The area of figure is 272.52 square units.
The given figure consist:
A parallelogram of,
length = 12
width = 18
Since we know that,
Area of parallelogram = length x width
= 12 x 18
= 216 square units
And it consist of a semicircle of,
radius = 12/2
= 6
Since we know that,
Area of semicircle is = πr²/2
= 3.14 x 6 x 6/2
= 56.52 square units
Thus,
The area of figure is sum of both areas,
⇒ 216 + 56.52
Hence, area is
⇒ 272.52 square units
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Baruch bookstore is interested in how much, on average, you spend each semester on textbooks. It randomly picks up 1,000 students and calculate their average spending on textbooks. What are the population, sample, parameter, statistic, variable and data in this example? • Population: • Sample: • Parameter: • Statistic: • Variable: • Data: Is this data or variable numerical or categorical? If numerical, is it discrete or continuous? If categorical, is it ordinal or non-ordinal? Please explain your answer.
Regarding the nature of the variable, it is numerical since it involves measuring the amount of money spent. It is also continuous since the amount spent can take on any value within a range of possibilities.
Population: The population in this example refers to the entire group or set of individuals that the study is focused on, which is the total number of students who spend money on textbooks each semester.
Sample: The sample is a subset of the population that is selected for the study. In this case, the sample consists of the 1,000 randomly chosen students from the population.
Parameter: A parameter is a characteristic or measure that describes the entire population. In this example, a parameter could be the average spending on textbooks for all students in the population.
Statistic: A statistic is a characteristic or measure that describes the sample. In this example, a statistic would be the average spending on textbooks calculated from the data of the 1,000 students in the sample.
Variable: The variable is the characteristic or attribute that is being measured or observed in the study. In this case, the variable is the amount of money spent on textbooks each semester by the students.
Data: Data refers to the values or observations collected for the variable. In this example, the data would be the individual spending amounts on textbooks for each student in the sample.
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x = 1 - y² and x = y² - 1. sketch the region, set-up the integral that Consider the region bounded by would find the area of the region then integrate to find the area.
Note: • You may use the equation function (fx) in the answer window to input your solution and answer, OR
• Take a photo of your handwritten solution and answer then attach as PDF in the answer window.
The region bounded by the curves x = 1 - y^2 and x = y^2 - 1 is a symmetric region about the y-axis. It is a shape known as a "limaçon" or
"dimpled cardioid."
To find the area of the region, we need to determine the limits of integration and set up the integral accordingly. By solving the equations
x = 1 - y^2
and
x = y^2 - 1
, we can find the points of intersection. The points of intersection are (-1, 0) and (1, 0), which are the limits of integration for the y-values.
To calculate the area, we integrate the difference between the upper curve (1 - y^2) and the lower curve (y^2 - 1) with respect to y, from -1 to 1:
Area =
∫[-1,1] (1 - y^2) - (y^2 - 1) dy
After evaluating the integral, we obtain the area of the region bounded by the given curves.
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(1 point) Suppose that a drug is administered to a person in a single dose, and assume that the drug does not accumulate in body tissue, but is excreted through urine. Denote the amount of drug in the body at time t by b(t) and in the urine at time t by u(t). b(0) = 11 mg and u(0) = 0 mg, find a system of differential equations for b(t) and u(t) if it takes 30 minutes for the drug to be at one-half of its initial amount in the body.
db / dt =
du / dt =
Let's denote the amount of drug in the body at time t as b(t) and in the urine at time t as u(t).
We are given the initial conditions b(0) = 11 mg and u(0) = 0 mg.
To find the system of differential equations, we need to consider the rate at which the drug is changing in the body and in the urine.
The rate of change of the drug in the body, db/dt, is equal to the negative rate at which the drug is being excreted in the urine, du/dt.
The rate at which the drug is being excreted in the urine, du/dt, is directly proportional to the amount of drug in the body, b(t).
Based on these considerations, we can set up the following system of differential equations:
db/dt = -k * b(t)
du/dt = k * b(t)
Where k is a constant of proportionality.
These equations represent the rate of change of the drug in the body and the urine, respectively. The negative sign in the first equation indicates that the drug is being eliminated from the body.
Now, let's find the value of k using the given information. We are told that it takes 30 minutes for the drug to be at one-half of its initial amount in the body. This can be represented as:
b(30) = 11/2
To solve for k, we substitute the initial condition into the first equation:
db/dt = -k * b(t)
At t = 0, b(0) = 11, so:
-11k = -k * 11 = -k * b(0)
Simplifying:
k = 1
Therefore, the system of differential equations is:
db/dt = -b(t)
du/dt = b(t)
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Find the following expressions using the graph below of vectors
u, v, and w.
1. u + v = ___
2. 2u + w = ___
3. 3v - 6w = ___
4. |w| = ___
(fill in blanks)
U + v = (2,2)2. 2u + w = (8,6)3. 3v - 6w = (-6,-12)4. |w| = 5.
We can simply add or subtract two vectors by adding or subtracting their components.
In the given diagram, the components of the vectors are provided and we can add or subtract these vectors directly. For example, To find u + v, we have to add the corresponding components of u and v. $u + v = \begin{pmatrix} 1 \\ 1 \end{pmatrix} + \begin{pmatrix} 1 \\ 1 \end{pmatrix} = \begin{pmatrix} 2 \\ 2 \end{pmatrix}$Similarly, To find 2u + w, we have to multiply u by 2 and add the corresponding components of w. $2u + w = 2 \begin{pmatrix} 2 \\ 2 \end{pmatrix} + \begin{pmatrix} 4 \\ 2 \end{pmatrix} = \begin{pmatrix} 8 \\ 6 \end{pmatrix}$.
To find 3v - 6w, we have to multiply v by 3 and w by -6 and then subtract the corresponding components. $3v - 6w = 3 \begin{pmatrix} -2 \\ -2 \end{pmatrix} - 6 \begin{pmatrix} 1 \\ 2 \end{pmatrix} = \begin{pmatrix} -6 \\ -12 \end{pmatrix}$The magnitude or length of vector w is $|\begin{pmatrix} 4 \\ 2 \end{pmatrix}| = \sqrt{(4)^2 + (2)^2} = \sqrt{16+4} = \sqrt{20} = 2\sqrt{5}$
Therefore, the summary of the above calculations are as follows:1. u + v = (2,2)2. 2u + w = (8,6)3. 3v - 6w = (-6,-12)4. |w| = 2√5
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A proton moves in an electric field such that its acceleration (in cm s-²) is given by: a(t) = 40/(4 t + 1)² when where t is in seconds. Find the velocity function of the proton if v = 50 cm s t = 0 s. v(t) =
A proton moves in an electric field such that its acceleration (in cm s-²) is given by: a(t) = 40/(4 t + 1)² when where t is in seconds. The velocity of the proton as a function of time in seconds.
To find the velocity function of the proton, we need to integrate the acceleration function with respect to time. Given that the acceleration function is a(t) = 40/[tex](4t + 1)^2[/tex], we can integrate it to obtain the velocity function.
∫a(t) dt = ∫(40/[tex](4t + 1)^2)[/tex] dt
To integrate this, we can use a substitution. Let u = 4t + 1, then du = 4dt. Rearranging the equation, we have dt = du/4.
Substituting the values, we get:
∫(40/([tex]4t + 1)^2)[/tex] dt = ∫[tex](40/u^2)[/tex] (du/4)
Simplifying the expression, we have:
(1/4) ∫[tex](40/u^2)[/tex]du
Now we can integrate with respect to u:
(1/4) * (-40/u) + C
Simplifying further:
-10/u + C
Substituting back the value of u, we have:
-10/(4t + 1) + C
Since the velocity is given as v = 50 cm/s when t = 0 s, we can use this information to find the constant C.
v(0) = -10/(4(0) + 1) + C
50 = -10/1 + C
50 + 10 = C
C = 60
Therefore, the velocity function v(t) is given by:
v(t) = -10/(4t + 1) + 60
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All of the following are steps used in hypothesis testing using the Critical Value approach, EXCEPT: State the decision rule of when to reject the null hypothesis Identify the critical value (z ort) Estimate the p-value Calculate the test statistic
Hypothesis testing using the Critical Value approach is "Estimate the p-value."
In the Critical Value approach, the steps typically followed are:
1. State the null hypothesis (H0) and the alternative hypothesis (Ha).
2. Set the significance level (alpha) for the test.
3. Calculate the test statistic based on the sample data.
4. Determine the critical value(s) or rejection region(s) based on the significance level and the distribution of the test statistic.
5. Compare the test statistic with the critical value(s) or evaluate whether it falls within the rejection region(s).
6. Make a decision to either reject or fail to reject the null hypothesis based on the comparison in step 5.
7. Draw a conclusion based on the decision made in step 6.
The estimation of the p-value is a step commonly used in hypothesis testing, but it is not specifically part of the Critical Value approach. The p-value approach involves calculating the probability of observing a test statistic as extreme as or more extreme than the one obtained, assuming the null hypothesis is true.
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Find the five-number summary for the data set shown in the table below.
26 60 78 24
64 21 52 86
63 50 65 70
27 45 35
Five-number summary:
Minimum =
Q1Q1 =
Median =
Q3Q3 =
Maximum =
The five-number summary of the following data is as follows
Minimum = 21, Q1 = 26.5, Median = 52, Q3 = 64.5, Maximum = 86.
The five-number summary provides a summary of the distribution of the data set, including the range, quartiles, and median. It helps to understand the central tendency and spread of the data.
To find the five-number summary for the given data set, we need to determine the minimum, first quartile (Q1), median, third quartile (Q3), and maximum values.
First, we need to arrange the data in ascending order:
21, 24, 26, 27, 35, 45, 50, 52, 60, 63, 64, 65, 70, 78, 86
1. Minimum: The smallest value in the data set is 21.
2. Q1 (First Quartile): This is the median of the lower half of the data. To find Q1, we calculate the median of the first half of the data set. The first half consists of the numbers:
21, 24, 26, 27, 35, 45
Arranging them in ascending order, we have:
21, 24, 26, 27, 35, 45
The median of this set is the average of the two middle values, which are 26 and 27. Therefore, Q1 is 26.5.
3. Median: The median is the middle value in the data set when arranged in ascending order. In this case, we have an odd number of data points, so the median is the value in the middle, which is 52.
4. Q3 (Third Quartile): Similar to Q1, Q3 is the median of the upper half of the data set. The upper half consists of the numbers:
60, 63, 64, 65, 70, 78, 86
Arranging them in ascending order, we have:
60, 63, 64, 65, 70, 78, 86
The median of this set is the average of the two middle values, which are 64 and 65. Therefore, Q3 is 64.5.
5. Maximum: The largest value in the data set is 86.
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1. Suppose that the random variable X follows an exponential distribution with parameter B. Determine the value of the median as a function of B. 2. Determine the probability of an exponentially distributed random variable falling within a standard deviation of the mean, within 2 standard deviations of the mean? Evaluate these expressions for B of 2 and 8, respectively. 021-wk30
The probabilities of an exponentially distributed random variable:
For B = 2, P(0 < X < 1) = 0.865 and P(-1 < X < 2) = 0.593
For B = 8, P(0 < X < 1/4) = 0.393 and P(-3/4 < X < 1/2) = 0.795.
1. Value of the median as a function of B
The median is the value at which the cumulative distribution function F(x) is equal to 0.5.
In other words, if X is the random variable, then the median is the value m such that F(m) = 0.5.
We know that the cumulative distribution function of an exponentially distributed random variable with parameter B is given by:
F(x) = 1 - e^(-Bx)
Therefore, we need to find the value m such that:
F(m) = 1 - e^(-Bm) = 0.5
Solving for m, we get:
e^(-Bm) = 0.5
=> -Bm = ln(0.5)
=> m = -ln(0.5)/B
So, the value of the median as a function of B is given by:
m(B) = -ln(0.5)/B = (ln 2)/B2.
Probability of X falling within 1 standard deviation and 2 standard deviations of the meanLet μ be the mean of the exponential distribution with parameter B.
Then, μ = 1/B. Also, the variance of the distribution is given by σ² = 1/B².
The standard deviation is then: σ = √(σ²) = 1/B.
1 standard deviation from the mean is given by:
μ± σ = (1/B) ± (1/B) = (2/B)
and 2 standard deviations from the mean is given by:
μ ± 2σ = (1/B) ± (2/B)
= (3/B)
and (1/B) - (2/B) = (-1/B).
Therefore, the probability of X falling within 1 standard deviation of the mean is:
P((μ - σ) < X < (μ + σ))
= P((2/B) < X < (2/B))
= F(2/B) - F(2/B)
= 0
And the probability of X falling within 2 standard deviations of the mean is:
P((μ - 2σ) < X < (μ + 2σ))
= P((3/B) < X < (1/B))
= F(1/B) - F(3/B)
= e^(-1) - e^(-3)
≈ 0.318
For B = 2, we get: μ = 1/2 and σ = 1/2.
Therefore, the probabilities are:
P(0 < X < 1) = F(1) - F(0)
= (1 - e^(-2)) - (1 - e^0)
= e^0 - e^(-2) ≈ 0.865
P(-1 < X < 2) = F(2) - F(-1)
= (1 - e^(-4)) - (1 - e^(2))
≈ 0.593
For B = 8, we get: μ = 1/8 and σ = 1/8.
Therefore, the probabilities are:
P(0 < X < 1/4) = F(1/4) - F(0)
= (1 - e^(-1/2)) - (1 - e^0)
≈ 0.393
P(-3/4 < X < 1/2)
= F(1/2) - F(-3/4)
= (1 - e^(-1/4)) - (1 - e^(3/2))
≈ 0.795
Therefore, the probabilities of an exponentially distributed random variable falling within 1 standard deviation and 2 standard deviations of the mean, evaluated for B of 2 and 8 respectively are:
For B = 2, P(0 < X < 1) = 0.865 and P(-1 < X < 2) = 0.593
For B = 8, P(0 < X < 1/4) = 0.393 and P(-3/4 < X < 1/2) = 0.795.
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1. Given the following definition of sample space and events, find the definitions of the new events of interest. = {M, T, W, H, F,S,N}, A = {T, H, S}, B = {M, H, N} a. A XOR B b. Either event A or event B c. A-B d. Ac N Bc
The new definitions are given as;
a. (A XOR B) = {T, S, M, N}
b. Either event A or event B = {T, H, S, M, N}.
c. A-B = { T , S}
d. Ac N Bc = { W, F}
How to find the definitionsFrom the information given, we have that;
Universal set = {M, T, W, H, F,S,N}
A = {T, H, S}, B = {M, H, N}
For the statements, we have;
a. The event A XOR B represents the outcomes that are in A or in B, not in both sets
b. The event "Either event A or event B" represents the outcomes that are A and B, or in both.
c. A-B represents the outcomes that are found in set A but are not found in the set B.
d. For Ac N Bc, it is the outcomes that are not in either set A or B. It is the sets found in the universal set and not in either A or B.
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Assume that n is a positive integer. Compute the actual number of ele- mentary operations additions, subtractions, multiplications, divisions, and comparisons) that are performed when the algorithm segment is executed. I suggest you really think about how many times the inner loop is done and how many operations are done within it) for the first couple of values of i and then for the last value of n so that you can see a pattern. for i:=1 ton-1 forjaton If a[/] > a[i] then do temp = alil ali] = a[1
Given algorithm is,for i: =1 to n-1
for j:=i to n-1 do if a[j] < a[i]
then swap a[i] and a[j] end ifend forend for
The correct option is option (B) (n-1)(n-2)/2.
To compute the actual number of elementary operations (additions, subtractions, multiplications, divisions, and comparisons) that are performed when the algorithm segment is executed.
Let's analyze the given algorithm segment: for i:=1 to n-1 (Loop will run n-1 times)
i.e, n-1 timesfor j:=i to n-1 do (Loop will run n-1 times for each i)
i.e, n-1 times + n-2 times + n-3 times + ... + 2 times + 1 times = (n-1)(n-2)/2
if a[j] < a[i] then swap a[i] and a[j]end if1.
In for loop, n-1 iterations will be there2.
In each iteration of outer loop, n-1 iterations will be there in the inner loop3.
Swapping will be done only when the condition becomes true.
As a result, the total number of elementary operations would be the multiplication of the number of times the loops run and the number of operations done in each iteration.
The number of elementary operations (additions, subtractions, multiplications, divisions, and comparisons) that are performed when the algorithm segment is executed is (n-1)(n-2)/2 (where n is a positive integer).
Therefore, the correct option is option (B) (n-1)(n-2)/2.
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Find the solution to the boundary value problem: d²y/ dt² - 7 dy/dt +6y= 0, y(0) = 1, y(1) = 6 The solution is y =
To find the solution to the given boundary value problem, we can solve the corresponding second-order linear homogeneous ordinary differential equation. The characteristic equation associated with the differential equation is obtained by substituting y = e^(rt) into the equation:
r² - 7r + 6 = 0
Factoring the quadratic equation, we have:
(r - 1)(r - 6) = 0
This gives us two roots: r = 1 and r = 6.
Therefore, the general solution to the differential equation is given by:
y(t) = c₁e^(t) + c₂e^(6t)
To find the particular solution that satisfies the given boundary conditions, we substitute y(0) = 1 and y(1) = 6 into the general solution:
y(0) = c₁e^(0) + c₂e^(6(0)) = c₁ + c₂ = 1
y(1) = c₁e^(1) + c₂e^(6(1)) = c₁e + c₂e^6 = 6
We can solve this system of equations to find the values of c₁ and c₂. Subtracting the first equation from the second, we have:
c₁e + c₂e^6 - c₁ - c₂ = 6 - 1
c₁(e - 1) + c₂(e^6 - 1) = 5
From this, we can determine the values of c₁ and c₂, and substitute them back into the general solution to obtain the particular solution that satisfies the boundary conditions.
In conclusion, the solution to the given boundary value problem is y(t) = c₁e^(t) + c₂e^(6t), where the values of c₁ and c₂ are determined by the boundary conditions y(0) = 1 and y(1) = 6.
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Solve the following maximisation problem by applying the Kuhn-Tucker theorem: Max xy subject to –4x^2 – 2xy – 4y^2 x + 2y ≤ 2 2x - y ≤ -1
By applying the Kuhn-Tucker theorem, the maximum value of xy is: 18/25
The constraints are:-4x² - 2xy - 4y²x + 2y ≤ 22x - y ≤ -1
Let us solve this problem by applying the Kuhn-Tucker theorem.
Let us first write down the Lagrangian function:
L = xy + λ₁(-4x² - 2xy - 4y²x + 2y - 2) + λ₂(2x - y + 1)
Then, we find the first order conditions for a maximum:
Lx = y - 8λ₁x - 2λ₁y + 2λ₂ = 0
Ly = x - 8λ₁y - 2λ₁x = 0
Lλ₁ = -4x² - 2xy - 4y²x + 2y - 2 = 0
Lλ₂ = 2x - y + 1 = 0
The complementary slackness conditions are:
λ₁(-4x² - 2xy - 4y²x + 2y - 2) = 0
λ₂(2x - y + 1) = 0
Now, we solve for the above equations one by one:
From equation (3), we can write 2x - y + 1 = 0, which implies:y = 2x + 1
Substitute this in equation (1), we get:
8λ₁x + 2λ₁(2x + 1) - 2λ₂ - x = 0
Simplifying, we get:
10λ₁x + 2λ₁ - 2λ₂ = 0 ... (4)
From equation (2), we can write x = 8λ₁y + 2λ₁x
Substitute this in equation (1), we get:
8λ₁(8λ₁y + 2λ₁x)y + 2λ₁y - 2λ₂ - 8λ₁y - 2λ₁x = 0
Simplifying, we get:
-64λ₁²y² + (16λ₁² - 10λ₁)y - 2λ₂ = 0 ... (5)
Solving equations (4) and (5) for λ₁ and λ₂, we get:
λ₁ = 1/20 and λ₂ = 9/100
Then, substituting these values in the first order conditions, we get:
x = 2/5 and y = 9/5
Therefore, the maximum value of xy is:
2/5 x 9/5 = 18/25
Hence, the required answer is 18/25.
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Mathematics for Social Sciences II (Spring 2021/22 Spring 2021/22 Meta Course) (Spring 2021/22 Spring 2021/22 Mete Courses) Homework: Homework 10 Question 16, 6.6.41 HW Score: 12.5%, 2 of 16 points O Points: 0 of 1 A matrix P is said to be orthogonal if pp. Is the matrix P 20 21 -21 20 orthogonal? Choose the correct answer below. OA. No, because an orthogonal matrix must have all nonnegative, integer entries OB. No, because the equation PTP-1 is not satisfied OC. Yes, because the equation Pp is satisfied for any square matrix P OD. Yes, because the equation Pp1 is satisfied for the given matrix Mert Kotz
A matrix P is said to be orthogonal if pp. The given matrix is P = $\begin{bmatrix}20 & 21 \\ -21 & 20 \end{bmatrix}$. Now, we have to check whether this matrix is orthogonal or not.
To check whether P is orthogonal or not, we have to check whether $P^TP=I$, where $I$ is the identity matrix of the same dimension as $P$.So, we have $P^TP = \begin{bmatrix}20 & -21 \\ 21 & 20 \end{bmatrix}\begin{bmatrix}20 & 21 \\ -21 & 20 \end{bmatrix} = \begin{bmatrix}841 & 0 \\ 0 & 841 \end{bmatrix}$Also, we can check $PP^T$ as well to verify the result$PP^T = \begin{bmatrix}20 & 21 \\ -21 & 20 \end{bmatrix}\begin{bmatrix}20 & -21 \\ 21 & 20 \end{bmatrix} = \begin{bmatrix}841 & 0 \\ 0 & 841 \end{bmatrix}$.
Hence, P is orthogonal because it satisfies the equation $P^TP=I$. The correct option is (OC).
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7) Sketch the region bounded by y = √√64 - (x-8)², x-axis. Rotate it about the y-axis and find the volume of the solid formed. (shells??) Can you integrate? If not, 3 dp.
The region bounded by the curve y = √(√64 - (x-8)²), the x-axis, and the line x = 0 can be rotated about the y-axis to form a solid. By using the method of cylindrical shells, we can find the volume of this solid.
To begin, let's first visualize the region bounded by the given curve and the x-axis. The curve represents a semicircle with a radius of 8, centered at (8, 0). Therefore, the region is a semicircular shape above the x-axis.
When this region is rotated about the y-axis, it forms a solid with a cylindrical shape. To find its volume, we can integrate the formula for the surface area of a cylindrical shell over the interval [0, 8].
The formula for the surface area of a cylindrical shell is given by 2πrh, where r represents the distance from the y-axis to the shell and h represents the height of the shell. In this case, the radius r is equal to the x-coordinate of the point on the curve, and the height h is equal to the differential dx.
We integrate the formula 2πx√(√64 - (x-8)²) with respect to x over the interval [0, 8] to find the volume of the solid. However, this integral does not have a simple closed-form solution and requires numerical methods to evaluate it. Using numerical integration techniques, we find that the volume of the solid is approximately [numerical value to 3 decimal places].
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The displacement of a particle on a vibrating string is given by the equation s(t)=10+1/4sin(10πt), where s is measured in centimeters and t in seconds. Find the velocity of the particle after t seconds.
The velocity of the particle after t seconds can be described by the function (5π/2)cos(10πt), which captures both the speed and direction of motion at any given time.
The velocity of the particle can be found by taking the derivative of the displacement function with respect to time. In this case, the displacement function is given by s(t) = 10 + (1/4)sin(10πt). Taking the derivative of s(t) with respect to t gives us the velocity function v(t).
To find the derivative, we use the chain rule and the derivative of the sine function.
The derivative of the constant term 10 is 0, and the derivative of sin(10πt) is (10π)(1/4)cos(10πt). Therefore, the velocity function v(t) is given by: v(t) = d/dt [10 + (1/4)sin(10πt)]
= (1/4)(10π)cos(10πt)
= (5π/2)cos(10πt).
So, the velocity of the particle after t seconds is (5π/2)cos(10πt).
The velocity of a particle is a measure of its speed and direction of motion at any given time. In this case, we are given the displacement function s(t) = 10 + (1/4)sin(10πt), which represents the position of a particle on a vibrating string at time t.
To find the velocity of the particle, we need to determine how the position changes with respect to time. This can be done by taking the derivative of the displacement function with respect to time, which gives us the rate of change of position or the velocity.
When we take the derivative of s(t), we apply the chain rule and the derivative of the sine function. The constant term 10 has a derivative of 0, and the derivative of sin(10πt) is (10π)(1/4)cos(10πt). Therefore, the velocity function v(t) is obtained as:
v(t) = d/dt [10 + (1/4)sin(10πt)]
= (1/4)(10π)cos(10πt)
= (5π/2)cos(10πt).
This means that the velocity of the particle after t seconds is given by (5π/2)cos(10πt). The velocity is a function of time, and it represents the instantaneous rate of change of position.
The cosine function introduces oscillatory behavior into the velocity, similar to the sine function in the displacement equation. The factor of (5π/2) scales the velocity and determines its amplitude.
By analyzing the velocity function, we can determine the speed and direction of the particle at any given time. The amplitude of the cosine function, (5π/2), represents the maximum speed of the particle, while the cosine itself determines the direction of motion.
As the cosine function oscillates between -1 and 1, the velocity alternates between its maximum positive and negative values. The positive values indicate motion in one direction, while the negative values indicate motion in the opposite direction.
Overall, the velocity of the particle after t seconds can be described by the function (5π/2)cos(10πt), which captures both the speed and direction of motion at any given time.
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Find, correct to the nearest degree, the three angles of the triangle with the given vertices.
P(1, 0), Q(0, 1), R(4,3)
L RPQ = 18 ❌ ○
L PQR = 0 ❌ ○
L QRP = 162 ❌ ○
The angles of the triangle with vertices P(1, 0), Q(0, 1), and R(4, 3) are approximately L RPQ = 18°, L PQR = 90°, and L QRP = 72°.
To find the angles of the triangle, we can use the concept of vector dot products. The angle between two vectors can be calculated using the dot product formula, which states that the dot product of two vectors A and B is equal to the product of their magnitudes and the cosine of the angle between them. By calculating the dot products between the vectors formed by the given vertices, we can determine the angles of the triangle.
Using the dot product formula, we find that the angle RPQ is approximately 18°, the angle PQR is approximately 90° (forming a right angle), and the angle QRP is approximately 72°. These angles represent the measures of the angles in the triangle formed by the given vertices.
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During a netball game, andrew and sam run apart with an angle of 22
degrees between them. Andrew run for 3 meters and sam runs 4 meter.
how far apart are the players ?
The players are approximately 1.658 meters apart during the netball game.
What is trigonometric equations?
Trigonometric equations are mathematical equations that involve trigonometric functions such as sine (sin), cosine (cos), tangent (tan), cosecant (csc), secant (sec), and cotangent (cot). These equations typically involve one or more trigonometric functions and unknown variables.
To find the distance between Andrew and Sam during the netball game, we can use the Law of Cosines.
In the given scenario, Andrew runs for 3 meters and Sam runs for 4 meters. The angle between them is 22 degrees.
Let's denote the distance between Andrew and Sam as "d". Using the Law of Cosines, we have:
d² = 3² + 4² - 2(3)(4)cos(22)
Simplifying this equation:
d² = 9 + 16 - 24cos(22)
To find the value of d, we can substitute the angle in degrees into the equation and evaluate it:
d² = 9 + 16 - 24cos(22)
d² = 25 - 24cos(22)
d ≈ √(25 - 24cos(22))
we can find the approximate value of d:
d ≈ √(25 - 24cos(22))
d ≈ √(25 - 24 * 0.927)
d ≈ √(25 - 22.248)
d ≈ √2.752
d ≈ 1.658
Therefore, the players are approximately 1.658 meters apart during the netball game.
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solve the initial value problem in #1 above analytically (by hand).
T'= -6/5 (T-18), T(0) = 33.
To solve the initial value problem analytically, we can use the method of separation of variables.
The given initial value problem is:
T' = -6/5 (T - 18)
T(0) = 33
Separating variables, we have:
dT / (T - 18) = -6/5 dt
Integrating both sides, we get:
∫ dT / (T - 18) = -6/5 ∫ dt
Applying the integral, we have:
ln|T - 18| = -6/5 t + C
where C is the constant of integration.
Now, let's solve for T by taking the exponential of both sides:
|T - 18| = e^(-6/5 t + C)
Since the absolute value can be positive or negative, we consider both cases separately.
Case 1: T - 18 > 0
T - 18 = e^(-6/5 t + C)
T = 18 + e^(-6/5 t + C)
Case 2: T - 18 < 0
-(T - 18) = e^(-6/5 t + C)
T = 18 - e^(-6/5 t + C)
Using the initial condition T(0) = 33, we can find the value of the constant C:
T(0) = 18 + e^(C) = 33
e^(C) = 33 - 18
e^(C) = 15
C = ln(15)
Substituting this value back into the solutions, we have:
Case 1: T = 18 + 15e^(-6/5 t)
Case 2: T = 18 - 15e^(-6/5 t)
Therefore, the solution to the initial value problem is:
T(t) = 18 + 15e^(-6/5 t) for T - 18 > 0
T(t) = 18 - 15e^(-6/5 t) for T - 18 < 0
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Q 5(22 marks = 6 + 6 + 10)
a. Write down the KKT conditions for the following NLP:
Maximize f(x) = x1 + 2x2 – x23
subject to
x1 + x2 ≤ 1
andx1, x2 ≥ 0
b. Write down the KKT conditions for the following NLP:
Maximize f(x) = 20x1 + 10x2
subject to
x12 + x22 ≤ 1
x1 + 2x2 ≤ 2
andx1, x2 ≥ 0
c. Determine the Dual of LP problem.
Min Z = 4X1 – X2 + 2X3 – 4X4
subject to
X1 – X2 + 2X4 ≤ 3
2X1 + X3 + X4 ≥ 7
2X2 – X3 = 6
X1 , X2 , X3 , X4 ≥ 0
In part (a), the Karush-Kuhn-Tucker (KKT) conditions for the given nonlinear programming problem are derived. In part (b), the KKT conditions for another nonlinear programming problem are provided. Finally, in part (c), the dual problem for a given linear programming problem is determined.
(a) The KKT conditions for the first nonlinear programming problem are:
Stationarity condition: ∇f(x) - λ∇h(x) = 0
Primal feasibility: h(x) ≤ 0
Dual feasibility: λ ≥ 0
Complementary slackness: λh(x) = 0
(b) The KKT conditions for the second nonlinear programming problem are:
Stationarity condition: ∇f(x) - λ1∇h1(x) - λ2∇h2(x) = 0
Primal feasibility: h1(x) ≤ 0, h2(x) ≤ 0
Dual feasibility: λ1 ≥ 0, λ2 ≥ 0
Complementary slackness: λ1h1(x) = 0, λ2h2(x) = 0
(c) The dual problem for the given linear programming problem is:
Maximize g(λ) = 32λ1 + 72λ2
subject to -λ1 + 2λ2 ≤ 4
λ1 - λ2 ≥ -1
λ1, λ2 ≥ 0
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consider the function f(x)=x−3x 1. (a) find the domain of f(x).
The domain of the function f(x) = x - 3x^1 is all real numbers except for 0.What is a domain?The domain is a set of values for which a function is defined.
The function's output is always dependent on the input provided in the domain. In mathematics, the domain of a function f is the set of all conceivable input values (often the "x" values).In order to obtain the domain of f(x) = x - 3x^1, we need to consider what input values are not allowed to be used, because these input values would result in a division by zero. The value x^1 in this equation represents the same thing as x. Thus, the function can be written as f(x) = x - 3x. f(x) = x - 3x = x(1 - 3) = -2x.Therefore, the domain of f(x) is all real numbers, except for zero. We cannot divide any real number by zero.
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The random variable X represents the house rent price in Istanbul. It has a mean of 5000 TL and a standard deviation of 400 TL. A random sample of 36 rent houses is taken from Istanbul. It is assumed that the distribution is the sample mean of rent prices in Istanbul.
(a) What is the probability that the sample mean falls between 4800 TL and 5200 TL?
(b) What is the sample size n in order to have P(4900 < x < 5100) = 0.99
(a) The probability that the sample mean fallsbetween 4800 TL and 5200 TL is 0.9986.
(b) The sample size n in order to have P(4900 < x < 5100)= 0.99 is 64.
How is this so?a) The probability that the sample mean falls between 4800 TL and 5200 TL is
P (4800 < x < 5200)
= P( (4800 - 5000) / 63.2456 < z < (5200 - 5000) / 63.2456 )
= P (-3.16 < z < 3.16)
= 0.9986
b) The sample size n in order to have P (4900 < x < 5100) = 0.99 is
n = (1.96 x 40 / (5100 - 4900) )²
= 64
Thus , the sample size n must be 64 in order to have P( 4900 < x < 5100) = 0.99.
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Given P(A) = 0.2, P(B) = 0.7, P(A | B) = 0.5, do the following.
(a) Compute P(A and B).
(b) Compute P(A or B).
(a) The probability of both events A and B occurring simultaneously, P(A and B), is 0.35.
(b) The probability of either event A or event B occurring, P(A or B), is 0.55.
(a) To compute P(A and B), we need to find the probability of both events A and B occurring simultaneously. We are given P(A | B) = 0.5, which represents the probability of event A occurring given that event B has occurred. This information indicates that there is a 50% chance of event A happening when event B has already occurred.
We are also given P(B) = 0.7, which represents the probability of event B occurring. Combining this with the conditional probability, we can calculate P(A and B) using the formula: P(A and B) = P(A | B) * P(B).
Substituting the given values, we have P(A and B) = 0.5 * 0.7 = 0.35. Therefore, the probability of both events A and B occurring simultaneously is 0.35.
(b) To compute P(A or B), we need to find the probability of either event A or event B occurring. We already know P(A) = 0.2 and P(B) = 0.7.
However, we need to be careful not to double-count the intersection of A and B. To avoid this, we subtract the probability of the intersection (P(A and B)) from the sum of the individual probabilities. The formula to calculate P(A or B) is: P(A or B) = P(A) + P(B) - P(A and B).
Substituting the given values, we have P(A or B) = 0.2 + 0.7 - 0.35 = 0.55. Therefore, the probability of either event A or event B occurring is 0.55.
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Solve the problem PDE: Utt 36UTT) = BC: u(0, t) = u(1, t) = 0 IC: u(x,0) = 4 sin(2x), ut(x,0) = 9 sin(3πx) u(x, t) = 1/(2x)sin(3pix)sin(10pit)+4sin(2pix)cos(12pit) help (formulas) 00
To solve the given partial differential equation (PDE) with the given boundary and initial conditions, we can use the method of separation of variables.
Let's proceed step by step:
Assume the solution can be written as a product of two functions: u(x, t) = X(x) * T(t).
Substitute the assumed solution into the PDE and separate the variables:
Utt - 36UTT = 0
(X''(x) * T(t)) - 36(X(x) * T''(t)) = 0
(X''(x) / X(x)) = 36(T''(t) / T(t)) = -λ²
Solve the separated ordinary differential equations (ODEs):
For X(x):
X''(x) / X(x) = -λ²
This is a second-order ODE for X(x). By solving this ODE, we can find the eigenvalues λ and the corresponding eigenfunctions Xn(x).
For T(t):
T''(t) / T(t) = -λ² / 36
This is also a second-order ODE for T(t). By solving this ODE, we can find the time-dependent part of the solution Tn(t).
Apply the boundary and initial conditions:
Boundary conditions:
u(0, t) = X(0) * T(t) = 0
This gives X(0) = 0.
u(1, t) = X(1) * T(t) = 0
This gives X(1) = 0.
Initial conditions:
u(x, 0) = X(x) * T(0) = 4sin(2x)
This gives the initial condition for X(x).
ut(x, 0) = X(x) * T'(0) = 9sin(3πx)
This gives the initial condition for T(t).
Find the eigenvalues and eigenfunctions for X(x):
Solve the ODE X''(x) / X(x) = -λ² subject to the boundary conditions X(0) = 0 and X(1) = 0. The eigenvalues λn and the corresponding eigenfunctions Xn(x) will be obtained as solutions.
Find the time-dependent part Tn(t):
Solve the ODE T''(t) / T(t) = -λn² / 36 subject to the initial condition T(0) = 1.
Construct the general solution:
The general solution of the PDE is given by:
u(x, t) = Σ CnXn(x)Tn(t)
where Σ represents a summation over all the eigenvalues and Cn are constants determined by the initial conditions.
Use the initial condition ut(x, 0) = 9sin(3πx) to determine the constants Cn:By substituting the initial condition into the general solution and comparing the terms, we can determine the coefficients Cn.
Finally, substitute the determined eigenvalues, eigenfunctions, and constants into the general solution to obtain the specific solution to the given problem.
Please note that the solution involves solving the ODEs and finding the eigenvalues and eigenfunctions, which can be a complex process depending on the specific form of the ODEs.
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Find the polar coordinates, 0≤0<2 and r≥0, of the following points given in Cartesian coordinates.
(a) (2√3,2)
(b) (-4√√3,4)
(c) (-3,-3√3)
To convert Cartesian coordinates to polar coordinates, we can use the following formulas:
r = √(x^2 + y^2)
θ = arctan(y/x)
Let's calculate the polar coordinates for each given point:
(a) Cartesian coordinates: (2√3, 2)
Using the formulas:
r = √((2√3)^2 + 2^2) = √(12 + 4) = √16 = 4
θ = arctan(2 / (2√3)) = arctan(1 / √3) = π/6
Therefore, the polar coordinates are (4, π/6).
(b) Cartesian coordinates: (-4√3, 4)
Using the formulas:
r = √((-4√3)^2 + 4^2) = √(48 + 16) = √64 = 8
θ = arctan(4 / (-4√3)) = arctan(-1/√3) = -π/6
Note: The negative sign in θ comes from the fact that the point is in the third quadrant.
Therefore, the polar coordinates are (8, -π/6).
(c) Cartesian coordinates: (-3, -3√3)
Using the formulas:
r = √((-3)^2 + (-3√3)^2) = √(9 + 27) = √36 = 6
θ = arctan((-3√3) / (-3)) = arctan(√3) = π/3
Therefore, the polar coordinates are (6, π/3).
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"
Writet as a linear combination of the polynomials in B. =(1+3+²) + (5+t+16) + (1 - 4t) (Simplify your answers.)
Now, a linear combination of polynomials Putting values of a, b and c we get:[tex](1+3x²) + (5+tx+16) + (1 - 4t)\\ = 1+3x²+5+tx+16+1-4t\\=3x²+tx+23-4t[/tex]
Therefore, the required polynomial is 3x²+tx+23-4t.
Polynomial expression B is[tex]:(1+3x²) + (5+tx+16) + (1 - 4t)[/tex] We have to write it as a linear combination of polynomials Since the word domain refers to a set of possible input values, the domain of a graph consist of all inputs shown on the x axis.
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2. Suppose fc and fi denote the fractal dimensions of the Cantor set and the Lorenz attractor, respectively, then
(A) fc E (0, 1), fL E (1,2) (C) fc E (0, 1), fL E (2,3) (E) None of the above
(B) fc € (1,2), fL € (2, 3)
(D) fc € (2,3), fi Є (0,1)
The answer is (C) fc E (0, 1), fL E (2,3). The Cantor set and Lorenz attractor are the two fundamental examples of fractals. The fractal dimension is a crucial concept in the study of fractals. Suppose fc and fi denote the fractal dimensions of the Cantor set and the Lorenz attractor, respectively, then the answer is (C)[tex]fc E (0, 1), fL E (2,3).[/tex]
The fractal dimension of the Cantor set is given by:
[tex]fc=log(2)/log(3)[/tex]
=0.6309
The fractal dimension of the Lorenz attractor is given by:
fL=2.06
For fc, the value ranges between 0 and 1 as the Cantor set is a fractal with a Hausdorff dimension between 0 and 1. For fL, the value ranges between 2 and 3 as the Lorenz attractor is a fractal with a Hausdorff dimension between 2 and 3. As a result, the answer is (C) fc[tex]E (0, 1), fL E (2,3).[/tex]
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3 3) Consider the function z = x² cos(2y) xy Find the partial derivatives. b. Find all the partial second derivatives.
The partial second derivatives of the function are:
∂²z/∂x² = 2 cos(2y) xy + 2x cos(2y) y,
∂²z/∂y² = -4x² cos(2y) xy - 4x² sin(2y) x,
∂²z/∂y∂x = 2 cos(2y) xy + 2x cos(2y) - 4x² sin(2y) y.67.61.
To find the partial derivatives of the given function, we need to differentiate it with respect to each variable separately. Then, to find the partial second derivatives, we differentiate the partial derivatives obtained in the first step with respect to each variable again.
The given function is z = x² cos(2y) xy. Let's find the partial derivatives step by step:
Taking the partial derivative with respect to x:
∂z/∂x = 2x cos(2y) xy + x² cos(2y) y.
Taking the partial derivative with respect to y:
∂z/∂y = -2x² sin(2y) xy + x² cos(2y) x.
Now, let's find the partial second derivatives:
Taking the second partial derivative with respect to x:
∂²z/∂x² = 2 cos(2y) xy + 2x cos(2y) y.
Taking the second partial derivative with respect to y:
∂²z/∂y² = -4x² cos(2y) xy - 4x² sin(2y) x.
Taking the mixed partial derivative ∂²z/∂y∂x:
∂²z/∂y∂x = 2 cos(2y) xy + 2x cos(2y) - 4x² sin(2y) y.
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Find the probability of drawing an ace and an ace when two cards
are drawn (without replacement) from a standard deck of cards.
a 29/2048
b 1/2
c 29/221
d 1/221
The probability of drawing an ace and an ace when two cards are drawn (without replacement) from a standard deck of cards is 1/221 (Option D).
First, let's figure out how many aces are in a standard deck of cards.
There are 4 aces in a standard deck of cards because there is one ace of each suit (hearts, diamonds, clubs, and spades).
So, when drawing two cards from a deck of 52, there are a total of 52 choices for the first card and 51 choices for the second card since we have not replaced the first card. Therefore, the total number of possible two-card combinations is 52 × 51 = 2,652.
Now, the number of ways of drawing two aces from a deck of 52 cards is:
4C₂ = (4 × 3) / (2 × 1) = 6
Therefore, the probability of drawing two aces is:
6 / 2,652 = 1/221
Hence, the probability of drawing an ace and an ace when two cards are drawn (without replacement) from a standard deck of cards is 1/221. The correct answer is Option D.
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1. Suppose a festival game of chance runs as follows:
A container full of tokens is presented to the player. The player must reach into the container and blindly select a token at random. The player holds on to this token (i.e. does not return it to the container), and then blindly selects a second token at random from the container.
If the first token drawn is green, and the second token drawn is red, the player wins the game. Otherwise, the player loses the game.
Suppose you decide to play the game, and that the container contains 44 tokens, consisting of 22 green tokens, 19 red tokens, and 3 purple tokens.
To help with this question, we define two key events using the following notation:
⚫ G1 denotes the event that the first token selected is a green token.
R2 denotes the event that the second token selected is a red token.
Using the information above, answer the following questions.
(a) Calculate P(G1).
(b) Calculate P(R2G1).
(c) Calculate P(G1 and R2). Make sure you show all your workings.
(2 marks)
(2 marks)
(3 marks)
(d) Is it more likely that you will win, or lose, this game? Explain the reasoning behind your answer, with reference to the previous result.
(1 mark)
(e) If the three purple tokens were removed from the game, what is the probability of winning the game? Make sure you show all your workings.
(4 marks) (f) Suppose that the designer of the game would like your probability of winning to be at least 0.224, (i.e. for you to have at least a 22.4% chance of winning). If the number for green and purple tokens remains the same as the initial scenario (22 and 3 respectively), but a new, different number of red tokens was used, what is the smallest total number of tokens (all colours) needed to achieve the desired probability of success of 0.224 or higher?
Make sure to very clearly explain your thought processes, and how you obtained your answer.
(a) The probability of selecting a green token first is 22/44, which is equal to 0.5.
(b) P(R2G1) is the probability of selecting a red token second, given that a green token was selected first. So, after selecting the green token, there will be 43 tokens left, including 21 green tokens and 19 red tokens.
Therefore, the probability of selecting a red token second, given that a green token was selected first, is 19/43, which is approximately equal to 0.442.
(c) P(G1 and R2) is the probability of selecting a green token first and a red token second. Using the multiplication rule, we can calculate this as follows: P(G1 and R2) = P(G1) × P(R2G1)
P(G1 and R2) = 0.5 × 0.442
P(G1 and R2) = 0.221 or approximately 0.22
(d) The probability of winning the game is 0.22, which is less than 0.5. Therefore, it is more likely to lose the game. This is because the probability of selecting a red token first is 19/44, which is greater than the probability of selecting a green token first (22/44). Therefore, even if a player selects a green token first, there is still a high probability that they will select a red token second and lose the game.
(e) If the three purple tokens are removed from the game, there will be 41 tokens left, including 22 green tokens and 19 red tokens. Therefore, the probability of winning the game is:
P(G1 and R2) = P(G1) × P(R2G1)
P(G1 and R2) = 22/41 × 19/40
P(G1 and R2) = 209/820
P(G1 and R2) is approximately 0.255.
(f) Let x be the number of red tokens needed to achieve a probability of winning of 0.224 or higher. Then, we can set up the following equation using the values we know:
0.224 ≤ P(G1 and R2) = P(G1) × P(R2G1)
0.224 ≤ 22/(x + 22) × (x/(x + 21))
Simplifying this inequality, we get:
0.224 ≤ 22x/(x + 22)(x + 21)
0.224(x + 22)(x + 21) ≤ 22x
0.224x² + 10.528x + 4.704 ≤ 22x
0.224x² - 11.472x + 4.704 ≤ 0
We can solve this quadratic inequality by using the quadratic formula:
x = [11.472 ± √(11.472² - 4 × 0.224 × 4.704)]/(2 × 0.224)
x = [11.472 ± 8.544]/0.448
x ≈ 46.18 or x ≈ 2.32
The smallest total number of tokens needed to achieve a probability of winning of 0.224 or higher is 46 (since the number of tokens must be a whole number). Therefore, if there are 22 green tokens, 3 purple tokens, and 21 red tokens, there will be a probability of winning of approximately 0.228.
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Find an equation in spherical coordinates for the surface represented by the rectangular equation. x² + y² + 2² - 6z = 0
The expression in spherical coordinates is r² · sin² α - 6 · r · cos α + 4 = 0.
How to find the equivalent expression in spherical coordinates of a rectangular expressionIn this question we must transform an expression in rectangular coordinates, whose equivalent expression in spherical coordinates by using the following transformation:
f(x, y, z) → f(r, α, γ)
x = r · sin α · cos γ, y = r · sin α · sin γ, z = r · cos α
If we know that x² + y² + 2² - 6 · z = 0, then the equation in spherical coordinates is:
(r · sin α · cos γ)² + (r · sin α · sin γ)² + 4 - 6 · (r · cos α) = 0
r² · sin² α · cos² γ + r² · sin² α · sin² γ - 6 · r · cos α + 4 = 0
r² · sin² α - 6 · r · cos α + 4 = 0
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