quantity Monopharm can sell without losing money? Explain.
c) What would be the quantity if Monopharm wants to earn the highest revenue? Explain.
d) Supposes Monopharm wants to maximize profit, what quantity does it sell, what price does it charge, and how much profit does it earn?
e) Continue with the above and suppose the MC curve is linear in the relevant range, how much is the dead-weight loss?
f) Suppose Monopharm can practice perfect price discrimination. What will be the quantity sold, and how much will be dead-weight loss?

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Monopharm being a natural monopoly means that it can produce a given quantity of output at a lower cost compared to multiple firms in the market.

Whether Monopharm is a natural monopoly depends on the specific characteristics of the industry and market structure. If Monopharm possesses significant economies of scale, where the average cost of production decreases as the quantity produced increases, it is more likely to be a natural monopoly. To determine the highest quantity Monopharm can sell without losing money, they need to set the quantity where marginal cost (MC) equals marginal revenue (MR). At this point, Monopharm maximizes its profit by producing and selling the quantity where the additional revenue from selling one more unit is equal to the additional cost of producing that unit.

To maximize revenue, Monopharm would aim to sell the quantity where marginal revenue is zero. This is because at this point, each additional unit sold contributes nothing to the total revenue, but the previous units sold have already generated the maximum revenue.

To maximize profit, Monopharm needs to consider both marginal revenue and marginal cost. They would produce and sell the quantity where marginal revenue equals marginal cost. This ensures that the additional revenue generated from selling one more unit is equal to the additional cost incurred in producing that unit.

If the marginal cost curve is linear in the relevant range, the deadweight loss can be calculated by finding the difference between the monopolistically high price and the perfectly competitive market price, multiplied by the difference in quantity. In the case of perfect price discrimination, Monopharm would sell the quantity where the marginal cost equals the demand curve, maximizing its revenue. Since there is no consumer surplus in perfect price discrimination, the deadweight loss would be zero.

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A fully I flared basketball has a radius of 12 centimeters. How many cubic centimeters of air does your ball need to fully inflate?

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The volume of air needed is equal to the volume of the sphere, which is 7,234.56 cm³.

How to get the volume of a sphere?

The volume of air that we need is equal to the volume of the basketball.

Remember that for a sphere of radius R, the volume is:

[tex]\sf V = \huge \text(\dfrac{4}{3}\huge \text)\times3.14\times r^3[/tex]

In this case, the radius is 12 cm, replacing that we get:

[tex]\sf V = \huge \text(\dfrac{4}{3}\huge \text)\times3.14\times (12 \ cm)^3=7,234.56 \ cm^3[/tex]

Then, to fully inflate the ball, we need 7,234.56 cm³ of air.

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triangles pqr and stu are similar. the perimeter of smaller triangle pqr is 249 ft. the lengths of two corresponding sides on the triangles are 46 ft and 128 ft. what is the perimeter of stu? round to one decimal place.

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Therefore, the perimeter of triangle STU is approximately 693 ft.

If triangles PQR and STU are similar, it means that the corresponding sides are proportional. Let's denote the perimeter of triangle STU as P_stu.

Given:

Perimeter of triangle PQR = 249 ft.

Length of one corresponding side in PQR = 46 ft.

Length of the corresponding side in STU = 128 ft.

To find the perimeter of triangle STU, we need to determine the scale factor between the two triangles, and then multiply the corresponding sides of PQR by this scale factor.

Scale factor = Length of corresponding side in STU / Length of corresponding side in PQR

Scale factor = 128 ft / 46 ft

Now, we can calculate the perimeter of triangle STU using the scale factor:

P_stu = Perimeter of triangle PQR * Scale factor

P_stu = 249 ft * (128 ft / 46 ft)

P_stu = 693 ft (rounded to one decimal place)

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In 1948, 5 people bought 66 acres of land for $124.00 per acre, In 1967, the same 66 acres was sold and bought for $15,787.25 per acre.
What was the percentage rate of mark up from 1967 to 2013? what was the mark up of the acreage from 1967 until 2013

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The percentage rate of mark up from 1948 to 1967 is 12,631.65%.

How to calculate the percentage rate of mark up?

Generally speaking, the markup price of a product can be calculated by multiplying the cost price by the markup value.

In order to determine the percentage rate of markup from 1967 to 192013, we would calculate the total overall cost and apply direct proportion as follows.

In 1948:

Total overall cost = 124 × 66

Total overall cost = $8,184.

In 1967:

Total overall cost = $15,787.25 × 66

Total overall cost = $1,041,958.5.

Mark up price = 1,041,958.5 - 8184.

Mark up price = 1,033,774.5

1,033,774.5/8,184 = x/100

x = 1,033,77450/8,184

x = 12,631.65%

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Complete Question:

In 1948, 5 people bought 66 acres of land for $124.00 per acre, In 1967, the same 66 acres was sold and bought for $15,787.25 per acre.

What was the percentage rate of mark up from 1948 to 1967?

While exploring a volcano, Zane heard some rumbling. so he decided to climb up out of there as quickly as he could.

The question is: How far was Zane from the edge of the volcano when he started climbing?

Answers

The distance that Zane was from the edge of the volcano when he started climbing would be = 25 meters.

How to determine the location of Zane from the edge of the volcano?

The graph given above which depicts the distance and time that Zane travelled is a typical example of a linear graph which shows that Zane was climbing at a constant rate.

From the graph, before Zane started climbing and he reached the edge of the volcano at exactly 35 seconds which when plotted is at 25 meters of the graph.

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Show that the following series diverges. Which condition of the Alternating Series Test is not satisfied? co 1 2 3 4 3 5.7 9 + .. (-1)k + 1, k 2k + 1 k= 1 Letak 20 represent the magnitude of the ter e(1+e-x)42 (3x-1)82-dx(dxintegrate each by one of the following: u-sub, integration by parts or partial fraction decomposition A nursing instructor is teaching about the newDSM-5diagnostic category ofdisruptive mood dysregulation disorder(DMDD). Which of the following information should theinstructor include? (Select all that apply.)1.Symptoms include verbal rages or physical aggression toward people or property.2.Temper outbursts must be present in at least two settings (at home, at school, orwith peers).3.DMDD is characterized by severe recurrent temper outbursts.4.The temper outbursts are manifested only behaviorally.5.Symptoms of DMDD must be present for 18 or more months to meet diagnosticcriteria. by the end of december, martinez company has completed work, earning $5,000. martinez company has neither billed the clients nor recorded any of the revenue. If the appropriate adjusting entry is not made at the end of the year, what will be the effect on: (a) Income statement accounts (overstated, understated, or no effect)? (b) Net income (overstated, understated, or no effect)? (c) Balance sheet accounts (overstated, understated, or no effect)? Suppose that an 1 and br = 2 and a = 1 and bi - - 4, find the sum of the series: 12=1 n=1 A. (5an +86m) 11 n=1 B. (5a, + 86.) - ( n=2 Given the assumptions below, calculate equity value and enterprise value. ($ in millions, except per share data; shares in millions) Assumptions Current Share Price $20.00 Fully Diluted Shares Outstanding 50.0 Total Debt 250.0 Preferred Stock 25.0 Cash and Cash Equivalents 50.0 Article Electronic Ability T-Write The Equation For The Voltage Coming Out Of A Full Unidirectional Wave Unit Circuit 12. Find the equation of the tangent line to f(x) = 2ex at the point where x = 1. a) y = 2ex + 4e b) y = 2ex + 2 c) y = 2ex + 1 d) y = 2ex e) None of the above a. for each of the time periods below, describe the major wave of immigration to the us that occurred and identify the continents or regions sending migrants. 16091775 18201920 1950present Considering a commercial bank's balance sheet, which one of the following statements is true? Multiple Choice O Total Bank Assets = Total Bank Capital - Total Bank LiabilitiesO Total Bank Assets = Total Bank Liabilities + Total Bank Capital O Total Bank Assets + Total Bank Liabilities =Total Bank Capital O Total Bank Assets + Total Bank Capital = Total Bank Liabilities Choose three (3) of the following that make up the definition of a short story.ResponsesCan be read in one sittingBrief, imaginative narrative containing fewer charactersWritten in stream of consciousnessContains simple plot, conflict, and suspense leading to a climax A rectangular box without a lid will be made from 12m of cardboard. Z To find the maximum volume of such a box, follow these steps: Find a formula for the volume: V = Find a formula for the ar you flip a coin and roll a 6 sided die. let h represent flipped a heads on the coin and let f represent rolling a 4 on the die. using bayes theorem, determine p (h | f) which of the following organizations is dedicated to cosmetic dentistry if you randomly select a card from a well-shuffled standard deck of 52 cards, what is the probability that the card you select is not a spade? (your answer must be in the form of a reduced fraction.) Find the area of the given triangle. Round the area to the same number of significant digits given for each of the given sides. a = 16,6 = 13, C = 15 when transporting cylinders containing used refrigerant dot requires that youa. used osha-approved container.b. attach dot classification tagsc. ship by EPA certified carriesd. do all of the above factoring the numerator, we have v(2) = lim t2 (52t 16t2) 40 t 2 = lim t2 16t 52 incorrect: your answer is incorrect. t 40 incorrect: your answer is incorrect. t 2 . A broker receives an order for three bonds: (a) 7% bond (pays interest on March and September 15) maturing on September 15, 2025; (b) 5.5% bond (pays interest on May and November 1) maturing on May 1, 2035; and (c) 10% bond (pays interest on January and July 8) maturing on July 8, 2020. All three bonds pay semi-annual interest and the current market interest rate is 9% (for all three). (a) (4 points) What prices would the broker quote for each of the three bonds if the sale is settled on November 26, 2018? Show your work. (4 points) How much accrued interest would the buyer need to pay on each of the bond? Show your work. (2 points) How much would the buyer actually pay for each of the bond? Show your work. f(x,y)= x^3- a^2x^2y +y -5does this have any local extrema?give an example of a function of 2 variables that has 2 saddlepoints and no max or min. show that it works