the domain of the composition f(g(x)) is x ≥ -4, expressed in interval notation as (-4, ∞).
To find the composition f of g, we substitute the function g(x) into the function f(x). The composition is denoted as f(g(x)).
f(g(x)) = f(x - 1)
Replacing x in the function f(x) with (x - 1), we have:
f(g(x)) = √(3(x - 1) + 15)
Simplifying the expression inside the square root:
f(g(x)) = √(3x - 3 + 15)
f(g(x)) = √(3x + 12)
The composition of f(g(x)) is √(3x + 12).
To specify the domain of the composition, we consider the domain of g(x), which is all real numbers. However, since the function f(x) contains a square root, the argument inside the square root must be non-negative to ensure a real-valued result. Therefore, we set the expression inside the square root greater than or equal to zero:
3x + 12 ≥ 0
Solving this inequality, we have:
3x ≥ -12
x ≥ -4
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the length of a rectangular plot of area 5614 square meters is 1212 meters. what is the width of the rectangular plot?
To find the width of the rectangular plot, we need to use the formula for the area of a rectangle: A = l x w, where A is the area, l is the length, and w is the width. We know that the area is 5614 square meters and the length is 1212 meters. Therefore, we can substitute these values into the formula and solve for the width: w = A / l = 5614 / 1212 = 4.63 meters (rounded to two decimal places). Therefore, the width of the rectangular plot is approximately 4.63 meters.
We used the formula for the area of a rectangle to find the width of the rectangular plot. By substituting the values of the area and length into the formula, we were able to solve for the width. We divided the area by the length to find the width.
The width of the rectangular plot is approximately 4.63 meters, given that the length of the rectangular plot is 1212 meters and the area is 5614 square meters.
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A set of X and Y scores has MX = 4, SSX = 10, MY = 5, SSY = 40, and SP = 20. What is the regression equation for predicting Y from X?
A. Y=0.25X+4
B. Y=4X-9
C. Y=0.50X+3
D. Y=2X-3
The correct answer for regression equation is option D: Y = 2X - 3
To find the regression equation for predicting Y from X, we will first need to calculate the slope (b) and the intercept (a) of the regression equation using the given information in the question.
The regression equation is in the form: Y = a + bX
1. Calculate the slope (b):
b = SP/SSX
b = 20/10
b = 2
2. Calculate the intercept (a):
a = MY - b * MX
a = 5 - 2 * 4
a = 5 - 8
a = -3
So, the regression equation is: Y = -3 + 2X based on the given data in the question.
Your answer: D. Y = 2X - 3
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Consider the region bounded by x = 4y - y³ and the y-axis such that y 20. Find the volume of the solid formed by rotating the region about a) the vertical line x = -1 b) the horizontal line y = -2. Please include diagrams to help justify your integrals.
The volume of the solid formed by rotating the region bounded by x=4y-y³ and the y-axis around a) the vertical line x=-1 is (16π/3) and around b) the horizontal line y=-2 is (8π/3).
To find the volume of the solid formed by rotating the region around a vertical line x=-1, we need to use the washer method. We divide the region into infinitesimally thin vertical strips, each of width dy.
The radius of the outer disk is given by the distance of the curve from the line x=-1 which is (1-x) and the radius of the inner disk is given by the distance of the curve from the origin which is x.
Thus the volume of the solid is given by ∫(20 to 0) π[(1-x)²-x²]dy = (16π/3).
To find the volume of the solid formed by rotating the region around a horizontal line y=-2, we need to use the shell method. We divide the region into infinitesimally thin horizontal strips, each of width dx.
Each strip is rotated around the line y=-2 and forms a cylindrical shell of radius 4y-y³-(-2)=4y-y³+2 and height dx. Thus the volume of the solid is given by ∫(0 to 20) 2π(4y-y³+2)x dy = (8π/3).
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Find the directional derivative of the following function at the point (2,1,1) in the direction of the vector ū= (1,1,1). f(x, y, z) = xy2 tan- 2
To find the directional derivative of the function f(x, y, z) = xy^2 tan^(-2) at the point (2, 1, 1) in the direction of the vector ū = (1, 1, 1), we can use the formula:
D_ūf(x, y, z) = ∇f(x, y, z) · ū,
where ∇f(x, y, z) is the gradient of f(x, y, z) and · denotes the dot product.
First, let's compute the gradient of f(x, y, z):
∇f(x, y, z) = (∂f/∂x, ∂f/∂y, ∂f/∂z).
Taking the partial derivatives of f(x, y, z) with respect to each variable, we have:
∂f/∂x = y² tan[tex]^{(-2)}[/tex],
∂f/∂y = 2xy tan[tex]^{(-2)}[/tex],
∂f/∂z = 0.
Therefore, the gradient of f(x, y, z) is:
∇f(x, y, z) = (y² tan[tex]^{(-2)},[/tex] 2xy tan[tex]^{(-2)}[/tex], 0).
Next, we need to calculate the dot product between the gradient and the direction vector ū: ∇f(x, y, z) · ū =
∇f(x, y, z) · ū = [tex]= (y^2 tan^(-2), 2xy tan^(-2), 0) (1, 1, 1)\\ = y^2 tan^(-2) + 2xy tan^(-2) + 0\\ = y^2 tan^(-2) + 2xy tan^(-2).[/tex]
Substituting the point (2, 1, 1) into the expression, we get:
∇f(2, 1, 1) · ū =[tex]= (1^2 tan^(-2) + 2(2)(1) tan^(-2)\\ = (1 tan^(-2) + 4 tan^(-2)\\ = 5 tan^(-2).[/tex]
Therefore, the directional derivative of f(x, y, z) at the point (2, 1, 1) in the direction of the vector ū = (1, 1, 1) is 5 tan[tex]^{(-2)[/tex].
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72 = Find the curl of the vector field F(x, y, z) = e7y2 i + OxZj+e74 k at the point (-1,3,0). Let te P=e7ya, Q = €922, R=e7x. = = Show and follow these steps: 1. Find Py, Pz , Qx ,Qz, Rx , Ry. Use
Therefore, the curl of the vector field [tex]F(x, y, z) = e^{7y^2} i + Oxyz j + e^{7^4} k[/tex] at the point (-1, 3, 0) is [tex]-7 * e^{-7} j - 126 * e^{63} k[/tex]
Find the curl?
To find the curl of the vector field [tex]F(x, y, z) = e^{7y^2} i + Oxyz j + e^{7^4} k[/tex] at the point (-1, 3, 0), we need to follow these steps:
1. Find the partial derivatives of each component of the vector field:
P_y = ∂P/∂y = ∂/∂y [tex](e^{7y^2})[/tex] = [tex]14y * e^{7y^2}[/tex]
P_z = ∂P/∂z = 0 (as P does not depend on z)
Q_x = ∂Q/∂x = 0 (as Q does not depend on x)
Q_z = ∂Q/∂z = ∂/∂z[tex](e^{9z^2})[/tex] = [tex]18z * e^{9z^2}[/tex]
R_x = ∂R/∂x = ∂/∂x [tex](e^{7x})[/tex] = [tex]7 * e^{7x}[/tex]
R_y = ∂R/∂y = 0 (as R does not depend on y)
2. Evaluate each partial derivative at the given point (-1, 3, 0):
[tex]P_y = 14(3) * e^{7(3)^2} = 126 * e^63\\P_z = 0\\\\Q_x = 0\\Q_z = 18(0) * e^{9(0)^2} = 0\\R_x = 7 * e^{7(-1)} = 7 * e^{-7}\\R_y = 0[/tex]
3. Calculate the components of the curl:
[tex]curl(F) = (R_y - Q_z) i + (P_z - R_x) j + (Q_x - P_y) k\\ = 0i + (0 - 7 * e^{-7}) j + (0 - 126 * e^{63}) k\\ = -7 * e^{-7} j - 126 * e^{63} k[/tex]
Therefore, the curl of the vector field [tex]F(x, y, z) = e^{7y^2} i + Oxyz j + e^{7^4} k[/tex] at the point (-1, 3, 0) is [tex]-7 * e^{-7} j - 126 * e^{63} k[/tex].
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Let the Domain be X = (1; 2; 3; 4; 5} and the Co-domain be Y =
(a; b; c; d; e).
The function f is given as subsets of the Cartesian product of
X and Y by:
f= (1; d); (2; d); (3; c); (4; b); (5; a)} cX
The function f maps elements from the domain X={1, 2, 3, 4, 5} to corresponding elements in the co-domain Y={a, b, c, d, e}. The function assigns specific pairs of values from X and Y, where (1, d), (2, d), (3, c), (4, b), and (5, a) are included in f.
In the given function f, each element in the domain X is paired with a corresponding element in the co-domain Y. The pairs are represented as subsets of the Cartesian product of X and Y. The function f includes the following pairs: (1, d), (2, d), (3, c), (4, b), and (5, a). This means that when the function f is applied to an element in X, it returns the corresponding element in Y as per the defined pairs.
For example, if we apply the function to the element 3 in X, the output would be 'c' since (3, c) is one of the pairs included in f. Similarly, if we apply the function to the element 4 in X, the output would be 'b'. The function f maps each element in X to a unique element in Y based on the defined pairs, providing a clear relationship between the two sets.
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1) [10 points] Determine whether the sequence with the given nth term is monotonic and whether it is bounded. If it is bounded, give the least upper bound and greatest lower bound in (-1)" n the form of an inequality. a, n+1
The sequence with the nth term aₙ = n+1 is monotonically increasing and it is bounded below by 2 (greatest lower bound). However, it does not have an upper bound.
To determine whether the sequence with the nth term aₙ = n+1 is monotonic and bounded, we need to analyze the behavior of the sequence.
1. Monotonicity: Let's compare consecutive terms of the sequence:
a₁ = 1+1 = 2
a₂ = 2+1 = 3
a₃ = 3+1 = 4
...
From this pattern, we can observe that each term is greater than the previous term. Therefore, the sequence is monotonically increasing.
2. Boundedness: To determine whether the sequence is bounded, we need to find upper and lower bounds for the sequence.
Upper Bound: As we can see, there is no term in the sequence that is larger than any specific value. Therefore, the sequence does not have an upper bound.
Lower Bound: The first term of the sequence is a₁ = 2. We can say that all subsequent terms are greater than or equal to this value. Therefore, the lower bound for the sequence is a₁ = 2.
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The ABC Resort is redoing its golf course at a cost of $911,000, It expects to generate cash flows of $455,000, $797,000 and $178,000 over the next three years. If the appropriate discount rate for the company is 16.2 percent, what is
the NPV of this project (to the nearest dollar)?
The NPV of this project (to the nearest dollar) is $198,905 for the discount rate.
Net Present Value (NPV) is the sum of the present values of all cash flows that occur during a project's life, minus the initial investment.
When it comes to investment analysis, it is a common metric to use. To find the NPV of the project, use the given formula:
[tex]NPV=CF0+ CF1/ (1+r)¹+ CF2/ (1+r)²+ CF3/ (1+r)³- Initial Investment[/tex]
Where:CF0 = Cash flow at time zero, which equals the initial investment. CF1, CF2, CF3, and so on = Cash flows for each year, r = the discount rate, and n = the number of years.
So, for the given question,ABC Resort is redoing its golf course at a cost of $911,000, and it expects to generate cash flows of $455,000, $797,000, and $178,000 over the next three years.
If the appropriate discount rate for the company is 16.2 percent, what is the NPV of this project (to the nearest dollar)?
The formula for NPV is given below: [tex]NVP= CF0+ CF1/ (1+r)^1+ CF2/ (1+r)^2+ CF3/ (1+r)^3- Initial Investment[/tex]
Initial investment = -$911,000CF1 = $455,000CF2 = $797,000CF3 = $178,000r = 16.2% or 0.162
Applying the values in the formula, [tex]NPV= -$911,000+$455,000/ (1+0.162)^1 +$797,000/ (1+0.162)^2 +$178,000/ (1+0.162)^3[/tex]
NPV= -$911,000+ $393,106.34+ $598,542.95+ $118,255.36NPV= $198,904.65
Therefore, the NPV of this project (to the nearest dollar) is $198,905.
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Problem 2(24 points). A large tank is partially filled with 200 gallons of fluid in which 24 pounds of salt is dissolved. Brine containing 0.6 pound of salt per gallon is pumped into the tank at a rate of 5 gal/min. The well mixed solution is then pumped out at the same rate of 5 gal/min. Set up a differential equation and an initial condition that allow to determine the amount A(t) of salt in the tank at time t. (Do NOT solve this equation.) BONUS (6 points). Set up an initial value problem in the case the solution is pumped out at a slower rate of 4 gal/min.
The differential equation that describes the rate of change of the salt amount A(t) in the tank with respect to time t is: dA/dt = 3-(A/200)*5
To set up the differential equation for the amount A(t) of salt in the tank at time t, we need to consider the rate at which salt enters and leaves the tank.
Since brine containing 0.6 pound of salt per gallon is pumped into the tank at a rate of 5 gal/min, the rate of salt entering the tank is (0.6 pound/gal) * (5 gal/min) = 3 pound/min.
At the same time, the well-mixed solution is pumped out of the tank at a rate of 5 gal/min, resulting in a constant outflow rate.
Therefore, the rate of change of the salt amount in the tank can be expressed as the difference between the rate of salt entering and leaving the tank. This can be written as:
dA/dt = 3 - (A/200) * 5
This is the differential equation that describes the rate of change of the salt amount A(t) in the tank with respect to time t.
As for the initial condition, we know that initially there are 24 pounds of salt in 200 gallons of fluid. So, at t = 0, A(0) = 24.
For the bonus question, if the solution is pumped out at a slower rate of 4 gal/min instead of 5 gal/min, the differential equation would be:
dA/dt = 3 - (A/200) * 4
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Find the following derivatives. Express your answer in terms of the independent variables. 2x - 22 Ws and wt, where w= x=s+t, y=st, and z=s-t 3y + 2z
The derivative of 2x - 22 with respect to any variable (x, ws, wt) is 2, as it is a linear term and the derivative of a constant is 0. For the expression 3y + 2z, where y = st and z = s - t, the derivative with respect to ws is 3t + 2, and the derivative with respect to wt is 3s - 2.
This is because the derivatives are computed based on the given relationships between the variables
.For the derivatives, we need to differentiate each term with respect to the appropriate variables using the given relationships.
Let's break down each term:
1) 2x - 22:
The derivative of 2x with respect to x is 2 since it is a simple linear term.
The derivative of -22 with respect to any variable is 0 since it is a constant.
Therefore, the derivative of 2x - 22 with respect to x, ws, or wt is 2.
2) 3y + 2z:
Using the given relationships:
y = st
z = s - t
The derivative of 3y with respect to s is 3t since y = st and s is the only variable involved.
The derivative of 3y with respect to t is 3s since y = st and t is the only variable involved.
The derivative of 2z with respect to s is 2 since z = s - t, and s is the only variable involved.
The derivative of 2z with respect to t is -2 since z = s - t, and t is the only variable involved.
Therefore, the derivative of 3y + 2z with respect to ws is 3t + 2, and the derivative with respect to wt is 3s - 2.
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Test the claim that the proportion of people who own cats is significantly different than 80% at the 0.01 significance level. The test is based on a random sample of 400 people, in which 88% of the sample owned cats The null and alternative hypothesis would be The test is left-tailed right-tailed two-tailed (to 2 decimals) Based on this we Reject the null hypothesis
Based on the given information, the null and alternative hypotheses are not specified, making it impossible to determine whether to reject the null hypothesis or not without additional calculations and analysis.
The null and alternative hypotheses for this test would be:
Null hypothesis (H0): The proportion of people who own cats is equal to 80%.
Alternative hypothesis (Ha): The proportion of people who own cats is significantly different than 80%.
The test is a two-tailed test because the alternative hypothesis is not specific about the direction of the difference.
Based on the given information, a random sample of 400 people was taken, and 88% of the sample owned cats. The test is conducted at the 0.01 significance level.
To determine whether to reject the null hypothesis, we would perform a hypothesis test using appropriate statistical methods. The conclusion about rejecting or not rejecting the null hypothesis would depend on the test statistic and its corresponding p-value.
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Let X be the continuous random variable with probability density function, f(x) = A(2 - x)(2 + x); 0 <= x <= 2 ==0 elsewhere
P(X = 1/2) ,
Find the value of A. Also find P(X <= 1) , P(1 <= X <= 2)
To find the value of A, we can use the fact that the total area under the probabilitydensity function (PDF) should be equal to 1.
Since the PDF is defined as:
f(x) = A(2 - x)(2 + x) for 0 <= x <= 2f(x) = 0 elsewhere
We can integrate the PDF over the entire range of X and set it equal to 1:
∫[0,2] A(2 - x)(2 + x) dx = 1
To find P(X = 1/2), we can evaluate the PDF at x = 1/2:
P(X = 1/2) = f(1/2)
To find P(X <= 1) and P(1 <= X <= 2), we can integrate the PDF over the respective ranges:
P(X <= 1) = ∫[0,1] A(2 - x)(2 + x) dx
P(1 <= X <= 2) = ∫[1,2] A(2 - x)(2 + x) dx
Now let's calculate the values:
Step 1: Calculate the value of A∫[0,2] A(2 - x)(2 + x) dx = A∫[0,2] (4 - x²) dx
= A[4x - (x³)/3] evaluated from 0 to 2 = A[(4*2 - (2³)/3) - (4*0 - (0³)/3)]
= A[8 - 8/3] = A[24/3 - 8/3]
= A(16/3)Since this integral should be equal to 1:
A(16/3) = 1A = 3/16
So the value of A is 3/16.
Step 2: Calculate P(X = 1/2)
P(X = 1/2) = f(1/2) = A(2 - 1/2)(2 + 1/2)
= A(3/2)(5/2) = (3/16)(15/4)
= 45/64
Step 3: Calculate P(X <= 1)P(X <= 1) = ∫[0,1] A(2 - x)(2 + x) dx
= (3/16)∫[0,1] (4 - x²) dx = (3/16)[4x - (x³)/3] evaluated from 0 to 1
= (3/16)[4*1 - (1³)/3 - (4*0 - (0³)/3)] = (3/16)[4 - 1/3]
= (3/16)[12/3 - 1/3] = (3/16)(11/3)
= 11/16
Step 4: Calculate P(1 <= X <= 2)P(1 <= X <= 2) = ∫[1,2] A(2 - x)(2 + x) dx
= (3/16)∫[1,2] (4 - x²) dx = (3/16)[4x - (x³)/3] evaluated from 1 to 2
= (3/16)[4*2 - (2³)/3 - (4*1 - (1³)/3)] = (
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Find the median and mean of the data set below: 24,44 ,10, 22
Answer:
The mean of the set is 25.
The median of the set is 23.
Step-by-step explanation:
Mean: When solving for the mean of a data set, you will add all numbers in the set, and divide by the amount of numbers in the given set.
It is given that the set is 24 , 44 , 10 , 22. Solve for the mean:
[tex]\frac{(24 + 44 + 10 + 22)}{4}\\= \frac{100}{4}\\ = 25[/tex]
The mean of the set is 25.
Median: When solving for the median of a data set, you will have to order the terms from least to greatest, and the middle term will be your median. If however, as in this question's case, your data set has a even amount of terms, you will find the mean of the two middle terms:
First, order the terms:
10 , 22 , 24 , 44
Next, solve for the mean of the two middle terms:
[tex]\frac{(22 + 24)}{2} \\= \frac{(46)}{2} \\= 23[/tex]
The median of the set is 23.
~
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Find the exact area of the surface obtained by rotating the parametric curve from t = 0 to t = 1 about the y-axis. x = ln et + et, y=√16et
The area is given by A = 2π ∫[a,b] y √(1 + (dx/dt)²) dt, where a and b are the limits of integration. By substituting the given parametric equations and evaluating the integral from t = 0 to t = 1, we can find the exact area of the surface.
To determine the area of the surface generated by rotating the parametric curve x = ln(et) + et, y = √(16et) around the y-axis, we utilize the formula for surface area of revolution. The formula is A = 2π ∫[a,b] y √(1 + (dx/dt)²) dt, where a and b are the limits of integration.
In this case, the given parametric equations are x = ln(et) + et and y = √(16et). To find dx/dt, we differentiate the equation for x with respect to t. Taking the derivative, we obtain dx/dt = e^t + e^t = 2e^t.
Substituting the values into the surface area formula, we have A = 2π ∫[0,1] √(16et) √(1 + (2e^t)²) dt.
Simplifying the expression inside the integral, we can proceed to evaluate the integral over the given interval [0,1]. The resulting value will give us the exact area of the surface generated by the rotation.
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Find fx (x,y) and fy (x,y). Then, find fx (4, - 4) and fy (2,4). f(x,y)= - 7xy + 9y4 + +3 - Find fx(x,y) and fy(x,y). Then find f (2, -1) and ind fy( -4,3). f(x,y)= ex+y+7 {x(x,y)=0 Find fx(x,y) and fy(x,y). Then, find fx(-4,1) and fy (2. - 4). f(x,y) = In |2 + 5x®y21 {x(x,y)=
For the function f(x,y) = -7xy + 9y^4 + 3, we have fx(x,y) = -7y and fy(x,y) = -7x + 36y^3. Evaluating at specific points, we find fx(4,-4) = 28 and fy(2,4) = -64.
For the function f(x,y) = e^(x+y) + 7x, we have fx(x,y) = e^(x+y) + 7 and fy(x,y) = e^(x+y). At the point (2,-1), fx(2,-1) = e + 7 and fy(2,-1) = e.
For the function f(x,y) = ln|2 + 5xy^2|, we have fx(x,y) = 5y^2 / (2 + 5xy^2) and fy(x,y) = 10xy / (2 + 5xy^2).
Substituting (-4,1) yields fx(-4,1) = 0.08 and fy(2,-4) = 0.64.
To find the partial derivatives, we differentiate the function with respect to each variable separately while treating the other variable as a constant.
For the function f(x,y) = -7xy + 9y^4 + 3, differentiating with respect to x gives us fx(x,y) = -7y, as the derivative of -7xy with respect to x is -7y, and the other terms are constant with respect to x.
Similarly, differentiating with respect to y gives fy(x,y) = -7x + 36y^3, as the derivative of -7xy with respect to y is -7x, and the derivative of 9y^4 with respect to y is 36y^3.
Evaluating these partial derivatives at specific points, we substitute the given values into the expressions. For fx(4,-4), we have fx(4,-4) = -7(-4) = 28.
Similarly, for fy(2,4), we have fy(2,4) = -7(2) + 36(4^3) = -64.
For the function f(x,y) = e^(x+y) + 7x, differentiating with respect to x gives fx(x,y) = e^(x+y) + 7, as the derivative of e^(x+y) with respect to x is e^(x+y), and the derivative of 7x with respect to x is 7.
Differentiating with respect to y gives fy(x,y) = e^(x+y), as the derivative of e^(x+y) with respect to y is e^(x+y), and the other term does not involve y.
At the point (2,-1), substituting the values into the partial derivatives gives fx(2,-1) = e^(2+(-1)) + 7 = e + 7, and fy(2,-1) = e^(2+(-1)) = e.
For the function f(x,y) = ln|2 + 5xy^2|, differentiating with respect to x gives fx(x,y) = 5y^2 / (2 + 5xy^2), as the derivative of ln|2 + 5xy^2| with respect to x involves the chain rule and simplifies to 5y^2 / (2 + 5xy^2). Differentiating with respect to y gives fy(x,y) = 10xy / (2 + 5xy^2), as the derivative of ln|2 + 5xy^2| with respect to y involves the chain rule and simplifies to 10xy / (2 + 5xy^2).
Substituting the values (-4,1) into the expressions, we have fx(-4,1) = 5(1^2) / (2 + 5(-4)(1^2)) = 0.08, and fy(2,-4) = 10(2)(-4) / (2 + 5(2)(-4)^2) = 0.64.
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Determine whether the series converges absolutely or conditionally, or diverges. Σ_(n=1)^[infinity] [(-1)^n+1 / n+7]
The given series[tex]Σ((-1)^(n+1) / (n+7))[/tex] is conditionally convergent, meaning it converges but not absolutely.
We must look at both absolute convergence and conditional convergence in order to determine the convergence of the series ((-1)(n+1) / (n+7).
When a series converges, it does so by taking each term's absolute value and adding them together. This is known as absolute convergence. If we take into account the series |((-1)(n+1) / (n+7)| in this instance, we have |(1 / (n+7)]. We discover that this series converges using the p-series test because the exponent is bigger than 1. As a result, the original series ((-1)(n+1) / (n+7)) completely converges.
A series that is convergent but not perfectly convergent is said to have experienced conditional convergence. We consider the alternating series test to see if the original series ((-1)(n+1) / (n+7)) is conditionally convergent. The absolute values of the terms (-1) and (n+1) form a descending sequence, and their signs alternate. Additionally, the absolute values of the terms converge to zero as n gets closer to infinity. As a result, the original series ((-1)(n+1)/(n+7)) converges conditionally according to the alternating series test.
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b 9(b) Use the Substitution Formula, ſrock)• g'(x) dx = 5 tu) du where g(x)= u, to evaluate the following integral. coma, Inawewens Is x ga) In V3 3 e*dx 0 1 + 2x CABE
By applying the Substitution Formula and the given function g(x), we can evaluate the integral of ln√(3e^(2x))dx from 0 to 1 as 5 times the integral of 1/(1+2x)du from u = ln√(3e^0) to u = ln√(3e^2).
To evaluate the integral ∫(0 to 1) ln√(3e^(2x)) dx, we can use the Substitution Formula. Let's set u = g(x) = ln√(3e^(2x)), which implies g'(x) = 1/(1+2x). Rewriting the integral in terms of u, we have ∫(ln√(3e^0) to ln√(3e^2)) u du. By applying the Substitution Formula, this is equal to 5 times the integral of u du. Evaluating this integral, we get 5(u^2/2), which simplifies to (5/2)u^2. Substituting back u = ln√(3e^(2x)), we have (5/2)(ln√(3e^(2x)))^2. Evaluating this expression at the limits of integration, we get [(5/2)(ln√(3e^2))^2] - [(5/2)(ln√(3e^0))^2]. Simplifying further, [(5/2)(ln√(9e^2))] - [(5/2)(ln√3)]. Finally, simplifying the logarithms and evaluating the square roots, we arrive at the final result.
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A passenger ship and an oil tanker left port together sometime in the morning the former headed north, and the latter headed cast. At noon, the passenger ship was 40 miles from port and sailing at 30 mph, while the oil tanker was 30 miles from port sailing at 20 mph. How fast was the distance between the two ships changing at that time? 11. A 20 ft ladder leaning against a wall begins to slide. How fast is the top of the ladder sliding down the wall at the instant of time when the bottom of the ladder is 12ft from the wall and sliding away from the wall at the rate of 5ft/sec.
1. The distance between the two ships is changing at a rate of 5/√130 miles per hour at noon.
2. The top of the ladder is sliding down the wall at a rate of 3.75 ft/sec.
1. To find how fast the distance between the two ships is changing, we can use the concept of relative motion. Let's consider the northward motion of the passenger ship as positive and the eastward motion of the oil tanker as positive.
Let's denote the distance between the two ships as D(t), where t is the time in hours since they left port. The position of the passenger ship can be represented as x(t) = 40 + 30t, and the position of the oil tanker can be represented as y(t) = 30 + 20t.
The distance between the two ships at any given time is given by the distance formula:
D(t) = √((x(t) - y(t))^2)
To find how fast D(t) is changing, we can take the derivative with respect to time:
dD/dt = (1/2) * (x(t) - y(t))^(-1/2) * ((dx/dt) - (dy/dt))
Plugging in the given values, we have:
dD/dt = (1/2) * (40 + 30t - 30 - 20t)^(-1/2) * (30 - 20)
Simplifying further:
dD/dt = (1/2) * (10 + 10t)^(-1/2) * 10
= 5 * (10 + 10t)^(-1/2)
At noon (t = 12), the expression becomes:
dD/dt = 5 * (10 + 10(12))^(-1/2)
= 5 * (130)^(-1/2)
= 5/√130
Therefore, the distance between the two ships is changing at a rate of 5/√130 miles per hour at noon.
2. To find how fast the top of the ladder is sliding down the wall, we can use the concept of related rates. Let's denote the distance from the top of the ladder to the ground as y(t), where t is the time in seconds.
By using the Pythagorean theorem, we know that the length of the ladder is constant at 20 ft. So, we have the equation:
x^2 + y^2 = 20^2
Differentiating both sides of the equation with respect to time, we get:
2x(dx/dt) + 2y(dy/dt) = 0
Given that dx/dt = 5 ft/sec and x = 12 ft, we can solve for dy/dt:
2(12)(5) + 2y(dy/dt) = 0
Simplifying the equation:
120 + 2y(dy/dt) = 0
2y(dy/dt) = -120
dy/dt = -120 / (2y)
At the instant when the bottom of the ladder is 12 ft from the wall (x = 12), we can find y using the Pythagorean theorem:
x^2 + y^2 = 20^2
12^2 + y^2 = 400
144 + y^2 = 400
y^2 = 400 - 144
y^2 = 256
y = √256
y = 16 ft
Plugging in the values, we have:
dy/dt = -120 / (2 * 16)
= -120 / 32
= -3.75 ft/sec
Therefore, the top of the ladder is sliding down the wall at a rate of 3.75 ft/sec.
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There are C counters in a box
11 of the counters are green
Benedict takes 20 counters at random from the box
4 of these counters are green
Work out an estimate for the value of C
There are 55 counters in a box.
We have to given that;
There are C counters in a box, 11 of the counters are green
And, Benedict takes 20 counters at random from the box 4 of these counters are green.
Since, Any relationship that is always in the same ratio and quantity which vary directly with each other is called the proportional.
Hence, By definition of proportion we get;
⇒ c / 11 = 20 / 4
Solve for c,
⇒ c = 11 × 20 / 4
⇒ c = 11 × 5
⇒ c = 55
Therefore, The value of counters in a box is,
⇒ c = 55
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2. Calculate the dot product of two vectors, à and 5 which have an angle of 150 between them, where lä] = 4 and 151 = 7.
The dot product of the vectors a and b, which have a magnitude of 4 and 7 respectively and an angle of 150 degrees between them, is approximately -24.1442.
To calculate the dot product of two vectors, a and b, you can use the formula:
a · b = ||a|| ||b|| cos(θ),
where a · b represents the dot product, ||a|| and ||b|| represent the magnitudes (or lengths) of the vectors a and b, respectively, and θ is the angle between the two vectors.
In this case, we have two vectors, a and b, with given magnitudes and an angle of 150 degrees between them. Let's substitute the values into the formula:
a · b = ||a|| ||b|| cos(θ)
= 4 * 7 * cos(150°)
First, let's convert the angle from degrees to radians, since trigonometric functions typically work with radians. We have:
θ (in radians) = 150° * (π/180)
= 5π/6
Now, we can continue calculating the dot product:
a · b = 4 * 7 * cos(5π/6)
Using a calculator or computer software, we can evaluate the cosine function:
cos(5π/6) ≈ -0.86603
Substituting this value back into the formula, we get:
a · b ≈ 4 * 7 * (-0.86603)
≈ -24.1442
Therefore, the dot product of the vectors a and b, which have a magnitude of 4 and 7 respectively and an angle of 150 degrees between them, is approximately -24.1442.
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. Find the area of the part of the surface z = x^2 + y^2 which
lies under the plane z = 16.
To find the area of the part of the surface z = x^2 + y^2 that lies under the plane z = 16, we need to determine the region of intersection between the two surfaces.
First, we set the equation of the surface z = x^2 + y^2 equal to the equation of the plane z = 16:
x^2 + y^2 = 16
This equation represents a circle with radius 4 centered at the origin in the xy-plane. To find the area of the region under the plane, we need to integrate the function representing the surface over this region. Using polar coordinates, we can rewrite the equation of the circle as r = 4. In polar coordinates, the equation for the surface becomes z = r^2.
To find the area, we integrate the function r^2 over the region enclosed by the circle with radius 4: A = ∫∫(r^2) dr dθ The limits of integration for r are 0 to 4, and for θ are 0 to 2π. Evaluating this double integral will give us the desired area.
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Find the area of the surface generated by revolving the given
curve about the yy-axis.
x=9−y2‾‾‾‾‾‾√,−1≤y≤1 x=9−y2,−1≤y≤1
Surface Area ==
The given curve is x = 9 - y².
The required area is to be generated by revolving this curve around the y-axis.
We will use the formula for finding the surface area obtained by revolving a curve around the y-axis.
The formula is given as:Surface Area = 2π ∫ [ a, b ] y f(y) √[1 + (f'(y))^2] dy
Here, the function is f(y) = 9 - y².
The derivative is f'(y) = -2y.
Now, we will substitute these values in the formula to obtain:
Surface Area = 2π ∫ [ -1, 1 ] y (9 - y²) √[1 + (-2y)²] dy
Surface Area = 2π ∫ [ -1, 1 ] y (9 - y²) √[1 + 4y²] dy
Let us put 1 + 4y² = t². Then, 4y dy = dt.
Surface Area = 2π (1/4) ∫ [ 3, √5 ] ((t² - 1)/4) t dt
Surface Area = (π/2) ∫ [ 3, √5 ] (t³/4 - t/4) dt
Surface Area = (π/2) [(√5)³/12 - (√5)/4 - 27/12 + 3/4]
Surface Area = (π/2) [(5√5 - 27)/6]
Surface Area = (5π√5 - 27π)/12
Therefore, the required surface area is (5π√5 - 27π)/12. This is the final answer.
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Find the equation (dot product form) for the hyperplane in R' that contains the point
y=(-4,3,-1,47
and has normal vector
D=(-3,-4,-2,1)^T
The equation (dot product form) for the hyperplane in Rⁿ that contains the point y = (-4, 3, -1, 4) and has the normal vector D = (-3, -4, -2, 1)ᵀ is given by the equation -3x₁ - 4x₂ - 2x₃ + x₄ = -32.
This equation represents the hyperplane in n-dimensional space. The dot product of the vector D and the variable vector x, minus the dot product of D and the point y, is set equal to a constant (-32 in this case) to define the hyperplane.
To find the equation of the hyperplane in dot product form, we use the equation D·x = D·y, where D is the normal vector, x is the variable vector of the hyperplane, and y is a point on the hyperplane.
In this case, the point is y = (-4, 3, -1, 4) and the normal vector is D = (-3, -4, -2, 1)ᵀ. Plugging these values into the equation, we get:
(-3)x₁ + (-4)x₂ + (-2)x₃ + (1)x₄ = (-3)(-4) + (-4)(3) + (-2)(-1) + (1)(4) = -32
Thus, the equation for the hyperplane in dot product form is -3x₁ - 4x₂ - 2x₃ + x₄ = -32. This equation defines the hyperplane that contains the given point and has the given normal vector in n-dimensional space.
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what is the absolute minimum value of f(x) = x^3 - 3x^2 4 on interval 1,3
The absolute minimum value of f(x) = x^3 - 3x^2 + 4 on the interval [1, 3] is 0, which occurs at x = 2.
To find the absolute minimum value of the function f(x) = x^3 - 3x^2 + 4 on the interval [1, 3], we need to evaluate the function at the critical points and endpoints of the interval.
First, we find the critical points by taking the derivative of f(x) and setting it equal to zero: f'(x) = 3x^2 - 6x = 0. Solving this equation, we get x = 0 and x = 2 as the critical points.
Next, we evaluate f(x) at the critical points and endpoints: f(1) = 2, f(2) = 0, and f(3) = 19.
Comparing these values, we see that the absolute minimum value occurs at x = 2, where f(x) is equal to 0.
Therefore, the absolute minimum value of f(x) = x^3 - 3x^2 + 4 on the interval [1, 3] is 0, which occurs at x = 2.
The process of finding the absolute minimum value involves finding the critical points by taking the derivative, evaluating the function at those points and the endpoints of the interval, and comparing the values to determine the minimum value. In this case, the absolute minimum occurs at the critical point x = 2, where the function takes the value of 0.
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Find the arclength of the curve r(t) = (6 sint, -10t, 6 cost), -9
the arclength of the curve is 10 units for the given curve r(t) = (6 sint, -10t, 6 cost).
The given curve is r(t) = (6sint,-10t,6cost) with a range of t from 0 to 1, so t ∈ [0,1].
To find the arclength of the curve, use the following formula: s = ∫√(dx/dt)² + (dy/dt)² + (dz/dt)² dt
Here, dx/dt = 6 cost, dy/dt = -10, dz/dt = -6sint.
Substitute the above values in the formula to obtain:
s = ∫(√(6 cost)² + (-10)² + (-6sint)²) dt = ∫√(36 cos²t + 100 + 36 sin²t) dt = ∫√(100) dt = ∫10 dt = 10t
The range of t is from 0 to 1.
Hence, substitute t = 1 and t = 0 in the above expression.
Then, subtract the values: s = 10(1) - 10(0) = 10 units.
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3. Evaluate the flux F ascross the positively oriented (outward) surface S STE و ) F.ds, where F =< x3 +1, 43 + 2, z3 +3 > and S is the boundary of x2 + y2 + z2 = 4,2 > 0. = 2
The flux F across the surface S is 0. Explanation: The given vector field F = <x^3 + 1, y^3 + 2, 2^3 + 3> does not depend on the surface S.
The surface S is the boundary of the region defined by x^2 + y^2 + z^2 = 4, z > 0. Since the vector field F does not penetrate or leave this region, the flux across the surface S is zero. This means that the net flow of the vector field through the surface is balanced and cancels out.
To evaluate the flux across a surface, we need to calculate the dot product between the vector field and the outward unit normal vector of the surface at each point, and then integrate this dot product over the surface.
In this case, the given vector field F = <x^3 + 1, y^3 + 2, 2^3 + 3> does not depend on the surface S. The surface S is the boundary of the region defined by x^2 + y^2 + z^2 = 4, z > 0, which represents the upper half of a sphere centered at the origin with radius 2.
Since the vector field F does not penetrate or leave this region, it means that the vector field is always tangent to the surface and there is no flow across the surface. Therefore, the dot product between the vector field and the outward unit normal vector is always zero.
Integrating this dot product over the surface will result in zero flux. Thus, the flux across the surface S is 0. This implies that the net flow of the vector field through the surface is balanced and cancels out, leading to no net flux.
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It is NOT B
Question 23 Determine the convergence or divergence of the SERIES (−1)n+¹_n³ n=1 n² +π A. It diverges B. It converges absolutely C. It converges conditionally D. 0 E. NO correct choices. OE O A
The given answer choices do not include an option for a convergent series, so none of the provided choices (A, B, C, D, E) are correct.
To determine the convergence or divergence of the series ∑((-1)^(n+1) / (n^3 + π)), where n starts from 1, we can use the Alternating Series Test.
The Alternating Series Test states that if the terms of an alternating series satisfy three conditions:
1) The terms alternate in sign: (-1)^(n+1)
2) The absolute value of the terms decreases as n increases: 1 / (n^3 + π)
3) The absolute value of the terms approaches zero as n approaches infinity.
Then the series converges.
In this case, the series satisfies the first condition since the terms alternate in sign. However, to determine if the other two conditions are satisfied, we need to check the behavior of the absolute values of the terms.
Taking the absolute value of each term, we get:
|((-1)^(n+1) / (n^3 + π))| = 1 / (n^3 + π).
We can observe that as n increases, the denominator (n^3 + π) increases, and thus the absolute value of the terms decreases. Additionally, since n is a positive integer, the denominator is always positive.
Now, we need to determine if the absolute value of the terms approaches zero as n approaches infinity.
As n goes to infinity, the denominator (n^3 + π) grows without bound, and the absolute value of the terms approaches zero. Therefore, the third condition is satisfied.
Since the series satisfies all three conditions of the Alternating Series Test, we can conclude that the series converges.
However, the given answer choices do not include an option for a convergent series, so none of the provided choices (A, B, C, D, E) are correct.
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Suppose that 4% of the 2 million high school students who take the SAT each year receive special accommodations because of documented disabilities. Consider a random sample of 15 students who have recently taken the test. (Round your probabilities to three decimal places.) (a) What is the probability that exactly 1 received a special accommodation? (b) What is the probability that at least 1 received a special accommodation? (c) What is the probability that at least 2 received a special accommodation? (d) What is the probability that the number among the 15 who received a special accommodation is within 2 standard deviations of the number you would expect to be accommodated? Hint: First, calculated and o. Then calculate the probabilities for all integers between 4-20 and + 20. You may need to use the appropriate table in the Appendix of Tables to answer this question.
The given problem involves calculating probabilities using the binomial distribution for a random sample of 15 high school students taking the SAT, where the probability of receiving special accommodations is 4%. The probabilities include exactly 1 receiving special accommodations, at least 1 receiving special accommodations, at least 2 receiving special accommodations, and determining the probability within 2 standard deviations of the expected value.
To solve the given probabilities, we will use the binomial probability formula:
P(X = k) = (n choose k) * p^k * (1 - p)^(n - k)
Where:
n is the number of trials (sample size)
k is the number of successes
p is the probability of success for each trial
Given information:
Total high school students taking the SAT each year: 2 million
Probability of receiving special accommodations: 4%
Sample size: 15
Let's calculate the probabilities:
(a) Probability that exactly 1 received a special accommodation:
P(X = 1) = (15 choose 1) * (0.04)^1 * (1 - 0.04)^(15 - 1)
(b) Probability that at least 1 received a special accommodation:
P(X ≥ 1) = 1 - P(X = 0) = 1 - (15 choose 0) * (0.04)^0 * (1 - 0.04)^(15 - 0)
(c) Probability that at least 2 received a special accommodation:
P(X ≥ 2) = 1 - P(X = 0) - P(X = 1) = 1 - (15 choose 0) * (0.04)^0 * (1 - 0.04)^(15 - 0) - (15 choose 1) * (0.04)^1 * (1 - 0.04)^(15 - 1)
(d) To calculate the probability that the number of students receiving special accommodations is within 2 standard deviations of the expected value, we need to calculate the standard deviation first. The formula for the standard deviation of a binomial distribution is sqrt(n * p * (1 - p)).
Once we have the standard deviation, we can calculate the number of standard deviations from the expected value by taking the difference between the actual number of students receiving special accommodations and the expected value, and dividing it by the standard deviation. We can then refer to the appropriate table to find the probabilities for the range.
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Use the table to evaluate the given compositions. o 1 X f(x) g(x) h(x) - 1 3 2 اله | -2 2 -3 - 1 1 NINN 11 Na b. g(f(1) e. f(f(f(-1))) h. g(f(h(2))) c. h(h(-2)) f. h(h((1))) i.g(((-3) a. h(g(2)) d. g(h(f(1)) g. fſh(g( - 1)) j. f(f(h(1))) - NIO 2 - 1 0 2 0 - 31 - Assume fis an even function and g is an odd function. Assume fand g are defined for all real numbers. Use the table to evaluate the given compositions. х f(x) g(x) 1 4 - 1 2 -2 - 2 3 1 -4 4 -3 -3 a. f(g(-1)) f. f(g(0)-1) b.g(f(-4) g. f(g(g(-2))) e. g(( - 1)) c. f(g(-3)) h. gf(f(-4))) d. f(g(-2)) 1.9(g(9(-1)))
Using the given table, we can evaluate the compositions of functions as follows:
a. f(g(-1)) = f(3) = 1
b. g(f(-4)) = g(1) = -4
c. f(g(-3)) = f(2) = -2
d. f(g(-2)) = f(1) = 4
e. g(f(-1)) = g(4) = 3
f. f(g(0)) = f(-1) = 1
g. f(g(g(-2))) = f(g(3)) = f(2) = -2
h. g(f(f(-4))) = g(f(1)) = g(4) = -3
i. h(g(2)) = h(-4) = 2
j. f(f(h(1))) = f(f(-3)) = f(1) = 4
The given table provides the values of the functions f(x), g(x), and h(x) for different values of x. We can use these values to evaluate the compositions of functions.
a. To find f(g(-1)), we substitute x = -1 in the g(x) column, which gives us g(-1) = 3. Then we substitute this value in the f(x) column, which gives us f(3) = 1.
b. For g(f(-4)), we substitute x = -4 in the f(x) column, which gives us f(-4) = 1. Substituting this value in the g(x) column, we get g(1) = -4.
c. To evaluate f(g(-3)), we substitute x = -3 in the g(x) column, which gives us g(-3) = -1. Then we substitute this value in the f(x) column, which gives us f(-1) = -2.
d. For f(g(-2)), we substitute x = -2 in the g(x) column, which gives us g(-2) = 2. Substituting this value in the f(x) column, we get f(2) = 4.
e. To find g(f(-1)), we substitute x = -1 in the f(x) column, which gives us f(-1) = 4. Then we substitute this value in the g(x) column, which gives us g(4) = 3.
f. For f(g(0)), we substitute x = 0 in the g(x) column, which gives us g(0) = -1. Substituting this value in the f(x) column, we get f(-1) = 1.
g. To evaluate f(g(g(-2))), we start by finding g(-2) = 2 in the g(x) column. Then we substitute this value in the g(x) column again, giving us g(2) = -4. Finally, we substitute this value in the f(x) column, which gives us f(-4) = -2.
h. For g(f(f(-4))), we substitute x = -4 in the f(x) column, which gives us f(-4) = -2. Substituting this value in the g(x) column, we get g(-2) = 2.
i. To find h(g(2)), we substitute x = 2 in the g(x) column, which gives us g(2) = -4. Then we substitute this value in the h(x) column, which gives us h(-4) = 2.
j. For f(f(h(1))), we start by finding h(1) = -3 in the h(x) column. Then we substitute this value in the f(x) column twice, giving us f(-3) = 1.
These evaluations are based on the given values in the table, assuming f is an even function and g is an odd function, and that both f and g are defined for all real numbers.
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Use the product to sum formula to fill in the blanks in the identity below: sin(82)cos(2x) - ( 1 (sin( 2 2) + sin( 2) Put the smaller number in the first box. Use half angle formulas or formula for"
Using the product-to-sum formula, the identity can be filled in as follows: sin(82)cos(2x) - (1/2)(sin(4) + sin(2)).
The product-to-sum formula states that sin(A)cos(B) = (1/2)[sin(A + B) + sin(A - B)]. In the given identity, we have sin(82)cos(2x). By comparing it with the formula, we can see that A = 82 and B = 2x. Applying the formula, we get (1/2)[sin(82 + 2x) + sin(82 - 2x)].
The next part of the identity is -(1/2)(sin(22) + sin(2)). To match this with the product-to-sum formula, we need to rewrite the angles in terms of the sum and difference. We have 22 = 4 + 18 and 2 = 4 - 2. Plugging these values into the formula, we get -(1/2)[sin(4 + 18) + sin(4 - 2)], which simplifies to -(1/2)(sin(22) + sin(2)).
Combining both parts, the identity becomes sin(82)cos(2x) - (1/2)[sin(82 + 2x) + sin(82 - 2x)] - (1/2)(sin(22) + sin(2)).
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