Assume that x= x(t) and y=y(t). Find using the following information. dy -4 when x=-1.8 and y=0.81 dt dx dt (Type an integer or a simplified fraction.)

Answers

Answer 1

Unfortunately, we don't have explicit information about the function x = x(t) or y = y(t) or their derivatives. Without further information or additional equations relating x and y, it is not possible to find the exact value of dy/dt or dx/dt.

To find dy/dt given the information that dy/dx = -4 when x = -1.8 and y = 0.81, we can use the chain rule of differentiation.

The chain rule states that if y is a function of x, and x is a function of t, then the derivative of y with respect to t (dy/dt) can be calculated by multiplying the derivative of y with respect to x (dy/dx) and the derivative of x with respect to t (dx/dt). Mathematically, it can be expressed as:

dy/dt = (dy/dx) * (dx/dt) In this case, we are given that dy/dx = -4 when x = -1.8 and y = 0.81. To find dy/dt, we need to find dx/dt.

If you have any additional information or equations relating x and y, please provide them, and I will be able to assist you further in finding the value of dy/dt.

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Related Questions

only need part 2
Given the vectors v and u, answer a. through d. below. v=6i +3j-2k u=7i+24j BICCHI a. Find the dot product of v and u. u v= 114 Find the length of v. |v|=| (Simplify your answer. Type an exact answer,

Answers

Find the dot product of v and u:

The dot product of two vectors v and u is calculated by multiplying their corresponding components and then summing them up.

v · u = (6)(7) + (3)(24) + (-2)(0)

= 42 + 72 + 0

= 114

Therefore, the dot product of v and u is 114.

c. Find the length of v:

The length or magnitude of a vector v is calculated using the formula:

|v| = √(v₁² + v₂² + v₃²)

In this case, we have v = 6i + 3j - 2k, so the components are v₁ = 6, v₂ = 3, and v₃ = -2.

|v| = √(6² + 3² + (-2)²)

= √(36 + 9 + 4)

= √49

= 7

Therefore, the length of vector v is 7.

d. Find the angle between v and u:

The angle between two vectors v and u can be found using the formula:

θ = cos⁻¹((v · u) / (|v| |u|))

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Please differentiate each function with respect to x
In 3x³ y=- y=(-2x³ + 1) In 3x4 16) y = ln x³ (2x² + 1) 18) y=(-x³-3) ln xª

Answers

Answer:

The derivatives of the given functions with respect to x are as follows:

1. y' = 9x^2

2. y' = -6x^2

3. y' = 12x^4 ln(x^3) + 6x^3 (2x^2 + 1)

4. y' = -3x^2 ln(x^a) - ax^(a-1)

Step-by-step explanation:

1. For the function y = 3x^3, we can apply the power rule of differentiation, which states that the derivative of x^n is n*x^(n-1). Thus, taking the derivative with respect to x, we have y' = 3 * 3x^2 = 9x^2.

2. For the function y = -2x^3 + 1, the derivative of a constant (1 in this case) is zero, and the derivative of -2x^3 using the power rule is -6x^2. Therefore, the derivative of y is y' = -6x^2.

3. For the function y = ln(x^3)(2x^2 + 1), we can apply the product rule and the chain rule. The derivative of ln(x^3) is (1/x^3) * 3x^2 = 3/x. The derivative of (2x^2 + 1) is 4x. Applying the product rule, we get y' = 3/x * (2x^2 + 1) + ln(x^3) * 4x = 12x^4 ln(x^3) + 6x^3 (2x^2 + 1).

4. For the function y = (-x^3 - 3) ln(x^a), we need to use both the chain rule and the product rule. The derivative of (-x^3 - 3) is -3x^2, and the derivative of ln(x^a) is (1/x^a) * ax^(a-1) = a/x. Applying the product rule, we have y' = (-3x^2) * ln(x^a) + (-x^3 - 3) * a/x = -3x^2 ln(x^a) - ax^(a-1).

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Solve the following differential equation y"-3y=0 + Select one: O a. y=C48V3x + cze -√3x O b.y=CjeV**+ce V3x O c.y=c4e3x+czex O d.y=c7e-3x+cze 3х = 3x O e. y=c7e V3x

Answers

The given differential equation is y" - 3y = 0. The characteristic equation is mr² - 3 = 0. Solving for r, we have r = ±√3. Therefore, the general solution of the differential equation is y = C1e^(√3x) + C2e^(-√3x), where C1 and C2 are constants.

Given differential equation is:y" - 3y = 0The characteristic equation is:mr² - 3 = 0Solving for r:mr² = 3r = ±√3Therefore, the general solution of the differential equation is:y = C1e^(√3x) + C2e^(-√3x)where C1 and C2 are constants. Thus, option (O) d. y = c7e^(-3x) + cze^(√3x) is the correct answer.

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-5 2. Find the area of the region enclosed by the curves. 10 _y = 2x? _ 8x+10 2 X y= 2x-1 r=1 x=3 Set up Will you use integration with respect to x or y? 1st function (for the integration formula) 2nd

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The line: y = 2x, The parabola: y = 8x + 10, The circle with radius 1: (x - 3)^2 + y^2 = 1. To find the area of the region enclosed by these curves, we'll need to determine the intersection points of these curves and set up appropriate integrals.

First, let's find the intersection points: Line and parabola:

Equating the equations, we have:

2x = 8x + 10

-6x = 10

x = -10/6 = -5/3

Substituting this value of x into the equation of the line, we get:

y=2x(−5/3)=−10/3

So, the intersection point for the line and the parabola is (-5/3, -10/3).

Parabola and circle:

Substituting the equation of the parabola into the equation of the circle, we have: (x−3)2+(8x+10)2=1

Expanding and simplifying the equation, we get a quadratic equation in x: 65x2+48x+82=0

Unfortunately, the quadratic equation does not have real solutions. It means that the parabola and the circle do not intersect in the real plane. Therefore, there is no enclosed region between these curves.

Now, let's determine the integration limits for the region enclosed by the line and the parabola. Since we only have one intersection point (-5/3, -10/3), we need to find the limits of x for this region.

To find the integration limits, we need to determine the x-values where the line and the parabola intersect. We set the equations equal to each other:

2x = 8x + 10

-6x = 10

x = -10/6 = -5/3

So, the limits of integration for x are from -5/3 to the x-value where the line crosses the x-axis (which is 0).

Therefore, the area enclosed by the line and the parabola can be calculated by integrating the difference of the two functions with respect to x: Area = ∫[−5/3,0](2x−(8x+10))dx

Simplifying the integrand:

Area = ∫[−5/3,0](2x−(8x+10))dx

= ∫[−5/3,0](−6x−10)dx

Now, we can integrate term by term:

Area = [−3x2/2−10x] evaluated from -5/3 to 0

= [(−3(0)2/2−10(0))−(−3(−5/3)2/2−10(−5/3))]

Simplifying further:

Area = [0 - (-75/6 - 50/3)]

= [0 - (-125/6)]

= 125/6

Hence, the area enclosed by the line and the parabola over the given limits is 125/6 square units.

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Question 2 0/1 pt 10 Consider the vector field F = (7x + 2y, 5x + 7y) Is this vector field Conservative? Select an answer v If so: Find a function f so that F = of f(x,y) +K Use your answer to evaluate SF. F. dr along the curve C: F(t) = t? 7 + +*;, o

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The given vector field F = (7x + 2y, 5x + 7y) is conservative since its partial derivatives satisfy the condition. To find a function f(x, y) such that F = ∇f, we integrate the components of F and obtain f(x, y) = (7/2)x^2 + 2xy + (7/2)y^2 + C. To evaluate ∫F · dr along the curve C, we substitute the parametric equations of C into F and perform the dot product, then integrate to find the numerical value of the integral.

To determine if a vector field is conservative, we need to check if its partial derivatives with respect to x and y are equal. In this case, the partial derivatives of F = (7x + 2y, 5x + 7y) are ∂F/∂x = 7 and ∂F/∂y = 2. Since these derivatives are equal, the vector field is conservative.

To find a function f(x, y) such that F = ∇f, we integrate the components of F with respect to their respective variables. Integrating 7x + 2y with respect to x gives (7/2)x^2 + 2xy, and integrating 5x + 7y with respect to y gives 5xy + (7/2)y^2. So, we have f(x, y) = (7/2)x^2 + 2xy + (7/2)y^2 + C, where C is the constant of integration.

To evaluate ∫F · dr along the curve C, we substitute the parametric equations of C into F and perform the dot product. Let C(t) = (t^2, t) be the parametric equation of C. Substituting into F, we have F(t) = (7t^2 + 2t, 5t + 7t), and dr = (2t, 1)dt. Performing the dot product, we get F · dr = (7t^2 + 2t)(2t) + (5t + 7t)(1) = 14t^3 + 4t^2 + 12t.

To find the integral ∫F · dr, we integrate the expression 14t^3 + 4t^2 + 12t with respect to t over the appropriate interval of C. The specific interval of C needs to be provided in order to calculate the numerical value of the integral.

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Consider the following.
t = −

3
(a) Find the reference number t for the value of t.
t =
(b) Find the terminal point determined by t.
(x, y) =

Answers

The given equation t = −4π/3 represents a reference number on the unit circle. To find the reference number t, we can simply substitute the given value of t into the equation.

In trigonometry, the unit circle is a circle with a radius of 1 unit centered at the origin (0, 0) in a coordinate plane. It is commonly used to represent angles and their corresponding trigonometric functions. The equation t = −4π/3 defines a reference number on the unit circle.

To find the reference number t, we substitute the given value of t into the equation. In this case, t = −4π/3. Therefore, the reference number is t = −4π/3.

The terminal point (x, y) on the unit circle can be determined by using the reference number t. The x-coordinate of the terminal point is given by x = cos(t) and the y-coordinate is given by y = sin(t).

By substituting t = −4π/3 into the trigonometric functions, we can find the values of x and y. Hence, the terminal point determined by t is (x, y) = (cos(−4π/3), sin(−4π/3)).

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Tutorial Exercise Find the volume V of the solid obtained by rotating the region bounded by the given curves about the specified line. y-2x², y = 2x, x20; about the x-axis Step 1 Rotating a vertical

Answers

Answer:

Volume of the solid obtained by rotating the region bounded by the curves y = 2x and y = 2x² about the x-axis is -4π/3 or approximately -4.18879 cubic units.

Step-by-step explanation:

To find the volume V of the solid obtained by rotating the region bounded by the curves y = 2x and y = 2x² about the x-axis, we can use the method of cylindrical shells.

The volume V can be calculated by integrating the circumference of the cylindrical shells and multiplying it by the height of each shell.

The limits of integration can be determined by finding the intersection points of the two curves.

Setting 2x = 2x², we have:

2x - 2x² = 0

2x(1 - x) = 0

This equation is satisfied when x = 0 or x = 1.

Thus, the limits of integration for x are 0 to 1.

The radius of each cylindrical shell is given by the distance from the x-axis to the curve y = 2x or y = 2x². Since we are rotating about the x-axis, the radius is simply the y-value.

The height of each cylindrical shell is given by the difference in the y-values of the two curves at a specific x-value. In this case, it is y = 2x - 2x² - 2x² = 2x - 4x².

The circumference of each cylindrical shell is given by 2π times the radius.

Therefore, the volume V can be calculated as follows:

V = ∫(0 to 1) 2πy(2x - 4x²) dx

V = 2π ∫(0 to 1) y(2x - 4x²) dx

Now, we need to express y in terms of x. Since y = 2x, we can substitute it into the integral:

V = 2π ∫(0 to 1) (2x)(2x - 4x²) dx

V = 2π ∫(0 to 1) (4x² - 8x³) dx

V = 2π [ (4/3)x³ - (8/4)x⁴ ] | from 0 to 1

V = 2π [ (4/3)(1³) - (8/4)(1⁴) ] - 2π [ (4/3)(0³) - (8/4)(0⁴) ]

V = 2π [ 4/3 - 8/4 ]

V = 2π [ 4/3 - 2 ]

V = 2π [ 4/3 - 6/3 ]

V = 2π (-2/3)

V = -4π/3

The volume of the solid obtained by rotating the region bounded by the curves y = 2x and y = 2x² about the x-axis is -4π/3 or approximately -4.18879 cubic units.

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Find the missing side.
27°
N
z = [?]
11

Answers

The measure of the missing side length z in the right triangle is approximately 24.2.

What is the measure of the missing side length?

The figure in the image is a right triangle.

Angle θ = 27 degrees

Opposite to angle θ = 11

Hypotenuse = z

To solve for the missing side length z, we use the trigonometric ratio.

Note that: SOHCAHTOA → sine = opposite / hypotenuse

Hence:

sin( θ ) = opposite / hypotenuse

Plug in the given values:

sin( 27 ) = 11 / z

Cross multiply

sin( 27 ) × z = 11

Divide both sides by sin( 27 )

z = 11 / sin( 27 )

z = 24.2

Therefore, the value of z is approximately 24.2.

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DETAILS LARAPCALC10 5.2.002. MY NOTES du Identify u and dx for the integral du dx dx. fun ( | 14 - 3x2}{-6x) dx U du dx Need Help? Read Watch It 2. (-/1 Points] DETAILS LARAPCALC10 5.2.008. MY NOTES Identify w and du dx for the integral du dx dx. for ( / (3- vx)} ( 2 ) x dx U du dx

Answers

In the given problem, we are asked to identify the variables and differentials for two integrals.  We take the derivative of w with respect to x. Therefore, du/dx = -3/√x + 1.

For the first integral, let's identify "u" and "dx." We have ∫(14 - 3x^2)/(-6x) dx. Here, we can rewrite the integrand as (-1/2) * (14 - 3x^2)/x dx. Now, we can see that the expression (14 - 3x^2)/x can be simplified by factoring out an x from the numerator. It becomes (14/x) - 3x. Now, we can let u = 14/x - 3x. To find dx, we take the derivative of u with respect to x. Therefore, du/dx = (-14/x^2) - 3. Rearranging this equation, we get dx = -du / (3 + 14/x^2).

Moving on to the second integral, we need to identify "w" and "du/dx." The integral is ∫(3 - √x)^2 x dx. To simplify the integrand, we expand the square term: (3 - √x)^2 = 9 - 6√x + x. Now, we can rewrite the integral as ∫(9 - 6√x + x)x dx. Here, we can let w = 9 - 6√x + x. To find du/dx, we take the derivative of w with respect to x. Therefore, du/dx = -3/√x + 1.

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What does an extension ladder's size classification indicate?
Select one:
a.The minimum reach when placed at the appropriate climbing angle
b.The ladder's length when the fly section is not extended
c.The maximum building height against which the ladder can be raised
d.The full length to which it can be extended

Answers

The correct answer is (D) The full length to which it can be extended.

The size classification of an extension ladder indicates the full length to which it can be extended.
An extension ladder's size classification indicates the total length the ladder can reach when its fly section is fully extended.

This helps users determine if the ladder will be long enough for their specific needs when working at height.

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You are designing a rectangular poster to contain 75 in? or printing with a 6-in margin at the top and bottom and a 2-in margin at each side. What overall dimensions wil minimize the amount of paper used? What is the vertical height of the poster that will minimize the amount of paper used? What is tho horizontal width of the poster that wil minimize the amount of paper usod?

Answers

The poster needs to be designed to fit 75 square inches of printing with a 6-inch margin at the top and bottom and a 2-inch margin on either side. The aim is to minimize the amount of paper used. The dimensions of the poster that will minimize the amount of paper used are 7 inches for the vertical height and 16 inches for the horizontal width.

We need to design a rectangular poster to fit 75 square inches of printing with a 6-inch margin at the top and bottom and a 2-inch margin on either side. This means the total area of the poster will be 75 + (6 x 2) x (2 x 2) = 99 square inches. To minimize the amount of paper used, we need to find the dimensions of the poster that will give us the smallest area. Let the vertical height of the poster be h and the horizontal width be w. Then we have h + 12 = w + 4  (since the total width of the poster is h + 4 and the total height is w + 12)75 = hw. We can solve the first equation for h in terms of w: h = w - 8 + 12 = w + 4. Substituting this into the second equation, we get:75 = w(w + 4)w² + 4w - 75 = 0w = (-4 ± √676)/2 = (-4 ± 26)/2 = 11 or -15The negative value doesn't make sense in this context, so we take w = 11. Then we have h = 15. Therefore, the dimensions of the poster that will minimize the amount of paper used are 7 inches for the vertical height and 16 inches for the horizontal width.

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Determine whether the equation is exact. If it is exact, find the solution. If it is not, enter NS.
(y/x+9x)dx+(ln(x)−2)dy=0, x>0
Enclose arguments of functions in parentheses. For example, sin(2x).
____________________=c, where c is a constant of integration.

Answers

The given equation is not exact. To determine whether the equation is exact or not, we need to check if the partial derivatives of the coefficients with respect to x and y are equal.

Let's calculate these partial derivatives:

∂(y/x+9x)/∂y = 1/x

∂(ln(x)−2)/∂x = 1/x

The partial derivatives are not equal, which means the equation is not exact. Therefore, we cannot directly find a solution using the method of exact equations.

To proceed further, we can check if the equation is an integrating factor equation by calculating the integrating factor (IF). The integrating factor is given by:

IF = e^∫(∂Q/∂x - ∂P/∂y) dy

Here, P = y/x+9x and Q = ln(x)−2. Calculating the difference of partial derivatives:

∂Q/∂x - ∂P/∂y = 1/x - 1/x = 0

Since the difference is zero, the integrating factor is 1, indicating that no integrating factor is needed.

As a result, since the equation is not exact and no integrating factor is required, we cannot find a solution to the given equation. Hence, the solution is "NS" (No Solution).

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#20,21,22
T 2 Hint: use even & odd function 1+X6 Sind #10 Evaluate Stano sec? o do #11 Evaluate 1 x?sinx dx ( - 7 T- #12 Evaluate sa x Na?x? dx #13 Evaluate Sot 1x-4x+31dx #14 Find F'(X) if F(x) = So I dt () st

Answers

The values of all sub-parts have been obtained.

(10). Even function,  [tex]\[\int_{-\frac{\pi}{2}}^{\frac{\pi}{2}} \sec^6(x) \, dx\][/tex]

(11). Odd function,  [tex]\[\int_{-\frac{\pi}{2}}^{\frac{\pi}{2}} \sec^6(x) \, dx\][/tex]

(12). Odd function,[tex]\(\int \frac{\sin(x)}{x} \, dx\).[/tex]

(13). [tex]\[\int \frac{1}{(x - 1)(x - 3)} \, dx\][/tex]

(14). [tex]\[F'(x) = \frac{d}{dx}\left(\int_0^x t \, dt\right) = x\][/tex]

What is integral calculus?

Integral calculus is a branch of mathematics that deals with the study of integrals and their applications. It is the counterpart to differential calculus, which focuses on rates of change and slopes of curves. Integral calculus, on the other hand, is concerned with the accumulation of quantities and finding the total or net effect of a given function.

The main concept in integral calculus is the integral, which represents the area under a curve. It involves splitting the area into infinitely small rectangles and summing their individual areas to obtain the total area. This process is known as integration.

#10

Evaluate[tex]\(\int_0^\pi \sec^6(x) \, dx\).[/tex]

To evaluate this integral, we can use the properties of even and odd functions. Since [tex]\(\sec(x)\)[/tex] is an even function, we can rewrite the integral as follows:

[tex]\[\int_{-\frac{\pi}{2}}^{\frac{\pi}{2}} \sec^6(x) \, dx\][/tex]

Now, we can use integration techniques or a calculator to evaluate the integral.

#11

Evaluate [tex]\(\int_0^\pi x \sin(x) \, dx\).[/tex]

This integral involves the product of an odd function, [tex](\(x\))[/tex] and an odd function[tex](\(\sin(x)\)).[/tex] When multiplying odd functions, the resulting function is even. Therefore, the integral of the product over a symmetric interval[tex]\([-a, a]\)[/tex] is equal to zero. In this case, the interval is [tex]\([0, \pi]\)[/tex] , so the value of the integral is zero.

#12

Evaluate[tex]\(\int \frac{\sin(x)}{x} \, dx\).[/tex]

This integral represents the sine integral function, denoted as

[tex]\(\text{Si}(x)\).[/tex] The derivative of [tex]\(\text{Si}(x)\)[/tex]  is [tex]\(\frac{\sin(x)}{x}\).[/tex]

Therefore, the integral evaluates to [tex]\(\text{Si}(x) + C\)[/tex], where [tex]\(C\)[/tex]is the constant of integration.

#13

Evaluate[tex]\(\int \frac{1}{x^2 - 4x + 3} \, dx\).[/tex]

To evaluate this integral, we need to factorize the denominator. The denominator can be factored as[tex]\((x - 1)(x - 3)\).[/tex]Therefore, we can rewrite the integral as follows:

[tex]\[\int \frac{1}{(x - 1)(x - 3)} \, dx\][/tex]

Next, we can use partial fractions to split the integrand into simpler fractions and then integrate each term separately.

#14

Find [tex]\(F'(x)\) if \(F(x) = \int_0^x t \, dt\).[/tex]

To find the derivative of [tex]\(F(x)\)[/tex], we can use the

Fundamental Theorem of Calculus, which states that if a function [tex]\(f(x)\)[/tex] is continuous on an interval [tex]\([a, x]\),[/tex] then the derivative of the integral of [tex]\(f(t)\)[/tex] with respect to [tex]\(x\)[/tex] is equal to [tex]\(f(x)\).[/tex] Applying this theorem, we have:

[tex]\[F'(x) = \frac{d}{dx}\left(\int_0^x t \, dt\right) = x\][/tex]

Therefore, the derivative of [tex]\(F(x)\)[/tex] is [tex]\(x\)[/tex].

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si d dx is convergent. True O False
If f is continuous on [0, [infinity]o), and if f f (x) da is convergent, then ° ƒ (x) dx is convergent. True False

Answers

The statement "If f is continuous on [0, ∞) and if ∫f(x) dx is convergent, then ∫f'(x) dx is convergent" is true.

The integral of a continuous function over a given interval converges if and only if the function itself is bounded on that interval. If f(x) is continuous on [0, ∞) and its integral converges, it implies that f(x) is bounded on that interval. Since f'(x) is the derivative of f(x), it follows that f'(x) is also bounded on [0, ∞). As a result, the integral of f'(x) over the same interval, ∫f'(x) dx, is convergent.

The statement is a consequence of the fundamental theorem of calculus, which states that if a function f is continuous on a closed interval [a, b] and F is an antiderivative of f on [a, b], then ∫f(x) dx = F(b) - F(a). In this case, if ∫f(x) dx converges, it implies that F(x) is bounded on [0, ∞). Since F(x) is an antiderivative of f(x), it follows that f(x) is bounded on [0, ∞) as well.

As f(x) is bounded, its derivative f'(x) is also bounded on [0, ∞). Therefore, the integral of f'(x) over the same interval, ∫f'(x) dx, is convergent. This result holds under the assumption that f(x) is continuous on [0, ∞) and that ∫f(x) dx converges.

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A local office supply store has an annual demand for 10,000 cases of photocopier paper per year . It costs $ 4 per year to store a case of photocopier paper , and it costs $ 70 to place an order . Find the optimum number of cases of photocopier paper per order

Answers

Rounding to the nearest whole number, the optimum number of cases of photocopier paper per order is approximately 592 cases.

To find the optimum number of cases of photocopier paper per order, we can use the Economic Order Quantity (EOQ) formula. The EOQ formula helps minimize the total cost of ordering and holding inventory.

The EOQ formula is given by:

EOQ = sqrt((2 * D * S) / H)

where:

D = Annual demand (10,000 cases per year in this case)

S = Ordering cost per order ($70 in this case)

H = Holding cost per unit per year ($4 in this case)

Substituting the values into the formula:

EOQ = sqrt((2 * 10,000 * 70) / 4)

EOQ = sqrt((1,400,000) / 4)

EOQ ≈ sqrt(350,000)

EOQ ≈ 591.607

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Let C be the line segment from the point (-4,8) to the point (2,-4), C, be the arc on the parabola y = r2-8 from the point (-4,8) to the point (2, -4), and R be the region enclosed by C and C2. Consid

Answers

Firstly, a line segment is a straight path that connects two points. In this case, the line segment C connects the points (-4,8) and (2,-4).

A point, on the other hand, is a specific location in space that is defined by its coordinates. The points (-4,8) and (2,-4) are two specific points that are being connected by the line segment C.

Now, moving on to the explanation of the problem - we have a line segment C and an arc on a parabola y = r2-8 that connect the same two points (-4,8) and (2,-4). The region R is enclosed by both the line segment C and the arc.

To solve this problem, we need to find the equation of the parabola y = r2-8, which is a basic upward-facing parabola with its vertex at (0,-8). Then, we need to find the points where the parabola intersects with the line segment C, which will give us the two endpoints of the arc C2. Once we have those points, we can calculate the area enclosed by the two curves using integration.

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Question 6 A particle is moving with acceleration a(t) = 6t+18, inches per square second, wheret is in seconds. Its position at time t = 0 is s(0) = 10 inches and its velocity at time t = 0 is v(0) =

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A particle with a given acceleration function and initial conditions for position and velocity. We need to determine the position and velocity functions of the particle.

To find the position and velocity functions of the particle, we integrate the given acceleration function.

First, integrating the acceleration function a(t) = 6t + 18 with respect to time gives us the velocity function v(t) = [tex]3t^2 + 18t + C[/tex], where C is the constant of integration. To determine the value of C, we use the initial velocity v(0) = 5 inches per second.

Plugging in t = 0 and v(0) = 5 into the velocity function, we get 5 = 0 + 0 + C, which implies C = 5. Therefore, the velocity function becomes v(t) = [tex]3t^2 + 18t + 5[/tex].

Next, we integrate the velocity function with respect to time to find the position function. Integrating v(t) = [tex]3t^2 + 18t + 5[/tex] gives us the position function s(t) = t^3 + 9t^2 + 5t + D, where D is the constant of integration. To determine the value of D, we use the initial position s(0) = 10 inches.

Plugging in t = 0 and s(0) = 10 into the position function, we get 10 = 0 + 0 + 0 + D, which implies D = 10. Therefore, the position function becomes s(t) = [tex]t^3 + 9t^2 + 5t + 10[/tex].

In conclusion, the position function of the particle is s(t) = [tex]t^3 + 9t^2 + 5t + 10[/tex] inches, and the velocity function is v(t) = [tex]3t^2 + 18t + 5[/tex] inches per second.

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Set up an integral. Do not integrate. Find the work done in pumping gasoline that weighs 42 pounds per cubic foot. A cylindrical gasoline tank 3 feet in diameter and 4 feet long is carried on the back of a truck and is used to fuel tractors. The axis of the tank is horizontal. The opening on the tractor tank is 5 feet above the top of the tank in the truck. Find the work done in pumping the entire contents of the fuel tank into the tractor.

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To find the work done in pumping the entire contents of the cylindrical gasoline tank into the tractor, we need to calculate the integral of the weight of the gasoline over the volume of the tank. The weight can be determined from the density of gasoline, and the volume of the tank can be calculated using the dimensions given.

The weight of the gasoline can be found using the density of 42 pounds per cubic foot. The volume of the tank can be calculated as the product of the cross-sectional area and the length of the tank. The cross-sectional area of a cylinder is πr^2, where r is the radius of the tank (which is half of the diameter). Given that the tank has a diameter of 3 feet, the radius is 1.5 feet. The length of the tank is 4 feet. The volume of the tank is therefore V = π(1.5^2)(4) = 18π cubic feet.

To calculate the work done in pumping the entire contents of the tank, we need to integrate the weight of the gasoline over the volume of the tank. The weight per unit volume is the density, which is 42 pounds per cubic foot. The integral for the work done is then:

Work = ∫(density)(dV)

where dV represents an infinitesimally small volume element. In this case, we integrate over the entire volume of the tank, which is 18π cubic feet. The exact calculation of the integral requires further details on the pumping process, such as the force applied and the path followed during the pumping. Without this information, we can set up the integral but cannot evaluate it.

In summary, the work done in pumping the entire contents of the fuel tank into the tractor can be determined by calculating the integral of the weight of the gasoline over the volume of the tank. The volume can be calculated from the given dimensions, and the weight can be determined from the density of the gasoline. The exact evaluation of the integral depends on further information about the pumping process.

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A model used for the yield Y of an agricultural crop as a function of the nitrogen level N in the soil (measured in appropriate units) is Y = kN 81 + N²¹ where k is a positive constant. What nitroge

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To find the nitrogen level that maximizes the yield of the agricultural crop, we need to determine the value of N that corresponds to the maximum of the function Y = kN / (81 + N^21).

The maximum value of a function occurs when its derivative is equal to zero or does not exist. We can find the derivative of Y with respect to N:

dY/dN = (k(81 + N^21) - kN(21N^20)) / (81 + N^21)^2

Setting this derivative equal to zero, we get:

k(81 + N^21) - kN(21N^20) = 0

Simplifying the equation, we have:

81 + N^21 = 21N^20

By finding the value(s) of N that satisfy the equation, we can determine the nitrogen level(s) that maximize the crop yield according to the given model. It's important to note that the model assumes a specific functional form for the relationship between nitrogen level and crop yield. The validity of the model and the optimal nitrogen level would need to be verified through experimental data and further analysis.

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(a) Find the binomial expansion of (1 – x)-1 up to and including the term in x2. (1) 3x - 1 (1 – x)(2 – 3x) in the form A + - X B 2-3x, where A and B are integers. (b) (i) Express 1 (3) (ii)

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Therefore, (0.101101101...)2 can be expressed as 1410 / 99 for the given binomial expansion.

The solution to the given question is as follows(a) To obtain the binomial expansion of (1 - x)-1 up to and including the term in x2, we use the following formula:

(1 + x)n = 1 + nx + n(n - 1) / 2! x2 + n(n - 1)(n - 2) / 3! x3 + ...The formula applies when n is a positive integer. When n is negative or fractional, we obtain a more general formula that applies to any value of n, such as(1 + x)n = 1 / (1 - x) n = 1 - nx + (n(n + 1) / 2!) x2 - (n(n + 1)(n + 2) / 3!) x3 + ...where the expansion is valid when |x| < 1.Substituting -x for x in the second formula gives us(1 - x)-1 = 1 + x + x2 + x3 + ...

The binomial expansion of (1 - x)-1 up to and including the term in x2 is therefore:1 + x + x2.To solve for (1 – x)(2 – 3x) in the form A + - X B 2-3x, we expand the expression (1 - x)(2 - 3x) = 2 - 5x + 3x2.

The required expression can be expressed as follows:A - BX 2-3x = A + BX (2 - 3x)Setting (2 - 3x) equal to 1, we get B = -1.Substituting 2 for x in the original equation gives us 3. Hence A - B(3) = 3, which implies A = 0.Thus, (1 – x)(2 – 3x) can be expressed in the form 0 + 1X(2 - 3x).

Therefore, (1 – x)(2 – 3x) in the form A + - X B 2-3x is equal to X - 6.(b) (i) To express 1 / 3 in terms of powers of 2, we proceed as follows:1 / 3 = 2k(0.a1a2a3...)2-1 = 2k a1. a2a3...where 0.a1a2a3... represents the binary expansion of 1 / 3, and k is an integer that can be determined as follows:2k > 1 / 3 > 2k+1

Dividing all sides of the above inequality by 2k+1, we get1 / 2 < (1 / 3) / 2k+1 < 1 / 4This implies that k = 1, and the binary expansion of 1 / 3 is therefore 0.01010101....Therefore, 1 / 3 can be expressed as a sum of a geometric series as follows:1 / 3 = (0.01010101...)2= (0.01)2 + (0.0001)2 + (0.000001)2 + ...= (1 / 4) + (1 / 16) + (1 / 256) + ...= 1 / 3(ii)

To convert (0.101101101...)2 to a rational number, we use the fact that any repeating binary expansion can be expressed as a rational number of the form p / q, where p is an integer and q is a positive integer with no factor of 2 or 5. Let x = (0.101101101...)2. Multiplying both sides by 8 gives8x = (101.101101101...)2. Subtracting x from 8x gives7x = (101.101)2. Multiplying both sides by 111 gives777x = 111(101.101)2= 11101.1101 - 111.01

Thus, x = (11101.1101 - 111.01) / 777= (10950.8 - 7) / 777= 10943.8 / 777= 1410 / 99 Therefore, (0.101101101...)2 can be expressed as 1410 / 99.

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can
someone answer this immediately with the work
Let f (x) be equal to -x + 1 for x < 0, equal to 1 for 0≤x≤ 1, equal to -*+2 for 1

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The function f(x) is defined differently for different values of x.
For x less than 0, f(x) is equal to -x + 1.

For values of x between 0 and 1 (inclusive), f(x) is equal to 1.
For values of x greater than 1, f(x) is equal to -*+2
So overall, the function f(x) is a piecewise function with different definitions for different intervals of x.
Let f(x) be a piecewise function defined as follows:
1. f(x) = -x + 1 for x < 0
2. f(x) = 1 for 0 ≤ x ≤ 1
3. f(x) = -x + 2 for x > 1
This function behaves differently depending on the input value (x). For x values less than 0, the function follows the equation -x + 1. For x values between 0 and 1 inclusive, the function equals 1. And for x values greater than 1, the function follows the equation -x + 2.

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Inx 17. Evaluate the integral (show clear work!): S * dx
14. Write an expression that gives the area under the curve as a limit. Use right endpoints. Curve: f(x) = x? from x = 0 to x = 1. Do not att

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I apologize, but there seems to be some missing information in your question.

For question 17, there is no function or limits of integration provided, so I cannot evaluate the integral. Please provide the necessary information.

For question 14, the prompt seems to be cut off. It says "Write an expression that gives the area under the curve as a limit," but then it cuts off with "Do not att." Please provide the complete prompt so I can assist you better.

The integral ∫[0 to 1] x² dx evaluates to 1/3.

To evaluate this integral, we can use the power rule for integration. Applying the power rule, we increase the power of x by 1 and divide by the new power. Thus, integrating x² gives us (1/3)x³.

To evaluate the definite integral from x = 0 to x = 1, we substitute the upper limit (1) into the antiderivative and subtract the result when the lower limit (0) is substituted.

Using the Fundamental Theorem of Calculus, the area under the curve is given by the expression A = ∫[0 to 1] f(x) dx. For this case, f(x) = x².

To approximate the area using right endpoints, we can use a Riemann sum. Dividing the interval [0, 1] into subintervals and taking the right endpoint of each subinterval, the Riemann sum can be expressed as lim[n→∞] Σ[i=1 to n] f(xᵢ*)Δx, where f(xᵢ*) is the value of the function at the right endpoint of the i-th subinterval and Δx is the width of each subinterval.

In this specific case, since the function f(x) = x² is an increasing function on the interval [0, 1], the right endpoints of the subintervals will be f(x) values.

Therefore, the area under the curve from x = 0 to x = 1 can be expressed as lim[n→∞] Σ[i=1 to n] (xi*)²Δx, where Δx is the width of each subinterval and xi* represents the right endpoint of each subinterval.

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Find the Taylor polynomial of degree 3 at 0. 25) f(x) = 1n(1 - 3x)

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The Taylor polynomial of degree 3 for the function f(x) = ln(1 - 3x) centered at x = 0 is P3(x) = -3x + (9/2)x^2 + 9x^3.

To find the Taylor polynomial of degree 3 for the function f(x) = ln(1 - 3x) centered at x = 0, we need to find the values of the function and its derivatives at x = 0.

Step 1: Find the value of the function at x = 0.

f(0) = ln(1 - 3(0)) = ln(1) = 0

Step 2: Find the first derivative of the function.

f'(x) = d/dx [ln(1 - 3x)]

      = 1/(1 - 3x) * (-3)

      = -3/(1 - 3x)

Step 3: Find the value of the first derivative at x = 0.

f'(0) = -3/(1 - 3(0)) = -3/1 = -3

Step 4: Find the second derivative of the function.

f''(x) = d/dx [-3/(1 - 3x)]

       = 9/(1 - 3x)^2

Step 5: Find the value of the second derivative at x = 0.

f''(0) = 9/(1 - 3(0))^2 = 9/1 = 9

Step 6: Find the third derivative of the function.

f'''(x) = d/dx [9/(1 - 3x)^2]

        = 54/(1 - 3x)^3

Step 7: Find the value of the third derivative at x = 0.

f'''(0) = 54/(1 - 3(0))^3 = 54/1 = 54

Now we have the values of the function and its derivatives at x = 0. We can use these values to write the Taylor polynomial.

The general formula for the Taylor polynomial of degree 3 centered at x = 0 is:

P3(x) = f(0) + f'(0)x + (f''(0)/2!)x^2 + (f'''(0)/3!)x^3

Plugging in the values we found, we get:

P3(x) = 0 + (-3)x + (9/2)x^2 + (54/6)x^3

     = -3x + (9/2)x^2 + 9x^3

Therefore, the Taylor polynomial of degree 3 for the function f(x) = ln(1 - 3x) centered at x = 0 is P3(x) = -3x + (9/2)x^2 + 9x^3.

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7. Determine the intervals of concavity and any points of inflection for: f(x) = e*sinx on the interval 05x521

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The intervals of concavity for f(x) = e*sinx on the interval 0<=x<=5pi/2 are [0, pi], [2*pi, 3*pi], and [4*pi, 5*pi/2]. The points of inflection are at x = n*pi where n is an integer.

To determine the intervals of concavity and any points of inflection for f(x) = e*sinx on the interval 0<=x<=5pi/2, we need to find the first and second derivatives of f(x) and then find where the second derivative is zero or undefined.

The first derivative of f(x) is f'(x) = e*cosx. The second derivative of f(x) is f''(x) = -e*sinx.

To find  where the second derivative is zero or undefined, we set f''(x) = 0 and solve for x.

-e*sinx = 0 => sinx = 0 => x = n*pi where n is an integer.

Therefore, the points of inflection are at x = n*pi where n is an integer.

To determine the intervals of concavity, we need to test the sign of f''(x) in each interval between the points of inflection.

For x in [0, pi], f''(x) < 0 so f(x) is concave down in this interval.

For x in [pi, 2*pi], f''(x) > 0 so f(x) is concave up in this interval.

For x in [2*pi, 3*pi], f''(x) < 0 so f(x) is concave down in this interval.

For x in [3*pi, 4*pi], f''(x) > 0 so f(x) is concave up in this interval.

For x in [4*pi, 5*pi/2], f''(x) < 0 so f(x) is concave down in this interval.

Therefore, the intervals of concavity are [0, pi], [2*pi, 3*pi], and [4*pi, 5*pi/2].

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A state highway patrol official wishes to estimate the percentage/proportion of drivers that exceed the speed limit traveling a certain road.
A. How large a sample is needed in order to be 95% confident that the sample proportion will not differ from the true proportion by more than 3 %? Note that you have no previous estimate for p.
B. Repeat part (A) assuming previous studies found that the sample percentage of drivers on this road who exceeded the speed limit was 65%

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A) Approx. 1067 is the required sample size to ensure 95% confidence that the sample proportion will not differ from the true proportion by more than 3%.

B) When the previous estimate is 65%, approx. 971 is the sample size needed to achieve 95% confidence that the sample proportion will not differ by more than 3% from the true proportion.

How to calculate the sample size needed for estimating the proportion?

To determine the sample size needed for estimating the proportion of drivers exceeding the speed limit, we can use the formula for sample size calculation for proportions:

n = (Z² * p * (1 - p)) / E²

where:

n = the sample size.

Z = the Z-value associated with the confidence level of 95%.

p = the estimated proportion or previous estimate.

E = the maximum allowable error, which is 3% or 0.03.

We calculate as follows:

A. No previous estimate for p is available:

Here, we will assume p = 0.5 (maximum variance) since we don't have any prior information about the proportion. So, adding the values into the formula:

n = (Z² * p * (1 - p)) / E²

n = ((1.96)² * 0.5 * (1 - 0.5)) / 0.03²

n= (3.842 * 0.5 * (0.5))/0.03²

n = (1.9208*0.5)/0.0009

n ≈ 1067.11

Thus, to be 95% confident that the sample proportion will not differ from the true proportion by more than 3%, a sample size of approximately 1067 is required.

B. Supposing previous studies found that the sample percentage of drivers who exceeded the speed limit is 65%:

Here, we have a previous estimate of p = 0.65:

Putting the values into the formula:

n = (Z²* p * (1 - p)) / E²

n = ((1.96)² * 0.65 * (1 - 0.65)) / 0.03²

n= (3.842 * 0.65 *(0.35))/0.0009

n ≈ 971

Hence, with the previous estimate of 65%, a sample size of approximately 971 is necessary to be 95% confident that the sample proportion will not differ from the true proportion by more than 3%.

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(a) (4, -4) (i) Find polar coordinates (r, ) of the point, where r> 0 and se < 21. (r, 0) = (ii) Find polar coordinates (r, o) of the point, where r < 0 and 0 se < 2t. (r, 0) = (b) (-1, 3) (0) Find po

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In the polar coordinates are as follows:

(a) (4, -4):

(i) (r, θ) = (4√2, -45°)

(ii) (r, θ) = (-4√2, 315°)

(b) (-1, 3):

(r, θ) = (√10, -71.57°)

(a) (4, -4):

(i) To find the polar coordinates (r, θ) where r > 0 and θ < 21, we need to convert the given Cartesian coordinates (4, -4) to polar coordinates. The magnitude r can be found using the formula r = √(x^2 + y^2), where x and y are the Cartesian coordinates. In this case, r = √(4^2 + (-4)^2) = √(16 + 16) = √32 = 4√2. To find the angle θ, we can use the inverse tangent function: θ = atan(y/x) = atan(-4/4) = atan(-1) ≈ -45°. Therefore, the polar coordinates are (4√2, -45°).

(ii) To find the polar coordinates (r, θ) where r < 0 and 0 ≤ θ < 2π, we need to negate the magnitude r and adjust the angle θ accordingly. In this case, since r = -4√2 and θ = -45°, we can represent it as (r, θ) = (-4√2, 315°).

(b) (-1, 3):

To find the polar coordinates for the point (-1, 3), we follow a similar procedure. The magnitude r = √((-1)^2 + 3^2) = √(1 + 9) = √10. The angle θ = atan(3/-1) = atan(-3) ≈ -71.57°. Therefore, the polar coordinates are (√10, -71.57°).

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Evaluate sint, cost, and tan t.
t = 3pi/2

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To evaluate sin(t), cos(t), and tan(t) when t = 3π/2, we can use the unit circle and the values of sine, cosine, and tangent for the corresponding angle on the unit circle. By determining the angle 3π/2 on the unit circle, we can find the values of sine, cosine, and tangent for that angle.

When t = 3π/2, it corresponds to the angle in the Cartesian coordinate system where the terminal side is pointing downward in the negative y-axis direction.

On the unit circle, the y-coordinate represents sin(t), the x-coordinate represents cos(t), and the ratio of sin(t)/cos(t) represents tan(t). Since the terminal side is pointing downward, sin(t) is equal to -1, cos(t) is equal to 0, and tan(t) is undefined (since it is division by zero).

Therefore, when t = 3π/2, sin(t) = -1, cos(t) = 0, and tan(t) is undefined.

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The values are: sin(3π/2) = -1, cos(3π/2) = 0, tan(3π/2) is undefined.

What is sine?

In mathematics, the sine function, often denoted as sin(x), is a fundamental trigonometric function that relates the ratio of the length of the side opposite an angle in a right triangle to the length of the hypotenuse.

To evaluate the trigonometric functions sin(t), cos(t), and tan(t) at t = 3π/2:

sin(t) represents the sine function at t, so sin(3π/2) can be calculated as:

sin(3π/2) = -1

cos(t) represents the cosine function at t, so cos(3π/2) can be calculated as:

cos(3π/2) = 0

tan(t) represents the tangent function at t, so tan(3π/2) can be calculated as:

tan(3π/2) = sin(3π/2) / cos(3π/2)

Since cos(3π/2) = 0, tan(3π/2) is undefined.

Therefore, the values are:

sin(3π/2) = -1,

cos(3π/2) = 0,

tan(3π/2) is undefined.

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The graph represents the piecewise function: f(x)= { __, if -3 ≤ x ≤ -1; __, if -1 ≤ x ≤ 1 }

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The graph represents the following piecewise function:

f(x) = 5, -1 ≤ x 1

f(x) = x + 3, -3 ≤ x < -1.

How to determine an equation of this line?

In Mathematics and Geometry, the point-slope form of a straight line can be calculated by using the following mathematical equation (formula):

y - y₁ = m(x - x₁)

Where:

x and y represent the data points.m represent the slope.

First of all, we would determine the slope of the lower line;

Slope (m) = (y₂ - y₁)/(x₂ - x₁)

Slope (m) = (2 - 0)/(-1 + 3)

Slope (m) = 2/2

Slope (m) = 1

At data point (-3, 0) and a slope of 1, an equation for this line can be calculated by using the point-slope form as follows:

y - y₁ = m(x - x₁)

y - 0 = 1(x + 3)

y = x + 3, over this interval -3 ≤ x < -1.

y = 5, over this interval -1 ≤ x 1.

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5^3x=(1/25)^x-5
Answers should be X=2
URGENT
SHOW WORK

Answers

Answer:

5^3x=(1/25)^x-5

5^3x=5^-2(x-5)

3x=-2x+10

3x+2x=10

5x=10

x=2

(shown)

R is the region bounded by the functions f(x) = -6x2 – 6x + 4 and g(x) = -8. Find the area A of R. Enter answer using exact values

Answers

The area a of the region r is 11 (exact value).

to find the area of the region r bounded by the functions f(x) = -6x² - 6x + 4 and g(x) = -8, we need to determine the points of intersection between the two functions and then calculate the definite integral of their difference over that interval.

first, let's find the points of intersection by setting f(x) equal to g(x):-6x² - 6x + 4 = -8

rearranging the equation:

-6x² - 6x + 12 = 0

dividing the equation by -6:x² + x - 2 = 0

factoring the quadratic equation:

(x - 1)(x + 2) = 0

so, the points of intersection are x = 1 and x = -2.

to find the area a of r, we integrate the difference between the two functions over the interval from x = -2 to x = 1:

a = ∫[from -2 to 1] (f(x) - g(x)) dx   = ∫[from -2 to 1] (-6x² - 6x + 4 - (-8)) dx

  = ∫[from -2 to 1] (-6x² - 6x + 12) dx

integrating term by term:a = [-2x³/3 - 3x² + 12x] evaluated from -2 to 1

  = [(-2(1)³/3 - 3(1)² + 12(1)) - (-2(-2)³/3 - 3(-2)² + 12(-2))]

simplifying the expression:a = [(2/3 - 3 + 12) - (-16/3 - 12 + 24)]

  = [(17/3) - (-16/3)]   = 33/3

  = 11

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here's our first in-lecture quiz. what is one way erikson's theory differs from freud's theory? If a mutation occurs such that there is a duplication of the A in the 3rd codon of the mRNA sequence below. This is called a mutation. 5' - AUG CUCUAC-3 Differentiate implicitly to find the first partial derivatives of w. x2 + y2 + 22 . 7yw 1 8w2 ow dy identify two factors that determine the composition of beach materials HELP!! Prove that cosA + cosB + cosC = 2 + sinAsinBsinC 3.)(2pts) Given the matrix A = 2 1 0 2 0 0 1 find the general solution o the linear 2 2 system X' = AX. A rental car agency has 60 vehicles on its lot- 22 are suvs, and 38 are sedans. 18 of those 60 vehicles are blue; the rest are red. 14 of the suvs are red. The rental agency chooses a single vehicle for you at random. To three decimal places, find the probability that: a) you got a red sedan. b) you got a blue suv. C) you got an suv given that you know it is red When only one alternative can be selected from two or more, the alternative is said to be: Can u help me please fill in the square Based on the passage which political idea evolved during the Tokugawa shogunate? The shape of Canadas production possibilities frontier (PPF) should reflect the fact that as Canada produces more trucks and fewer cars, the opportunity cost of producing each additional truck ______. if a bank receiving a new deposit of $385,750 would be able, as a result, to increase their lending by at most $324,030, then the deposit expansion multiplier equals: 00 The series 87 n2 +n n 18 + n3 is 8 n=2 00 o divergent by the Limit Comparison Test with the series 1 n 1/8 n=2 00 1 O convergent by the Limit Comparison Test with the series - n=2 O divergent by th suppose f(x,y)=xyf(x,y)=xy, p=(3,4)p=(3,4) and v=1i4jv=1i4j. a. find the gradient of ff. Determine the radius of convergence of the following power series. Then test the endpoints to determine the interval of convergence. (21x) The radius of convergence is R = 1 21 Select the correct ch Where does the oxygen that is released by the plant come from? can somebody explain how to do this? Find the circumference and area of each circle. Round to the nearest hundredth.4 in.45 m determine the behavior of the functions defined below. if a limit does not exist or the function is undefined, write dne.a. consider h(x) = 4x^2 + 9x^2 / -x^3 + 7xi) for what value of x is h(x) underfined ? ii) for what value (s) of does h(x) have a vertical aymptote?iii) for what value(s) of does h(z) have a hole?iv) lim h(x) = 13.Given: WX=ZX, WY = ZYprove: angle W = angle Z