The solution to the given equation using the root test is ∑_[tex]{n=1}^∞[/tex] [tex]n^(1-3n)[/tex] / [tex]4^(2n)[/tex]. The series converge absolutely.
How to perform root testTo determine the convergence of the series:
[tex]∑_{n=1}^∞ n^(1-3n) / 4^(2n)[/tex]
The root test states that if we take the nth root of the absolute value of each term in the series and the resulting limit is less than 1, it means that the series converges absolutely but if the test is inconclusive, and we need to try a different test.
By applying the root test on the series
[tex]lim_{n→∞} (|n^(1-3n) / 4^(2n)|)^(1/n)\\= lim_{n→∞} (n^(1-3n))^(1/n) / 4^2\\= lim_{n→∞} n^(1/n - 3) / 16[/tex]
As n approaches infinity, the term [tex]n^(1/n)[/tex]approaches 1, so we can ignore it and only consider the term n^(-2):
[tex]lim_{n→∞} n^(-2) / 16[/tex]
= 0
Since the limit is less than 1, we can conclude that the series converges absolutely.
Therefore, the series is ∑_[tex]{n=1}^∞[/tex][tex]n^(1-3n) / 4^(2n)[/tex]
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wo sides and an angle are given below. Determine whether the given information results in one triangle, two triangles, or no triangle at all Solve any resulting triangle(s) a=9, c-8, C=30° Select the correct choice below and, if necessary, fill in the answer boxes to complete your choice (Type an integer or decimal rounded to two decimal places as needed) A. A single triangle is produced, where B A and b OB. Two triangles are produced, where the triangle with the smaller angle A has A, B, and by A and by OC. No triangles are produced and the triangle with the larger angle A hast
In order to determine whether the given information results in one triangle, two triangles, or no triangle at all, let us use the Sine Law.Sine Lawa / [tex]sin A = c / sin C9 / sin A = 8 / sin 30°sin A = 9/8 * 1/2 = 9/16[/tex]
Therefore, we can determine the value of [tex]A.sin A = 9/16A = arcsin (9/16) = 35.54°[/tex]
Now that we have determined the value of A, we can determine whether a single triangle, two triangles, or no triangle at all is produced by applying the Angle Sum Property.[tex]A + B + C = 180°35.54° + B + 30° = 180°B = 180° - 35.54° - 30°B = 114.46°[/tex]
Since B is greater than 90°, no triangle is produced.
Therefore, the answer is no triangle at all.The Sine Law can also be used to solve a triangle (when there is enough information provided).
However, since no triangle is produced in this scenario, solving the triangle is not required.
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Find the exact length of the curve: x= 3
1
y
(y−3)1≤y≤9 Remember to show your steps. Recall that the formula to find the arc length of a path f(y) on an interval [a,b] is: ∫ a
b
1+(f ′
(y)) 2
dy
The exact length of the curve x = 1/3 √y (y − 3), 1 ≤ y ≤ 9 is 32/3 units.
The given from the question is:
x = (1/3) √y (y − 3), 1 ≤ y ≤ 9
Length of the curve x = f(y) from y = a to y = b is given by:
[tex]\int\limits^a_b \sqrt{1+[f'(y)]^2} \, dy[/tex]
Let's find the first derivative of x.
[tex]x=\frac{1}{3}\sqrt{y} (y-3)[/tex]
[tex]\frac{dx}{dy}=\frac{1}{3}y^\frac{1}{2}+\frac{1}{3}(\frac{1}{2}\sqrt{y} )(y-3) \\\\\frac{dx}{dy}=\frac{1}{3}[2y+y-3]/2\sqrt{y}\\ \\\frac{dx}{dy}=\frac{1}{3}[3y-3]/2\sqrt{y}\\ \\\frac{dx}{dy}=(y-1)/2\sqrt{y}\\ \\[/tex]
Length of the curve = [tex]\int\limits^9_1 {\sqrt{1 +[f'(y)]^2} \,dy[/tex]
[tex]=\int\limits^9_1 \sqrt{1+(\frac{(y-1)}{2\sqrt{y} } )^2} \, dy \\\\=\int\limits^9_1 \sqrt{1+(\frac{(y-1)^2}{4{y} } )} \, dy \\\\=\int\limits^9_1 \sqrt{\frac{4y+(y-1)^2}{4y} } \, dy \\\\=\int\limits^9_1 \sqrt{\frac{4y+y^2-2y+1}{4y} } \, dy \\\\=\int\limits^9_1 \sqrt{\frac{2y+y^2+1}{4y} } \, dy \\\\=\int\limits^9_1 \sqrt{\frac{(y+1)^2}{4y} } \, dy \\\\=\int\limits^9_1 \sqrt{\frac{4y+(y-1)^2}{4y} } \, dy \\\\[/tex]
[tex]=\int\limits^9_1\frac{y+1}{2\sqrt{y} } \, dy \\\\=\int\limits^9_1 \frac{\sqrt{y} }{2} +\frac{1}{2\sqrt{y} } \, dy \\\\=[(y)^\frac{3}{2}/3+\sqrt{y} ]^9_1\\\\=[(y)^\frac{3}{2}/3+\sqrt{9} ]-[(1)^\frac{3}{2}/3 +\sqrt{1} ]\\\\=[27/3+3]-[1/3+1][/tex]
=> 12- 4/3
= 32/3
Hence, the exact length of the curve x = 1/3 √y (y − 3), 1 ≤ y ≤ 9 is 32/3 units.
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The complete question is:
Find the Exact Length of the Curve. x = 1/3 √y (y − 3), 1 ≤ y ≤ 9
We will be using the formula of the exact length of the curve to solve this.
Consider an opaque horizontal plate that is well insulated on its back side. The irradiation on the plate is 2500 W/m² of which 500 W/m² is reflected. The plate is at 227° C and has an emissive power of 1200 W/m². Air at 127° C flows over the plate with a heat transfer of convection of 15 W/m² K. Given: plate = 5.67x10-8 W/m²K4 Determine the following: 2 3.1. Emissivity, (3) 3.2. Absorptivity (3) 3.3. Radiosity of the plate. (3) 3.4. What is the net heat transfer rate per unit area?
1. Emissivity:
Emissivity is a measure of how well a surface radiates heat compared to an ideal black body. It is denoted by the symbol ε and has a value between 0 and 1, where 0 means the surface does not emit any thermal radiation, and 1 means the surface is a perfect black body.
To determine the emissivity of the plate, we can use the Stefan-Boltzmann law, which relates the emissive power of a surface to its temperature and emissivity:
Emissive power = ε * σ * T^4
Where:
- Emissive power is the amount of thermal radiation emitted by the surface per unit area (in this case, 1200 W/m²).
- σ is the Stefan-Boltzmann constant (5.67x10^-8 W/m²K^4).
- T is the temperature of the surface in Kelvin.
By rearranging the equation, we can solve for emissivity:
ε = Emissive power / (σ * T^4)
Substituting the given values, we have:
ε = 1200 / (5.67x10^-8 * (227 + 273)^4)
Simplifying the expression and calculating the result, we find that the emissivity of the plate is approximately 0.7.
2. Absorptivity:
Absorptivity is a measure of how well a surface absorbs incoming radiation. It is denoted by the symbol α and also has a value between 0 and 1. In this case, we can assume that the absorptivity of the plate is equal to its emissivity.
Therefore, the absorptivity of the plate is approximately 0.7.
3. Radiosity of the plate:
Radiosity is the total amount of radiant energy emitted by a surface per unit area, including both the emitted and reflected radiation. It is denoted by the symbol J.
To determine the radiosity of the plate, we need to add the emitted and reflected radiation:
J = Emissive power + Reflected power
Given that the emissive power is 1200 W/m² and the reflected power is 500 W/m², we can calculate the radiosity as follows:
J = 1200 + 500 = 1700 W/m²
Therefore, the radiosity of the plate is 1700 W/m².
4. Net heat transfer rate per unit area:
The net heat transfer rate per unit area can be calculated by subtracting the convective heat transfer rate from the radiosity:
Net heat transfer rate per unit area = Radiosity - Convective heat transfer rate
Given that the convective heat transfer rate is 15 W/m²K, we can calculate the net heat transfer rate per unit area as follows:
Net heat transfer rate per unit area = 1700 - 15 = 1685 W/m²
Therefore, the net heat transfer rate per unit area is 1685 W/m².
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If A Particle's Acceleration Is Given By The Equation A(T)=4t+1, And The Particle's Velocity At Time T=1 Is V(1)=2, What Velocity Of The Particle At Time T=4 ? 18 35 17 36 39
The velocity of the particle at time t = 4 is 35.
To find the velocity of the particle at time t = 4, we need to integrate the acceleration function A(t) = 4t + 1 with respect to time to obtain the velocity function V(t).
Given that the particle's velocity at time t = 1 is V(1) = 2, we can use this information to determine the constant of integration.
Integrating A(t) = 4t + 1 with respect to t, we get:
V(t) = 2t^2 + t + C
To find the constant of integration, we substitute the known velocity V(1) = 2 at time t = 1:
2 = 2(1)^2 + 1(1) + C
2 = 2 + 1 + C
C = -1
Now we can determine the velocity V(t) with the constant of integration:
V(t) = 2t^2 + t - 1
To find the velocity at time t = 4, we substitute t = 4 into the velocity function:
V(4) = 2(4)^2 + 4 - 1
V(4) = 32 + 4 - 1
V(4) = 35
Therefore, the velocity of the particle at time t = 4 is 35.
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Given ƒ(x,y) = x³y² + 4xy², which of the following vectors points in the direction of steepest ascent at the point (1, 1)? (A) (-12,9) (B) (5, 16) (C) (9.-12) (D) (12,9) (E) (9, 12)
So, the answer is not given in the options, which means that none of the options are correct.
The given function is ƒ(x,y) = x³y² + 4xy².
We need to find out the vector that points in the direction of steepest ascent at the point (1, 1).
For the function ƒ(x,y), the direction of steepest ascent is given by the gradient vector ∇ƒ(x,y).
So, let's first calculate the partial derivative of ƒ(x,y) with respect to x and y.
ƒx(x,y) = 3x²y² + 4y²
ƒy(x,y) = 2x³y + 8xy
The gradient vector of ƒ(x,y) is given by,
∇ƒ(x,y) = ƒx(x,y) i + ƒy(x,y) j
Putting x = 1 and y = 1,
∇ƒ(1,1) = (3 + 4) i + (2 + 8) j = 7i + 10j
Therefore, the vector that points in the direction of steepest ascent at the point (1, 1) is (7i + 10j).
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Ted is not particularly creative. He uses the pickup line *if l could rearrange the alphabet, lid put U and I together," The random variable x is the number of women Ted approaches before encountering one who reacts positively, Determine whether a probability distribution is given. If a probability distribution is given, find its mean and standard deviation. If a probability distribution is not given, identify the requirements that are not satisfied; Does the table show a probability distribution? Select all that apply. A. Yes, the table shows a probability distribution. B. No, the random variable x is categorical instead of numerical. C. No, not every probability is between 0 and 1 inclusive. D. No, the random variable x
The correct answer is: No, the random variable x. The correct option is (D).
The given information does not provide a probability distribution.
A probability distribution describes the probabilities of different outcomes or values of a random variable. In this case, the random variable x represents the number of women Ted approaches before encountering one who reacts positively.
To have a probability distribution, we need to know the probabilities associated with each possible value of x.
However, the information given does not provide any specific probabilities for each value of x. The pickup line that Ted uses does not determine the probabilities, nor does it give any information about the likelihood of a positive reaction from a woman.
Without knowing the probabilities, we cannot establish a probability distribution.
Given this lack of information, we cannot determine the mean or standard deviation of the distribution either, as they depend on the probabilities associated with each value.
Therefore, the requirements for a probability distribution are not satisfied because the probabilities for each possible value of x are not provided.
The correct answer is:
D. No, the random variable x.
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27 The Venn diagram shows information about the number of elements in sets A. B and E.
(a) n(AUB) = 23
Find the value of x.
20-x X
8-X
B
7
The value of x is 6.5.
To find the value of x, we need to analyze the given information in the Venn diagram.
From the diagram, we know that n(AUB) = 23, which represents the number of elements in the union of sets A and B.
The formula for the union of two sets is:
n(AUB) = n(A) + n(B) - n(A∩B)
Since we don't have the values of n(A) and n(B), we can use the given information to express n(A) and n(B) in terms of x.
Looking at the diagram, we can observe that set A consists of two parts: the portion labeled (20-x) and the overlapping region with set B labeled (8-x).
Therefore, n(A) = (20-x) + (8-x) = 28 - 2x.
Similarly, set B consists of two parts: the portion labeled (8-x) and the overlapping region with set A labeled (x).
Therefore, n(B) = (8-x) + x = 8.
Now, substituting the values into the formula for n(AUB):
23 = (28 - 2x) + 8 - (8 - x)
Simplifying the equation:
23 = 36 - 2x
Rearranging the equation:
2x = 36 - 23
2x = 13
Dividing both sides by 2:
x = 13 / 2
x = 6.5
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Evaluate The Following Expression Using The First Part Of The Fundamental Theorem Of Calculus: Drd(7r9∫8rf(T)Dt) F(R) 7r9f(R)
The evaluation of the given expression using the first part of the Fundamental Theorem of Calculus is f(7r^9).
To evaluate the given expression using the first part of the Fundamental Theorem of Calculus, we need to differentiate the integral with respect to the upper limit of integration and then substitute the upper limit.
Let's break down the expression step by step:
The integral part: ∫8rf(T) dT
This represents the integral of the function f(T) with respect to T, where the upper limit of integration is 8r. We don't have any information about the specific function f(T), so we cannot evaluate this integral further.
Differentiating with respect to r:
To differentiate the integral with respect to r, we apply the first part of the Fundamental Theorem of Calculus, which states that if F(r) is the antiderivative of f(r), then the derivative of the integral from a to r of f(T) dT with respect to r is equal to f(r).
In our case, we have:
d/dt ∫8rf(T) dT = f(r)
Substituting the upper limit:
Now, we substitute the upper limit of integration (7r^9) into the derivative obtained in step 2.
So, the final expression becomes:
f(7r^9)
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Consider the following all-integer linear program. Max 5x1 + 8x2 s.t. 6x1 + 5x2 3 25 9x1 + 4x2 S 36 1x1 + 2x2 5 8 *11*2 2 0 and integer (a) Graph the constraints for this problem. Use points to indicate all feasible integer solutions. X2 X2 8 8 6 6 X1 X1 6 8 0 2 4 6 8 X2 X2 8 8 6 6 4 2 2 X1 X1 2 8 6 8 (b) Find the optimal solution to the LP Relaxation. (Round your answers to three decimal places.) at (x1, x2) = Using this solution, round down to find a feasible integer solution. at (X11 X2) = (c) Find the optimal integer solution. at (x1, x2) = Is it the same as the solution obtained in part (b) by rounding down? O Yes O No
a) Graph the constraints: Here are the points that satisfy each inequality:6x1 + 5x2 ≤ 25x2 ≤ (25 - 6x1)/5x1 x2 ≤ (25 - 5x2)/6x1 ≤ (25 - 4x2)/9x2 ≤ (36 - 9x1)/4x1 x2 ≤ (36 - 4x1)/9x1 + 2x2 ≤ 8Let's first graph the line with equation 6x1 + 5x2 = 25:6x1 + 5x2 = 25impliesx2 = (25 - 6x1)/5Here are the intercepts:
x1 = 0
⇒ x2 = 5 (0, 5)x2 = 0
⇒ x1 = 25/6 ≈ 4.167 (25/6, 0)
We can plot these two points and draw a line between them: We now need to decide which side of the line to shade. We know that all feasible points must satisfy this inequality, so the feasible region must be on the same side of this line as the origin. We can check that (0, 0) satisfies the inequality, so we want the region that contains the origin.
The easiest way to determine which side of the line to shade is to plug in a test point that is not on the line.
= 36:9x1 + 4x2 = 36
impliesx2 = (36 - 9x1)/4
Here are the intercepts:
x1 = 0
⇒ x2 = 9 (0, 9)x2 = 0
⇒ x1 = 4 (4, 0)We can plot these two points and draw a line between them: We can use a test point to determine which side of the line to shade.
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Use u-substitution with u = 2x^2 + 1 to evaluate 4x(2x^2 + 1)^7
dx.
The integral of 4x(2x² + 1)⁷ dx is (2x² + 1)⁸ / 16 + C, where C is the constant of integration. To evaluate the integral ∫4x(2x² + 1)⁷ dx using u-substitution, we'll start by assigning u = 2x² + 1.
Let's differentiate u with respect to x to find du/dx:
du/dx = d/dx(2x² + 1)
du/dx = 4x
We can solve this equation for dx:
dx = du / (4x)
Now let's rewrite the integral in terms of u:
∫4x(2x² + 1)⁷ dx = ∫4x(u)⁷ dx
= ∫4(u-1)(u)⁷ (du / (4x))
= ∫(u)⁷ (u-1) du
Now we can simplify the integral using the substitution u = 2x² + 1:
∫(u)⁷ (u-1) du = ∫(2x² + 1)⁷ ((2x² + 1) - 1) du
= ∫(2x² + 1)⁷ (2x²) du
= 2 ∫(2x² + 1)⁷ (x²) du
Now we have the integral in terms of u and du. We can proceed to evaluate it by integrating with respect to u and then substituting back x for u:
= 2 ∫u⁷ (x²) du
= 2 ∫u⁷ (1/2) du (since x² = (u - 1) / 2)
= (1/2) ∫u⁷ du
= (1/2) * ([tex]u^8[/tex] / 8) + C
= ([tex]u^8[/tex] / 16) + C
Finally, substituting u back in terms of x:
= (2x² + 1)⁸ / 16 + C
So, the integral of 4x(2x² + 1)⁷ dx is (2x² + 1)⁸ / 16 + C, where C is the constant of integration.
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1. GIVEN: f(v)= ⎩
⎨
⎧
−1,0≤v<2
0,2≤v<4
4v,4≤v<6
Calculate the FOURIER COSINE SERIES of the given step function of f(v)= 2
1
a 0
+∑ n=1
[infinity]
a n
cos p
nπv
2. GIVEN: f(z)=2z−5,0≤z<10 a) Find the FOURIER SERIES of the ODD extension of the given function, if f odd
(z)= 2
1
a 0
+∑ n=1
[infinity]
a n
cos p
nπz
+∑ n=1
[infinity]
b n
sin p
nπz
b) Graph f odd
(z),−10≤z<10
[tex]:$$a_n=\frac{2}{L}\int_{0}^{L}f(v)cos(\frac{n\pi}{L}v)dv$$$$a_0=\frac{1}{L}\int_{0}^{L}f(v)dv$$[/tex]We know that f(v) is a piecewise function with different intervals. To get the Fourier cosine series, we have to find the coefficients. There are different formulas to calculate the coefficients, but for this function, we use the following formula[tex]:$$a_n=\frac{2}{L}\int_{0}^{L}f(v)cos(\frac{n\pi}{L}v)dv$$$$a_0=\frac{1}{L}\int_{0}^{L}f(v)dv$$[/tex]where L is the period of the function,
which is 6 in this case, as the function repeats every 6 units.
a0 is always calculated separately, and then an is calculated using the above formula.Here, a0=1/6*(-2)+1/6*(0)+1/6*(12)=1Coefficient an can be calculated using the formula for each interval. Let's calculate it for 4≤v<6. Here,
Therefore, the even extension of this function is f(-z)=-(2z+5). Now we have to extend this function from 0 to -10 as well. Then, the odd extension of f(z) can be given by:$$f_{odd}(z)=\begin{cases} f(z) & 0\le z<10\\ -f(-z) & -10
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1. {BB] For a,b∈Z\[0}, define a∼b if and only if ab>0. (a) Prove that ∼ defines an equivalence relation on Z. (b) What is the equivalence class of 5 ? Whil's the equivalence class of −5 ? (c) What is the partition of Z\(0] determined by this equivalence relation?
∼ defines an equivalence relation on Z.
(a)Let a ∈ Z \ {0}.
Then, a · a = a² (Since a2 > 0, a ∼ a. )
Proof of symmetric property:Let a, b ∈ Z \ {0} such that a ∼ b.
Then, ab > 0.
Since the product of two non-zero integers is commutative, we get ba > 0.
Hence, b ∼ a.
Proof of transitive property:Let a, b, and c ∈ Z \ {0} such that a ∼ b and b ∼ c.
Then, ab > 0 and bc > 0.
Multiplying these inequalities, we get a(bc) > 0. As ab > 0, a(bc) and ab have the same sign. So, a(bc) > 0 implies that a and c have the same sign. Thus, a ∼ c.Therefore, by the definition of an equivalence relation, ∼ defines an equivalence relation on Z.
(b)The equivalence class of 5 is the set of all integers in Z \ {0} that are positive or negative. That is,
[5] = {x ∈ Z \ {0} : 5x > 0} = {x ∈ Z \ {0} : x > 0} ∪ {x ∈ Z \ {0} : x < 0} = Z+ ∪ Z-.
The equivalence class of −5 is the set of all integers in Z \ {0} that are positive or negative. That is,
[−5] = {x ∈ Z \ {0} : (−5)x > 0} = {x ∈ Z \ {0} : x < 0} ∪ {x ∈ Z \ {0} : x > 0} = Z- ∪ Z+.
(c) The partition of Z \ (0] determined by this equivalence relation consists of the two equivalence classes, [5] and [−5]. That is, Z \ (0] = [5] ∪ [−5] = (Z+ ∪ Z-) ∪ (Z- ∪ Z+) = Z+.
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Solve ODE
3 xy' = y³ / x² + y
The solution of the ODE 3xy′=y³/x²+y is y = c/x³ − x².
The ODE (Ordinary Differential Equation) 3xy′=y³/x²+y is solved as follows:
Begin by separating the variables:x²y′=1/3·y²/(x²+y)
Divide by y² and set u = x² + y:u′/2 = -1/3 · 1/u, which yieldsu = c/x³
This equation is rewritten in terms of y and x: x² + y = c/x³ .y = c/x³ − x²
The solution of the ODE 3xy′=y³/x²+y is therefore y = c/x³ − x².
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(A). A Conservative Vector Field Is Given By F(X,Y,Z)=(X2+Y)I+(Y2+X)J+(Zez)K. (I). Determine A Potential Function Φ Such Tha
The potential function Φ for the conservative vector field F(x, y, z) = (x^2 + y)i + (y^2 + x)j + (ze^z)k is:
Φ(x, y, z) = (1/3)x^3 + xy + xy^2 + (1/3)y^3 + ze^z + Ce^z + C1(y, z) + C2(x, z),
To determine a potential function Φ for the conservative vector field F(x, y, z) = (x^2 + y)i + (y^2 + x)j + (ze^z)k, we need to find a scalar function Φ(x, y, z) such that the gradient of Φ is equal to F.
The potential function Φ(x, y, z) will have the following form:
Φ(x, y, z) = ∫[F(x, y, z) ⋅ dr],
where ∫ represents the integral, F(x, y, z) is the conservative vector field, and dr represents the differential displacement vector.
Let's calculate Φ by integrating each component of F(x, y, z) separately.
∫[(x^2 + y)dx] = (1/3)x^3 + xy + C1(y, z),
where C1(y, z) is the constant of integration with respect to y and z.
∫[(y^2 + x)dy] = xy^2 + (1/3)y^3 + C2(x, z),
where C2(x, z) is the constant of integration with respect to x and z.
∫[(ze^z)dz] = ze^z + Ce^z,
where Ce^z is the constant of integration with respect to x and y.
Now, we combine these results to find Φ(x, y, z):
Φ(x, y, z) = (1/3)x^3 + xy + C1(y, z) + xy^2 + (1/3)y^3 + C2(x, z) + ze^z + Ce^z.
Thus, the potential function Φ for the conservative vector field F(x, y, z) = (x^2 + y)i + (y^2 + x)j + (ze^z)k is:
Φ(x, y, z) = (1/3)x^3 + xy + xy^2 + (1/3)y^3 + ze^z + Ce^z + C1(y, z) + C2(x, z),
where C1(y, z) and C2(x, z) are arbitrary functions of their respective variables, and Ce^z is a constant with respect to x and y.
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Find the sum of the power series \( \sum_{n=0}^{\infty} x^{3 n+6},|x|
Given, power series `sum_(n=0)^oo x^(3n+6) We have to find the sum of the power series and given that `|x| < 1`.Here, we need to separate out the power of x, so that we can get the formula of power series i.e., `∑x^n`.
First, we consider `x^6` common from the given series: `x^6 * ∑_(n=0)^oo x^(3n)`Again, we separate out `x^3` common from the above expression: `x^6 * x^3 * ∑_(n=0)^oo (x^3)^n Simplifying, `x^9 * ∑_(n=0)^oo (x^3)^n`We know that the formula for power series is `∑x^n = 1/(1-x)`.
Thus, `∑_(n=0)^oo (x^3)^n = 1/(1-x^3) Putting this value in the above expression, we get the value of power series:`x^9/(1-x^3)`Therefore, the sum of the given power series is `x^6/(1-x^3)`.
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Let x be a real number such that 625^x = 64. Then 125^ x = ?√?
The expression[tex]125^x[/tex] can be written as the square root of 5 raised to the power of 9: 125^x = √(5^9).
Let's solve the given equation step by step:
We have the equation 625^x = 64
To simplify the equation, we can express both sides with the same base. We know that 625 can be expressed as 5^4 and 64 can be expressed as 2^6.
Rewriting the equation, we have (5^4)^x = 2^6.
Using the property of exponents, we can simplify further:
5^(4x) = 2^6.
To find x, we need to equate the exponents:
4x = 6.
Now, solving for x:
x = 6/4.
Simplifying further:
x = 3/2.
Now, we can calculate the value of 125^x using the value of x we found:[tex]125^x = 125^(3/2).[/tex]
Using the property of exponents, we can rewrite this as (5^3)^(3/2).
Applying the exponent rule, (a^m)^n = a^(m*n), we have:
125^x = 5^(3*(3/2)).
Simplifying the exponent, we have:
[tex]125^x = 5^(9/2).[/tex]
Therefore, the expression 125^x can be written as the square root of 5 raised to the power of 9:
125^x = √(5^9).
Thus, the simplified form of 125^x is the square root of 5 raised to the power of 9: √(5^9).
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In a recent survey conducted by Pew Research, it was found that 156 of 295 adult Americans without a high school diploma were worried about having enough saved for retirement. Does the sample evidence suggest that a majority of adult Americans without a high school diploma are worried about having enough saved for retirement? Use a 0.05 level of significance. 1. State the null and alternative hypothesis. 2. What type of hypothesis test is to be used? 3. What distribution should be used and why? 4. Is this a right, left, or two-tailed test? 5. Compute the test statistic. 6. Compute the p-value. 7. Do you reject or not reject the null hypothesis? Explain why. 8. What do you conclude?
Null hypothesis (H₀): The majority of adult Americans without a high school diploma are not worried about having enough saved for retirement.
Alternative hypothesis (H₁): The majority of adult Americans without a high school diploma are worried about having enough saved for retirement.
How to explain the informationThis is a hypothesis test for the proportion.
The distribution that should be used is the binomial distribution because we are dealing with a binary outcome (worried or not worried) and we have a sample proportion.
This is a one-tailed test because we are interested in whether the proportion is greater than 0.5 (majority worried).
The test statistic is the z-score, which can be calculated using the formula:
z = (p - p₀) / sqrt(p₀ * (1 - p₀) / n)
Here, p = 156/295 ≈ 0.5288, p₀ = 0.5, and n = 295.
z = (0.5288 - 0.5) / sqrt(0.5 * (1 - 0.5) / 295)
z ≈ (0.0288) / sqrt(0.25 / 295)
z ≈ 0.0288 / 0.0161
z ≈ 1.7888
The p-value is the probability of obtaining a test statistic as extreme as the one observed, assuming the null hypothesis is true.
For a one-tailed test, we need to find the probability of the test statistic being greater than the observed value (1.7888).
Using a standard normal distribution table or a statistical software, we find that the p-value is approximately 0.0363.
Since the p-value (0.0363) is less than the significance level (0.05), we reject the null hypothesis.
The sample evidence suggests that a majority of adult Americans without a high school diploma are worried about having enough saved for retirement, at a significance level of 0.05.
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The annual premium for a 5,000$ insurance policy against theift of a painting is 200$. If the (empirical) probability that the painting will be stolen during the year is 0.03. What is your expected return from the insurance company if you take out this insurance.
Let X be the random variable for the amount of money recieved from the insurance company in the give year.
The expected return from the insurance company, if you take out this insurance, is -$50. This means that, on average, you would expect to lose $50 per year.
To calculate the expected return from the insurance company, we need to determine the expected value of the random variable X, which represents the amount of money received from the insurance company in the given year.
The annual premium for the insurance policy is $200.
The probability that the painting will be stolen during the year is 0.03.
The insured amount is $5,000.
Now, let's calculate the expected return step by step:
1. Calculate the amount paid as premiums:
The amount paid as premiums is $200.
2. Calculate the amount received if the painting is stolen:
If the painting is stolen, the insured amount of $5,000 will be received.
3. Calculate the expected return from the insurance company:
The expected return is calculated by multiplying the amount received in each scenario by its corresponding probability and summing them up.
Expected return = (Amount received if stolen) * Probability(stolen) - (Amount paid as premiums)
Expected return = ($5,000 * 0.03) - $200
Expected return = $150 - $200
Expected return = -$50
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1
An observational study of teams fishing for tho red spiny
lobster in a cortain aty was conducted and the results are attached
below. Two variables measured fpr each of 8 teams were y=total
catch of
Study Site Data
B: What patlern, if ary, does the plot revear? A. As the search frequency increases the iotal caut decieases 8. As the search trequency increases the total calch wive increases. C. As
The answer to of what pattern does the plot revealed can be stated as the search frequency increases, the total catch of red spiny lobster also increases. And so the increase is proportional, we can say that the plot follows a trend of positive correlation. Option B is the answer.
The given plot represents the relationship between the search frequency and the total catch of red spiny lobster for eight different teams. Based on the plot, it appears that there is a pattern or trend in the data.
Upon observing the plot, it can be seen that as the search frequency increases, the total catch of red spiny lobster also increases. This suggests a positive correlation between these two variables. The trend implies that teams that engage in more frequent search activities tend to have a higher total catch of the lobster.
This pattern can be explained by the fact that increasing search frequency allows teams to locate and capture a greater number of red spiny lobsters.
When teams actively search for these lobsters more frequently, they are likely to encounter and catch more of them, leading to a higher total catch. The increased effort and dedication put into searching for the lobsters contribute to a higher likelihood of success.
It's important to note that this conclusion is based on an observational study, which means that it cannot establish a cause-and-effect relationship between the search frequency and total catch.
Other factors may also influence the total catch, such as the fishing techniques employed, the experience and skill of the teams, or environmental conditions.
Therefore, further research and controlled experiments would be necessary to confirm and understand the underlying mechanisms of this observed pattern.
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Your friend has asked you to help move a 72.0 in. x 78 in. mattress with a mass of 83.0 lbm- The two of you position it horizontally in an open, flat-bed trailer that you hitch to your car. There is nothing immediately avalable to tie the mattress to the trailer, but you know there is a risk of it being lifted from the trailer by the air flowing over it and perform the following calculations to guide your actions. You see that your friend also has several boxes of books. Since you would like to drive at 65.0 miles per hour, what weight of books (lbf) do you need to put on the mattress to hold it in place? i lbf Although the conditions do not exactly match those for which Bernoulli's equation is applicable, you use the equation to get a rough estimate of how fast you can drive (miles/h) before the matteess is lifted from the trailer. You assume the velocity of air above the mattress equals the velocity of the car, the pressure difference between the top and bottom of the mattress equals the weight of the mattress divided by the mattress cross-sectional area, and air has a constant density of 0.0750 lbm/ft³. What is your result? mph
To prevent a mattress from being lifted off a flat-bed trailer while driving at 65.0 miles per hour, you need to determine the weight of books required to hold it in place.
To calculate the weight of books needed to hold the mattress in place, you need to consider the force required to counteract the lift force caused by the air flowing over the mattress. The lift force can be approximated by the pressure difference between the top and bottom of the mattress, which is equal to the weight of the mattress divided by its cross-sectional area.
Next, using Bernoulli's equation, you assume that the velocity of air above the mattress is equal to the velocity of the car. By rearranging the equation and solving for the car's velocity, you can estimate the maximum speed at which you can drive without lifting the mattress.
It's important to note that the given conditions may not precisely match those for which Bernoulli's equation is applicable, and this calculation provides a rough estimate rather than an exact value.
To prevent the mattress from being lifted off the trailer while driving at 65.0 miles per hour, you need to place a sufficient weight of books on it. The exact weight can be determined by considering the force needed to counteract the lift force caused by the airflow. Additionally, using Bernoulli's equation, you can estimate the maximum speed at which you can drive before the mattress is lifted. This estimation helps guide your actions and ensure the mattress remains secure during transportation.
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Q2: Answer the following: 1-Explain the various theories that explain breakdown in commercail liquids dielectrics. (20 MARKS) 2- What is thermal breakdown in soild dielectrics?(explain with the aid of suitable diagrams and equations if (25 MARKS) availables) 3- Explain treeing and tracking breakdown with the aid of suitable diagrams and equations if availables (25 MARKS)
1) Theories explain breakdown in liquid dielectrics.
2) Thermal breakdown occurs in solid dielectrics due to excessive heat.
3) Treeing and tracking are breakdown mechanisms in solid insulation materials.
The breakdown in commercial liquid dielectrics can be attributed to several theories. The electrode erosion theory suggests that the breakdown occurs due to the formation and growth of conducting channels between the electrodes, which leads to electrode material erosion. The streamer theory explains breakdown as a result of the formation and propagation of ionized channels, known as streamers, under the influence of high electric fields.
The space charge limited theory focuses on the accumulation of space charges within the dielectric material, which can affect the electric field distribution and ultimately lead to breakdown. These theories provide valuable insights into the breakdown mechanisms and phenomena observed in liquid dielectrics used in various electrical applications.
Thermal breakdown in solid dielectrics occurs when excessive heat is generated within the material, leading to a deterioration of its insulating properties. This phenomenon can be explained using thermal conduction equations and diagrams. The temperature distribution within the solid dielectric is affected by factors such as the applied voltage, current, and thermal conductivity of the material.
Excessive heat generation can result in localized hotspots, causing thermal degradation and breakdown. Thermal breakdown can be represented by equations that describe the relationship between temperature, thermal conductivity, and heat generation within the solid dielectric. Diagrams illustrating temperature distributions within the material can help visualize the progression of thermal breakdown and its effects on the insulation system.
Treeing and tracking breakdown are two degradation mechanisms observed in solid insulation materials. Treeing occurs when the material is subjected to electrical and chemical stresses, leading to the growth of tree-like structures within the insulation. These structures create conductive paths that can eventually cause breakdown.
Tracking refers to the formation of carbonized paths on the surface of the insulating material due to electrical arcing or tracking currents. These paths can result from the accumulation of contaminants or surface defects. Diagrams illustrating the growth and progression of treeing and tracking breakdown can help visualize the effects of these phenomena. Equations that describe the electrical and thermal behavior within the insulation material can provide further insight into the mechanisms behind treeing and tracking breakdown.
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Jeremy caught 8 fish in a contest. The mean weight of the fish was 4.5125 kg. He forgot to make his own record of the weight of the last fish, but the first 7 were: 4.5 kg, 5.5 kg, 6.6 kg, 2.6 kg, 3.6 kg, 4.9 kg and 4.6 kg. What was the weight of the last fish? kg [2] Mar
The weight of the last fish wouid be 3.8kg
The weight of the last fish can be determined as follows :
sum of weight of the first 7 fishes :
4.5 + 5.5 + 6.6 + 2.6 + 3.6 + 4.9 + 4.6 = 32.3Mean weight = 4.5125
Let the weight of last fish = x
(32.3 + x )/8 = 4.5125
32.3 + x = 36.1
x = 3.8
Therefore, the weight of the last fish wouid be 3.8 kg
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hint: start with fundamental equation for thermodynamics All data refer to 298.15 K and 1 bar pressure. Units of AH and AG° are ki mol-'; Units of S and Cp are J K-1 mol-1 1 Compound AH AG S° Water Water vapour H2O H2O(9) -285.8 -241.8 -2371 ...228.6 69.9 188.3 75.3 33.6 (i) Derive an expression for the change in Gibbs energy of vaporisation with temperature for water (you may assume a constant pressure of 1 bar). Thus calculate the temperature at which vaporisation becomes thermodynamically favourable and comment on the accuracy of this calculation. [2 marks]
(ii) Derive an expression for the change in Gibbs energy of vaporisation with pressure for water (you may assume a constant temperature of 298.15 K). Thus calculate the pressure at which vaporisation becomes thermodynamically favourable.
(i) To derive an expression for the change in Gibbs energy of vaporization with temperature for water, we can use the fundamental equation for thermodynamics:
ΔG = ΔH - TΔS
Where:
ΔG is the change in Gibbs energy
ΔH is the change in enthalpy
T is the temperature
ΔS is the change in entropy
The change in Gibbs energy of vaporization (ΔG_vap) is the difference between the Gibbs energy of the water vapor (G_vap) and the Gibbs energy of the liquid water (G_liquid):
ΔG_vap = G_vap - G_liquid
At a constant pressure of 1 bar, we can assume that ΔH_vap and ΔS_vap are constant with temperature. Therefore, the expression for the change in Gibbs energy of vaporization with temperature can be simplified as:
ΔG_vap = ΔH_vap - TΔS_vap
To calculate the temperature at which vaporization becomes thermodynamically favorable, we need to find the temperature at which ΔG_vap is equal to zero. This can be done by setting ΔG_vap equal to zero and solving for T:
0 = ΔH_vap - TΔS_vap
TΔS_vap = ΔH_vap
T = ΔH_vap / ΔS_vap
Substituting the values given in the table, we have:
T = -285.8 kJ/mol / (69.9 J/K mol)
Simplifying, we get:
T = -285.8 × 10^3 J/mol / (69.9 J/K mol)
T ≈ -4086 K
Since temperature cannot be negative, it means that vaporization of water becomes thermodynamically favorable at temperatures above 4086 K. However, this value is not physically realistic, as water vaporizes at much lower temperatures. Therefore, there might be an error in the calculation or assumption made in this particular case.
(ii) To derive an expression for the change in Gibbs energy of vaporization with pressure for water at a constant temperature of 298.15 K, we can again use the fundamental equation for thermodynamics:
ΔG = ΔH - TΔS
At constant temperature, ΔH and ΔS are constant. Therefore, the expression for the change in Gibbs energy of vaporization with pressure can be simplified as:
ΔG_vap = ΔH_vap - TΔS_vap
To calculate the pressure at which vaporization becomes thermodynamically favorable, we need to find the pressure at which ΔG_vap is equal to zero. This can be done by setting ΔG_vap equal to zero and solving for the pressure:
0 = ΔH_vap - TΔS_vap
ΔH_vap = TΔS_vap
Using the values given in the table, we have:
ΔH_vap = 69.9 J/K mol
T = 298.15 K
Substituting these values, we get:
69.9 J/K mol = 298.15 K × ΔS_vap
ΔS_vap = 69.9 J/K mol / 298.15 K
ΔS_vap ≈ 0.234 J/K mol
Therefore, the change in Gibbs energy of vaporization with pressure for water at a constant temperature of 298.15 K is approximately 0.234 J/K mol.
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Write the slope-intercept form of the line tangent to the curve f(x)=−2x3−6x2+8 at the point (−1,f(−1)).
The slope-intercept form of the line tangent to the curve f(x) = −2x³ − 6x² + 8 at the point. Let's obtain the derivative of the function first: f(x) = −2x³ − 6x² + 8f'(x) = -6x² - 12x
Therefore, the slope of the tangent line at x = -1:
f'(-1) = -6(-1)² - 12(-1)
= 6 + 12 = 18
y = 18(x + 1) + f(-1) The slope of the tangent line, 18, and the point, (-1, f(-1)), have been given. Now
y - f(-1) = 18(x + 1)This can be simplified to slope-intercept form:
y = 18(x + 1) + f(-1)Hence, the slope-intercept form of the line tangent to the curve
f(x)=−2x3−6x2+8 at the point
(−1,f(−1)) is y = 18(x + 1) + f(-1).
Therefore, y = 18(x + 1) + f(-1).
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if one leg of a right triangle is 4 and the hypotenuse is 5, find the missing leg
According to Pythagorean theorem
a² = b² + c² where a is hypotenuse , b and c are legs of the right triangle
5² = 4² + x²
25 = 16 + x²
25 - 16 = x²
9 = x²
√9 = √x²
3 = x
so the other leg is equal to 3
Hope it helps
Answer:
According to Pythagorean theorem
a² = b² + c² where a is hypotenuse , b and c are legs of the right triangle
5² = 4² + x²
25 = 16 + x²
25 - 16 = x²
9 = x²
√9 = √x²
3 = x
so the other leg is equal to 3
Step-by-step explanation:
Which Of The Following Is The Directional Derivative Of F(X,Y)=2xy2−X3y At The Point (1,1) In The Direction That Has The Angle
The directional derivative of the given function f(x,y) = 2xy² - x³y at point (1,1) in the direction that makes an angle of 60° with the positive direction of the x-axis is (2 - 3√3) units.
Given function f(x,y) = 2xy² - x³yThe direction of the derivative is the angle which is made by the line passing through a point where the derivative is to be found and the gradient of the function at that point.
As we know that direction is specified by angles, so the direction of the derivative at a point will be given by the angle that the line makes with the x-axis.
Given a point (1,1) in the direction that makes an angle of 60° with the positive direction of the x-axis. We need to find the directional derivative of the given function at the point (1,1) in the direction that makes an angle of 60° with the positive direction of the x-axis.
We know that the direction of the gradient vector at any point is always perpendicular to the level surface passing through that point.
Therefore, The gradient vector of the given function at the point (1,1) can be calculated as:∇f(x, y) = [∂f/∂x, ∂f/∂y]∇f(1,1) = [4, -3].
Now, the angle between the direction and x-axis is 60°So, the direction vector = [cos(60°), sin(60°)] = [1/2, √3/2].
Hence, the directional derivative of f(x,y) = 2xy² - x³y at point (1,1) in the direction that makes an angle of 60° with the positive direction of the x-axis is given by:∇f(1,1) . [cos(60°), sin(60°)] = [4, -3] . [1/2, √3/2]= (4 * 1/2) + (-3 * √3/2)= 2 - 3√3 units
The directional derivative of the given function f(x,y) = 2xy² - x³y at point (1,1) in the direction that makes an angle of 60° with the positive direction of the x-axis is (2 - 3√3) units.
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Find The Indicated Derivative. Dxdy For Y=X14 Dxdy=Y=X−7 Dxdy=Find G′(X) For G(X)=X−7/4 G′(X)=
Find the indicated derivative of y = x14, y = x-7, and G(x) using power rule differentiation, resulting in 14x13, -7x-8, and -7/4 * x-11/4.
The given function is y = x14 and we have to find the indicated derivative of dxdy.To find dxdy, we need to differentiate y = x14 with respect to
x.dxdy = d/dx (x14)
Using the power rule of differentiation, we get;
dxdy = 14x13
Therefore, the indicated derivative of dxdy for y = x14 is 14x13.
The given function is y = x-7 and we have to find the indicated derivative of dxdy.To find dxdy, we need to differentiate y = x-7 with respect to x.dxdy = d/dx (x-7)Using the power rule of differentiation, we get;dxdy = -7x-8Therefore, the indicated derivative of dxdy for y = x-7 is -7x-8.The given function is G(x) = x-7/4 and we have to find the derivative of G(x) i.e. G′(x).To find the derivative of G(x), we need to differentiate G(x) with respect to x.G′(x) = d/dx (x-7/4)
Using the power rule of differentiation, we get;G′(x) = -7/4 * x-11/4Therefore, the derivative of G(x) or G′(x) is -7/4 * x-11/4.
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1. Estimate the answer to each calculation using one of these numbers.
110 000 120 000 130 000 140 000 130 000
(a) 34 405+90 253 =
(b)278 410-139 321 =
The estimation of the provided numbers can be obtained as follows:
a. 30000 + 90,000 = 120,000
b. 270000 - 140,000 = 130,000
What is an estimate?An estimate refers to a rough calculation. If you aim to get the estimate of a result, then the exact figure is not your goal, but a calculation that is as close as possible to the accurate answer.
So, for the figures above, we can round up the numbers to the nearest whole figures and then perform the calculations. For the first one, round up 34 405 to 30,000 and 90 253 to 90,000. The sum of the figures would be 120,000.
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Let t2y" + 13ty' + 35y = 0. Find all values of r such that y = t satisfies the differential equation for t > 0. If there is more than one correct answer, enter your answers as a comma separated list. r = help (numbers)
The values of r for which y = t satisfies the differential equation are 0 and -24.
To find the values of r for which the function y = t satisfies the given differential equation, we need to substitute y = t into the equation and solve for r.
Given the differential equation:
t^2y" + 13ty' + 35y = 0
Substituting y = t, we have:
t^2(2) + 13t(1) + 35t = 0
Simplifying the equation:
2t^2 + 13t + 35t = 0
2t^2 + 48t = 0
2t(t + 24) = 0
This equation is satisfied when either:
2t = 0 (implies t = 0)
t + 24 = 0 (implies t = -24)
Therefore, the values of r for which y = t satisfies the differential equation are 0 and -24.
In summary, the values of r are 0 and -24.
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Take the derivative of f(x) = (x^3 + 3) (x^-2 - 7) , f'(x) =
The derivative of f(x) = (x^3 + 3)(x^-2 - 7) is f'(x) = -2 - 6x^-3 + 3x^-2 - 21x^2.
To find the derivative of the function f(x) = (x^3 + 3) (x^-2 - 7), we can use the product rule and the power rule for differentiation.
Using the product rule, the derivative of the product of two functions u(x) and v(x) is given by:
(fg)'(x) = f'(x)g(x) + f(x)g'(x)
Let's differentiate each term separately:
f(x) = x^3 + 3
f'(x) = 3x^2 (using the power rule)
g(x) = x^-2 - 7
g'(x) = -2x^-3 (using the power rule)
Now, applying the product rule:
f'(x) = (x^3 + 3)(-2x^-3) + (3x^2)(x^-2 - 7)
Simplifying:
f'(x) = -2x^-3(x^3 + 3) + 3x^2(x^-2 - 7)
= -2(x^3 + 3)x^-3 + 3x^2(x^-2 - 7)
Expanding and combining like terms:
f'(x) = -2x^-3 * x^3 - 6x^-3 + 3x^2 * x^-2 - 21x^2
= -2 - 6x^-3 + 3x^-2 - 21x^2
So, the derivative of f(x) = (x^3 + 3)(x^-2 - 7) is f'(x) = -2 - 6x^-3 + 3x^-2 - 21x^2.
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