The area of the bounded plane region lying between the curves 3z = r² - 2r + 1 and y = 5x² is not specified.
To calculate the area of the bounded plane region between the given curves, we need to find the points of intersection between the curves and set up the integral for the area.
The first curve is given by 3z = r² - 2r + 1. This is an equation involving both z and r. The second curve is y = 5x², which is a quadratic function of x.
To find the points of intersection, we need to equate the two curves and solve for the variables. In this case, we need to solve the system of equations 3z = r² - 2r + 1 and y = 5x² simultaneously.
Once we find the points of intersection, we can determine the limits of integration for calculating the area.
To calculate the area, we set up the integral ∫∫R dy dx, where R represents the region bounded by the curves.
However, without the specific values of the points of intersection, we cannot determine the limits of integration and proceed with the calculation.
In summary, the area of the bounded plane region lying between the curves 3z = r² - 2r + 1 and y = 5x² cannot be determined without the specific values of the points of intersection. To calculate the area, it is necessary to find the points of intersection and set up the integral accordingly.
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6. Arrange the following numbers in decreasing order.
(a) 470,153; 407,153; 470,351; 407,531
(b) 419,527; 814,257; 419,257; 814,527
(c) 3,926,000; 3,269,000; 3,962,000; 3,296,000
The given numbers can be arranged in decreasing order, from largest to smallest, as follows a) 407,531; 470,351; 470,153; 407,153 b) 814,527; 814,257; 419,527; 419,257 c) 3,962,000; 3,926,000; 3,296,000; 3,269,000.
To arrange the following numbers in decreasing order, we arrange each in descending order. We start by comparing the first digit in each number and then move to the second, third, and so on until they are ordered.
a)407,531; 470,351; 470,153; 407,153b)814,527; 814,257; 419,527; 419,257c)3,962,000; 3,926,000; 3,296,000; 3,269,000
Therefore, the numbers in descending order are: a) 407,531; 470,351; 470,153; 407,153
b) 814,527; 814,257; 419,527; 419,257
c) 3,962,000; 3,926,000; 3,296,000; 3,269,000
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Given F(X) = Sec (√X), Find Function F,G And H Such That F = Fogoh. Give Justification To Your Answers. [4 Marks]
F is the composition of G, H, and G applied twice. This implies that the output of G is passed through H, then G again, and finally through H.
To find functions F, G, and H such that F = (G ◦ (H ◦ G ◦ H)), we need to break down the composition step by step. Let's denote F(X) = Sec(√X) as function F, G(Y) as function G, and H(Z) as function H.
First, we can set H(Z) = √Z. This means that the output of H will be the square root of its input.
Next, we set G(Y) = Sec(Y). This means that the output of G will be the secant of its input.
Finally, we set F(X) = (G ◦ (H ◦ G ◦ H))(X), meaning F is the composition of G, H, and G applied twice. This implies that the output of G is passed through H, then G again, and finally through H.
The justification for this choice of functions lies in the requirement of matching the given function F(X) = Sec(√X). By assigning appropriate functions to G, H, and their composition, we are able to replicate the given function F using the composition F = (G ◦ (H ◦ G ◦ H)).
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Determine the area under the standard normal curve that lies to the right of (a) Z= -0.03, (b) Z=0.38, (c) Z=-1.13, and (d) Z= -1.96.
(a) The area to the right of Z= -0.03 is ___.
(Round to four decimal places as needed.)
(b) The area to the right of Z= 0.38 is ___.
(Round to four decimal places as needed.)
(c) The area to the right of Z=-1.13 is ___.
(Round to four decimal places as needed.)
(d) The area to the right of Z= - 1.96 is ___.
(Round to four decimal places as needed.)
To determine the areas under the standard normal curve to the right of specific Z-values, we can use the cumulative distribution function (CDF) of the standard normal distribution. By plugging in the given Z-values into the CDF, we can calculate the respective areas. The areas to the right of Z= -0.03, Z=0.38, Z=-1.13, and Z= -1.96 are calculated and rounded to four decimal places as requested.
a. The area to the right of Z= -0.03 can be found by calculating 1 - CDF(-0.03) using the standard normal distribution table or a statistical calculator. Evaluating this expression, we find that the area to the right of Z= -0.03 is approximately 0.512 (rounded to four decimal places).
b. Similarly, the area to the right of Z= 0.38 is given by 1 - CDF(0.38). Calculating this expression, we obtain an area of approximately 0.352 (rounded to four decimal places).
c. To find the area to the right of Z= -1.13, we calculate 1 - CDF(-1.13). Evaluating this expression, we obtain an area of approximately 0.870 (rounded to four decimal places).
d. Lastly, the area to the right of Z= -1.96 can be found by calculating 1 - CDF(-1.96). Evaluating this expression, we find that the area to the right of Z= -1.96 is approximately 0.025 (rounded to four decimal places).
In conclusion, using the standard normal distribution's cumulative distribution function, we determined the areas under the curve to the right of the given Z-values. These values represent the probabilities of obtaining a Z-score greater than or equal to the respective Z-values.
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(a) Explain when a constant would be used in a predicate logic sentence. Give an example. (2 marks) (b) Give an example of two uncountable sets A and B such that A – B is: (i) finite, (ii) countably infinite, (iii) uncountable.
(a) Constants are used in predicate logic to refer to specific objects. (b) Examples: (i) A - B = {1, 2} (finite), (ii) A - B = {1, 3, 5, 7, ...} (countably infinite), (iii) A - B = {0, 1} (uncountable).
A constant is used in a predicate logic sentence when we want to refer to a specific object or entity in the domain of discourse. For example, if we have a predicate "Loves(x, y)" where x is a constant representing a person's name and y is a variable representing a generic object, we can express a specific statement like "John loves pizza" as "Loves(John, pizza)".
(i) A = {1, 2, 3, 4} and B = {3, 4}. A – B = {1, 2} (a finite set).
(ii) A = {1, 2, 3, 4, ...} (the set of natural numbers) and B = {2, 4, 6, 8, ...} (the set of even numbers). A – B = {1, 3, 5, 7, ...} (a countably infinite set).
(iii) A = [0, 1] (the closed interval between 0 and 1) and B = (0, 1) (the open interval between 0 and 1). A – B = {0, 1} (an uncountable set).
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Juan, Carlos, and Mabu take turns flipping a coin in their perspective order. The first one to flip heads wins. What is the probability that Mabu will win? Express your answer as a common fraction.
The probability that Mabu will win is 11/16.
To find the probability that Mabu will win, we need to consider the different possible outcomes.
The first flip can either result in heads (H) or tails (T).
If it is tails, the next person in line, Juan, will flip the coin.
If Juan also gets tails, then Carlos will flip, and if Carlos gets tails as well, Mabu will have her turn to flip.
This process continues until one of them flips heads and wins.
Let's analyze the possibilities:
H (Mabu wins): In this case, Mabu wins immediately with a probability of 1/2 (since the first flip can either be heads or tails).
T - T - H (Mabu wins): This sequence represents the scenario where Juan and Carlos both get tails, and Mabu flips heads.
The probability of this happening is [tex](1/2) \times (1/2) \times (1/2) = 1/8.[/tex]
T - T - T - H (Mabu wins): This sequence represents the scenario where all three of them get tails before Mabu flips heads.
The probability of this happening is [tex](1/2) \times (1/2) \times (1/2) \times (1/2) = 1/16.[/tex]
Based on the above possibilities, the total probability of Mabu winning can be calculated by summing up the individual probabilities:
P(Mabu wins) = 1/2 + 1/8 + 1/16 = 8/16 + 2/16 + 1/16 = 11/16.
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A researcher was interested in investigating the relation between amount of time studying and science achievement among high school students taking Biology. In the two weeks leading up to their final exam, high school students enrolled in Biology from the Anaheim Union High School District were asked to record the number of hours they spent studying for their final examin Biology Students then took their Biology final exam (ucored 0-100). The researcher analyzed the relation between number of hours studied and science achievement and found r=47.0 05 Based on the statistics reported in the above scenario write a verbal description of the statistical findings. Your description should include whether or not the finding was signilicant and should use the two variable namas listed above to explain the direction, type and strength of the relation found. Then, explain what this means in "plain English
The study has investigated the relationship between the time spent studying and scientific achievements in biology students. The correlation between the number of hours studied and science achievement was analyzed the relationship was found to be r=0.4705.
The study investigated the correlation between the amount of time spent studying and science achievement in high school students who were studying Biology. The study was conducted by having students enrolled in Biology courses at the Anaheim Union High School District record the number of hours they spent studying for their final exam in Biology in the two weeks leading up to their final exam. The correlation between the number of hours studied and science achievement was analyzed, and the results of the analysis indicated a moderate positive correlation. Based on the r=0.4705, the study showed that there was a moderate positive correlation between the amount of time spent studying and science achievement among high school students taking biology. A correlation coefficient of 0.4705 indicates that as the amount of time spent studying for the final exam in Biology increased, science achievement also increased. The finding was statistically significant because the correlation coefficient value was greater than zero, which means that the relationship between the two variables was not due to chance.
The study has shown that there is a moderate positive correlation between the amount of time spent studying and science achievement among high school students taking Biology. As the number of hours spent studying for the final exam in Biology increases, science achievement also increases. The relationship between the two variables is not due to chance, as the correlation coefficient value is greater than zero. Therefore, it can be concluded that studying more hours for the biology exam leads to better performance in science among high school students taking Biology.
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Workout the composite shape
Answer:
3964 m^2.
Step-by-step explanation:
The area = sum of 5 rectangles
= 23*25 + 29*25 + 30*25 + 29*22 + 29*44
= 3964
Which one of the following DE is exact? 1.(x+y)dx + (xy+1)dy=0 ; II. (e^x+y)dx+(e^y+x²) dy=0 ; III. (ye² + y)dx +(e²+ y)dy=0
To determine whether a given differential equation is exact, we need to check if it satisfies the condition for exactness, which is that the mixed partial derivatives of the coefficients with respect to x and y are equal.
Let's analyze each option:
I. (x+y)dx + (xy+1)dy = 0
Taking the partial derivative of (x+y) with respect to y gives 1, and the partial derivative of (xy+1) with respect to x gives y. These derivatives are not equal, so this differential equation is not exact.
II. (e^x+y)dx + (e^y+x²)dy = 0
Taking the partial derivative of (e^x+y) with respect to y gives 1, and the partial derivative of (e^y+x²) with respect to x gives 2x. These derivatives are not equal, so this differential equation is not exact.
III. (ye² + y)dx + (e² + y)dy = 0
Taking the partial derivative of (ye² + y) with respect to y gives e² + 1, and the partial derivative of (e² + y) with respect to x gives 0. These derivatives are equal, so this differential equation is exact.
Therefore, only option III, (ye² + y)dx + (e² + y)dy = 0, is an exact differential equation.
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c) Present the following system of equations as an augmented matrix. Then use Gaussian elimination and the concept of rank to determine the values a and b for which the system of linear equations has: I. Unique solutions
II. Infinite solutions III. No solutions X1 + 2xy + x3 = 1 2xy + 3x2 + 2xy = -3 -3x + 2x2 + axz = b
If a ≠ -2x, the given system of equations will have unique solutions, and if y ≠ 0 and a = -2x, the given system of equations will have no solutions.
Given system of equations:
X1 + 2xy + x^3 = 1
2xy + 3x^2 + 2xy = -3
xz = b
Representing the system in an augmented matrix:
|1 2y 1 | 1
|2y 3 2y| -3
|0 x z | b
Using Gaussian elimination, let's reduce the matrix to row echelon form:
Apply ([tex]-2y)R_1 + R_2 - > R_2:[/tex]
|1 2y 1 | 1
|0 -y 0 | -5
|0 x z | b
Apply [tex](3)R_1 + R_3 - > R_3:[/tex]
|1 2y 1 | 1
|0 -y 0 | -5
|0 3x z | 3b-15
Apply [tex](-y)/2R_2 - > R_2:[/tex]
|1 2y 1 | 1
|0 1/2 y | 5/2
|0 3x z | 3b-15
Apply [tex](-2y)R_2 + R_1 - > R_1:[/tex]
|1 0 y-1 | 6y-2
|0 1/2 y | 5/2
|0 3x z | 3b-15
Apply [tex](6y-2)R_2 + R_1 - > R_1:[/tex]
|1 0 0 | 3
|0 1/2 y | 5/2
|0 3x z | 3b-15
From the row echelon form, we can determine the following conditions for the system to have infinite solutions:
The third row must have all zeros (i.e., 3x + z = 3b-15).
The second row must have all zeros except for the second column (i.e., y ≠ 0).
Thus, the given system of equations will have infinite solutions if and only if y = 0 and the third row condition is satisfied. The third row condition further simplifies to a = -2x and b = -5.
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express the function as the sum of a power series by first using partial fractions. f(x) = 6 x2 − 2x − 8
This function is a sum of a geometric series and its derivative is a power series that converges absolutely on the open interval (−1,4/3).
Thus, the function can be expressed as a sum of a power series by first using partial fractions.
To express the function as the sum of a power series by first using partial fractions, f(x) = 6 x² − 2x − 8.The partial fraction will be decomposed using the following steps:
Factorise the denominator and express the fraction in partial form.
[tex]6x² - 2x - 8 = 2(3x² - x - 4)2(3x² - 4x + 3x - 4) = 2[(3x² - 4x) + (3x - 4)]2[ x(3x - 4) + 1(3x - 4)] = 2[(3x - 4)(x + 1)][/tex]
Thus, the partial fractions become:
A = 2/((3x - 4)) + B/(x + 1)To find A and B:
Let x = -1, then: 2(3(-1)² - (-1) - 4) = 2A(-7)A = -6/7
Let x = 4/3, then: 2(3(4/3)² - 4/3 - 4) = 2B(7/3)B = 10/7
Therefore, A = -6/7 and B = 10/7
Then, substitute these values into the partial fractions.
A = 2/(3x - 4) - (5/7)/(x + 1)
This function is a sum of a geometric series and its derivative is a power series that converges absolutely on the open interval (−1,4/3).Thus, the function can be expressed as a sum of a power series by first using partial fractions.
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An insurance company pays 100 claims. The mean for an individual claim amount is $500 and the standard deviation is $100. The claims are independent and identically distributed random variables. Approximate the probability of the average of the 100 claim amounts exceeding $520.
Therefore, the approximate probability of the average of the 100 claim amounts exceeding $520 is 0.0228 or 2.28%.
To approximate the probability of the average of the 100 claim amounts exceeding $520, we can use the Central Limit Theorem.
According to the Central Limit Theorem, the distribution of the sample mean (in this case, the average of the 100 claim amounts) approaches a normal distribution as the sample size increases, regardless of the shape of the original distribution.
The mean of the sample mean is equal to the population mean, which is $500 in this case. The standard deviation of the sample mean, also known as the standard error, can be calculated by dividing the standard deviation of the population by the square root of the sample size.
Standard error = σ / √(n)
= $100 / √(100)
= $10
To approximate the probability of the average of the 100 claim amounts exceeding $520, we can standardize the value using the z-score formula:
z = (x - μ) / SE
= ($520 - $500) / $10
= 2
Now, we need to find the area under the standard normal distribution curve to the right of the z-score of 2. We can look up this area in the standard normal distribution table or use a calculator.
The area to the right of the z-score of 2 is approximately 0.0228 or 2.28%.
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Find the average rate of change of the function over the given intervals. f(x) = 4x³ + 4; a) [2,4], b) [-5,5] *** 3 a) The average rate of change of the function f(x) = 4x³ +4 over the interval [2,4] is. (Simplify your answer.)
A measurement of how a quantity changes over a specific period is the average rate of change. It determines the average rate of change of a quantity in relation to another variable during a predetermined period.
The formula to calculate the average rate of change for a function f(x) over an interval [a,b] is:
Calculating the difference between the function values at the interval's endpoints and dividing it by the difference in the x-values will allow us to get the average rate of change of a function throughout an interval.
a) The function is f(x) = 4x3 + 4 and the interval is [2,4].
At x = 2: f(2) = 4(2)³ + 4 = 36 + 4 = 40.
At x = 4: f(4) = 4(4)³ + 4 = 256 + 4 = 260.
According to the formula:
The average rate of change = (f(4) - f(2)) / (4 - 2) = (260 - 40) / 2 = 220 / 2 = 110,
and the average rate of change across the range [2,4] is given.
As a result, over the range [2,4], the average rate of change of the function f(x) = 4x3 + 4 is 110.
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Given the vectors u = (2,-1, a, 2) and v = (1, 1, 2, 1), where a is a scalar, determine
(a) the value of 2 which gives u a length of √13
(b) the value of a for which the vectors u and v are orthogonal
Note: you may or may not get different a values for parts (a) and (b). Also note that in (a) the square of a is being asked for.
Enter your answers below, as follows:
a.If any of your answers are integers, you must enter them without a decimal point, e.g. 10
b.If any of your answers are negative, enter a leading minus sign with no space between the minus sign and the number. You must not enter a plus sign for positive numbers.
c. If any of your answers are not integers, then you must enter them with exactly one decimal place, e.g. 12.5 rounding anything greater or equal to 0.05 upwards.
d.These rules are because blackboard does an exact string match on your answers, and you will lose marks for not following the rules.
Your answers:
(a) a²=
(b) a =
In summary, the solutions are: (a) a² = 0 (b) a = -1.5
To determine the values of a for the given vectors u and v, let's solve each part separately:
(a) Finding the value of a for which the vector u has a length of √13:
The length (or magnitude) of a vector can be found using the formula:
||u|| = √(u₁² + u₂² + u₃² + u₄²)
For vector u = (2, -1, a, 2), we need to find the value of a that makes ||u|| equal to √13. Substituting the vector components:
√13 = √(2² + (-1)² + a² + 2²)
√13 = √(4 + 1 + a² + 4)
√13 = √(9 + a² + 4)
√13 = √(13 + a²)
Squaring both sides of the equation:
13 = 13 + a²
Rearranging the equation:
a² = 0
Therefore, a² = 0.
(b) Finding the value of a for which the vectors u and v are orthogonal:
Two vectors are orthogonal if their dot product is equal to zero. The dot product of two vectors can be calculated using the formula:
u · v = u₁v₁ + u₂v₂ + u₃v₃ + u₄v₄
For vectors u = (2, -1, a, 2) and v = (1, 1, 2, 1), we need to find the value of a that makes u · v equal to zero. Substituting the vector components:
0 = 2 * 1 + (-1) * 1 + a * 2 + 2 * 1
0 = 2 - 1 + 2a + 2
0 = 3 + 2a
Rearranging the equation:
2a = -3
Dividing both sides by 2:
a = -3/2
Therefore, a = -1.5.
In summary, the solutions are:
(a) a² = 0
(b) a = -1.5
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du/dt=e^(5u+5t). solve the separable differential equation for u. use the initial condition u(0)=12
Given differential equation is[tex];du/dt = e^(5u+5t)[/tex]Now, we have to solve this differential equation for u using the initial condition u(0) = 12.the solution of the separable differential equation [tex]du/dt = e^(5u+5t)[/tex] with initial condition u(0) = 12 is given byu[tex]= (e^(5u+5t))/5 + 12 - (e^60)/5.[/tex]
The given differential equation is separable, so we can write;[tex]du/dt = e^(5u+5t) ...........(1)du = e^(5u+5t)[/tex] dtIntegrating both sides, we get;[tex]∫du = ∫e^(5u+5t)dt[/tex]
On integrating, we get;[tex]u = (e^(5u+5t))/5 + c[/tex] where c is the constant of integration.To find the value of c, we use the initial condition [tex]u(0) = 12.u(0) = (e^(5u+5t))/5 + c[/tex] Putting u=12 and t=0,
we get; [tex]12 = (e^(5(12)+5(0)))/5 + c[/tex]
Solving for c, we get;[tex]c = 12 - (e^60)/5[/tex]
Now, we can write the solution of the differential equation (1) as;[tex]u = (e^(5u+5t))/5 + 12 - (e^60)/5[/tex]
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Use the accompanying data sel on the pulse rates (in beats per minute) of males to complete parts (a) and (b) below.
Click the icon to view the pulse rates of males.
a. Find the mean and standard deviation, and verify that the pulse rates have a distribution that is roughly normal.
The mean of the pulse rates is 71.8 beats per minute.
(Round to one decimal place as needed.)
The standard deviation of the pulse rates is 12.2 beats per minute.
(Round to one decimal place as needed.)
Explain why the pulse rates have a distribution that is roughly normal. Choose the correct answer below.
OA. The pulse rates have a distribution that is normal because the mean of the data set is equal to the median of the data set.
OB. The pulse rates have a distribution that is normal because none of the data points are greater than 2 standard deviations from the mean.
OC. The pulse rates have a distribution that is normal because none of the data points are negative.
D. The pulse rates have a distribution that is normal because a histogram of the data set is bell-shaped and symmetric.
b. Treating the unrounded values of the mean and standard deviation as parameters, and assuming that male pulse rates are normally distributed, find the pulse rate separating the lowest 2.5% and the pulse rate separating the highest 2.5%. These values could be helpful when physicians try to determine whether pulse rates are significantly low or significantly high.
The pulse rate separating the lowest 2.5% is 48.0 beats per minute. (Round to one decimal place as needed.)
The pulse rate separating the highest 2.5% is (Round to one decimal place as needed.)
The pulse rates of males have a roughly normal distribution with a mean of 71.8 beats per minute and a standard deviation of 12.2 beats per minute. The pulse rate separating the lowest 2.5% is 48.0 beats per minute, indicating significantly low pulse rates.
a. The pulse rates have a distribution that is roughly normal because a histogram of the data set is bell-shaped and symmetric. This is a characteristic of a normal distribution, where the data clusters around the mean and decreases gradually towards the tails. The mean and median being equal (option A) does not necessarily guarantee a normal condition either, as some outliers can still be present in a normal distribution.
b. Assuming a normal distribution, the pulse rate separating the lowest 2.5% can be found using the z-score. Since the distribution is symmetric, we can use the standard deviation to determine the z-score corresponding to the lower tail probability of 0.025. Using a standard normal distribution table or a calculator, the z-score is approximately -1.96. With the unrounded standard deviation of 12.2 and mean of 71.8, we can calculate the lower threshold as follows:
Lower threshold = Mean + (Z-score * Standard deviation)
Lower threshold = 71.8 + (-1.96 * 12.2) = 48.0 beats per minute.
Therefore, the pulse rate separating the highest 2.5% is approximately 95.3 beats per minute.
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This question is designed to be answered without a calculator.
d/dx (10ln x) =
a. (In x) 10lnx-1
b. (In 10)10^lnx
c. (1/x) 10^In
d. (ln 10/x)10^ln x
To find the derivative of the function 10ln(x) with respect to x, we can use the chain rule.
The chain rule states that if we have a composition of functions, f(g(x)), then the derivative of this composition with respect to x is given by:
d/dx [f(g(x))] = f'(g(x)) * g'(x)
In this case, f(x) = 10ln(x), and g(x) = x.
Taking the derivative of f(x) = 10ln(x) with respect to x, we get:
f'(x) = 10 * (1/x) [Using the derivative of ln(x), which is 1/x]
Now, g'(x) = 1 [The derivative of x with respect to x is 1]
Applying the chain rule, we have:
d/dx [10ln(x)] = f'(g(x)) * g'(x) = 10 * (1/x) * 1 = 10/x
Therefore, the correct answer is:
a. (ln x) 10/x
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Suppose f(x,y) = x^2+ y^2- 6x and D is the closed triangular region with vertices (6,0), (0,6), and (0,-6). Answer the following. Find the absolute maximum of f(x,y) on the region D. Answer: Find the absolute minimum of f(X, y) on the region D. Answer:
To find the absolute maximum and minimum of the function f(x, y) = x^2 + y^2 - 6x on the closed triangular region D, we need to evaluate the function at its critical points within D and on its boundary.
First, let's find the critical points by taking the partial derivatives of f(x, y) with respect to x and y and setting them equal to zero:
∂f/∂x = 2x - 6 = 0 => x = 3
∂f/∂y = 2y = 0 => y = 0
So, the only critical point within D is (3, 0).
Now, let's evaluate the function f(x, y) at the vertices of the triangular region D:
f(6, 0) = 6^2 + 0^2 - 6(6) = 36 + 0 - 36 = 0
f(0, 6) = 0^2 + 6^2 - 6(0) = 0 + 36 - 0 = 36
f(0, -6) = 0^2 + (-6)^2 - 6(0) = 0 + 36 - 0 = 36
Next, we need to check the values of f(x, y) along the boundary of D. The boundary consists of three line segments: the line segment from (6, 0) to (0, 6), the line segment from (0, 6) to (0, -6), and the line segment from (0, -6) to (6, 0).
For the first line segment, let's parameterize it using t, where t goes from 0 to 1:
x = 6 - 6t
y = 6t
Substituting these values into f(x, y), we get:
f(6 - 6t, 6t) = (6 - 6t)^2 + (6t)^2 - 6(6 - 6t)
Expanding and simplifying:
f(6 - 6t, 6t) = 36 - 72t + 36t^2 + 36t^2 - 36(6 - 6t)
= 36 - 72t + 36t^2 + 36t^2 - 216 + 216t
= 72t^2 + 144t - 180
For the second line segment, let's parameterize it using t, where t goes from 0 to 1:
x = 0
y = 6 - 12t
Substituting these values into f(x, y), we get:
f(0, 6 - 12t) = 0^2 + (6 - 12t)^2 - 6(0)
= 36 - 144t + 144t^2 - 0
= 144t^2 - 144t + 36
For the third line segment, let's parameterize it using t, where t goes from 0 to 1:
x = 6t
y = -6 + 12t
Substituting these values into f(x, y), we get:
f(6t, -6 + 12t) = (6t)^2 + (-6 + 12t)^2 - 6(6t)
= 36t^2 + 144t^2 - 144t + 36
= 180t^2 -
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Let a₁,..., am be m elements of an n-dimensional linear space L, where m
All four assertions (i), (ii), (iii), and (iv) are equivalent to linear independence of the vectors a₁, ..., aₘ.
Let's analyze each assertion and determine their equivalence to linear independence:
(i) The vectors a₁, ..., aₘ are part of a basis of L.
If the vectors a₁, ..., aₘ are part of a basis of L, then they are linearly independent. The basis of a vector space consists of linearly independent vectors that span the entire space. Therefore, this assertion is equivalent to linear independence.
(ii) The linear span of a₁, ..., aₘ has dimension m.
If the linear span of a₁, ..., aₘ has dimension m, it means that the vectors a₁, ..., aₘ are linearly independent. The dimension of the linear span is equal to the number of linearly independent vectors that span it. Hence, this assertion is equivalent to linear independence.
(iii) If a linear combination a₁a₁ + ... + aₘaₘ is the zero vector, then all numbers a₁, ..., aₘ are zero.
This statement implies that the only solution to the equation a₁a₁ + ... + aₘaₘ = 0 is when a₁ = ... = aₘ = 0. If this condition holds, it means that the vectors a₁, ..., aₘ are linearly independent. Therefore, this assertion is equivalent to linear independence.
(iv) The linear span of a₁, ..., aₘ has dimension n - m.
If the linear span of a₁, ..., aₘ has dimension n - m, it means that the vectors a₁, ..., aₘ are linearly independent and their linear span does not cover the entire n-dimensional space L. This condition is also equivalent to linear independence.
Therefore, all four assertions (i), (ii), (iii), and (iv) are equivalent to linear independence of the vectors a₁, ..., aₘ.
Complete Question:
"How many of the following assertions are equivalent to linear independence of m vectors a₁, ..., aₘ in an n-dimensional linear space L?
(i) The vectors a₁, ..., aₘ are part of a basis of L.
(ii) The linear span of a₁, ..., aₘ has dimension m.
(iii) If a linear combination a₁a₁ + ... + aₘaₘ is the zero vector, then all numbers a₁, ..., aₘ are zero.
(iv) The linear span of a₁, ..., aₘ has dimension n - m."
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Homework 1.4 Pe the indicated options and w 5-75+ BL-AC ---- y your a Homework: 1.4 Question 17, 14.45 Perform the indicated operations and write the result in standardom -20+√50 √2 - 20. √-35 6
The simplified form is -20√2 + 10 - 20 √(-35) + 6.
What is the simplified form of the expression (-20 + √50) √2 - 20 √(-35) + 6?The given expression is:
(-20 + √50) √2 - 20 √(-35) + 6
To simplify this expression, let's break it down step by step:
Step 1: Simplify the square roots:
√50 = √(25ˣ 2) = 5√2
√(-35) is not a real number because the square root of a negative number is undefined.
Step 2: Substitute the simplified square roots back into the expression:
(-20 + 5√2) √2 - 20 √(-35) + 6
Step 3: Multiply the terms inside the parentheses:
(-20√2 + 5 ˣ 2) - 20 √(-35) + 6
Step 4: Simplify further:
(-20√2 + 10) - 20 √(-35) + 6
Since √(-35) is not a real number, the expression cannot be simplified any further.
Therefore, the simplified form of the given expression is:
-20√2 + 10 - 20 √(-35) + 6
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Rachel and Ferdinand are scuba diving. Rachel's equipment shows she is at an elevation of –27.5 feet, and Ferdinand's equipment shows he is at an elevation of –25 feet. Which of the following is true?
The correct statement is:
Rachel's elevation < Ferdinand's elevation.
How to get the true statementBased on the given information, Rachel's equipment shows she is at an elevation of -27.3 feet, while Ferdinand's equipment shows he is at an elevation of -24.1 feet. Since -27.3 feet is a lower value (more negative) than -24.1 feet, Rachel's elevation is lower than Ferdinand's elevation.
Rachel's equipment shows an elevation of -27.3 feet, indicating that she is diving at a depth of 27.3 feet below the surface. On the other hand, Ferdinand's equipment shows an elevation of -24.1 feet, which means he is diving at a depth of 24.1 feet below the surface.
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Complete question
Rachel and Ferdinand are scuba diving. Rachel's equipment shows she is at an elevation of -27.3 feet, and Ferdinand's equipment shows he is at an elevation of -24.1 feet. Which of the following is true?
Rachels' elevation > Ferdinand's elevation
Rachel's elevation = Ferninand's elevation
Rachel's elevation < Ferninand's elevation
Suppose a personnel manager has analyzed the ages a sample of eight employees sorted from low to high as follows: 26, 29, 36, 38, 45, 46, 47, 53 a. [3 pts]Find the sample mean. b. [5 pts]Find the sample variance. c. [2 pts]Find the sample standard deviation.
The sample mean can be calculated by adding up all the data values and dividing the total by the number of data values. Therefore, the sample mean is 40.25.
b. Sample Variance The formula for the variance of a sample is given as below:
$$\text{S}^{2}=\frac{\sum(x-\bar{x})^{2}}{n-1}$$
Where x is each data value, $\bar{x}$ is the sample mean,
n is the sample size.
Substituting the given values, we have,
;$$\begin{aligned}\text{S}^{2}&=\frac{\sum(x-\bar{x})^{2}}{n-1} \\ &
=\frac{(26-40.25)^{2}+(29-40.25)^{2}+(36-40.25)^{2}+(38-40.25)^{2}+(45-40.25)^{2}+(46-40.25)^{2}+(47-40.25)^{2}+(53-40.25)^{2}}{8-1} \\ &=\frac{569.875}{7} \\ &
=81.411 \end{aligned}$$.
Therefore, the sample variance is 81.411.
c. Sample Standard Deviation.
The sample standard deviation is the square root of the sample variance.
SD = √81.411
= 9.021.
Hence, the sample standard deviation is 9.021.
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Confidence Interval (LO5) Q4: You want to rent an apartment in Dubai. The average monthly rent for a sample of 60 apartments is $1000. Assume that the standard deviation for the population is o = $200. a) Construct a 95% confidence interval for the average rent of all apartments. <3 marks> b) How large the sample size should be to estimate the average rent of all apartments within plus or minus $50 with 90% confidence?
The 95% confidence interval for the average rent of all apartments is $981.11 to $1018.89 and estimate the average rent within plus or minus $50 with 90% confidence, a sample size
a) Using the formula for constructing a confidence interval for the population mean, the 95% confidence interval for the average rent of all apartments is $1000 ± $2.262($200 / √60), which is approximately $981.11 to $1018.89.
b) To determine the required sample size, we can use the formula n = [(z * σ) / E]^2, where z is the z-score corresponding to the desired confidence level (90% = 1.645), σ is the population standard deviation ($200), and E is the desired margin of error ($50). Plugging in these values, the required sample size is approximately 46.
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d³y Find the function y(x) satisfying dx3 The function y(x) satisfying d³y = 18, y''(0) = 12, y'(0)=5, and y(0) = 8. 18. y'(0) = 12, y'(0)=5, and y(0) = 8 is *LE
To find the function y(x) satisfying the given conditions, we need to integrate the differential equation d³y/dx³ = 18 three times and apply the initial conditions y''(0) = 12, y'(0) = 5, and y(0) = 8.
Given the differential equation d³y/dx³ = 18, we integrate it three times to obtain y(x). Integrating once gives us y'(x) = 18x + C₁, where C₁ is the constant of integration. Integrating again yields y''(x) = 9x² + C₁x + C₂, where C₂ is another constant of integration. Finally, integrating a third time leads to y(x) = 3x³/3 + C₁x²/2 + C₂x + C₃, where C₃ is the constant of integration.
Now, we can apply the initial conditions to determine the values of the integration constants. From y''(0) = 12, we have 0 + C₂ = 12, which gives us C₂ = 12. Applying y'(0) = 5, we get 0 + 0 + C₁ = 5, resulting in C₁ = 5. Finally, using y(0) = 8, we have 0 + 0 + 0 + C₃ = 8, giving us C₃ = 8.
Substituting the values of the integration constants back into the equation, we obtain the function y(x) = x³ + 5x²/2 + 12x + 8. This function satisfies the given differential equation and the initial conditions y''(0) = 12, y'(0) = 5, and y(0) = 8.
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Which of the following probability statements will exhibit a simple event? a. The marginal probability b. the joint probability c. The conditional probability d. none of the alternatives mentioned
The given probability statement that will exhibit a simple event is an option (D) None of the alternatives were mentioned.
A simple event is an outcome that can occur by the occurrence of only one simple characteristic.
It is an essential factor of probability theory, and it helps us comprehend more complex probability calculations.
The given probability statement that will exhibit a simple event is option d. None of the alternatives were mentioned.
What is probability?
Probability is the branch of mathematics that examines the probability of an event occurring.
It is expressed as the ratio of the number of ways the event can occur to the total number of possible outcomes.
It provides a range of values that can fall between 0 and 1. If the possibility of an event occurring is high, the number is close to 1.
On the other hand, if the likelihood of an event occurring is low, the number is close to 0.
There are three types of probabilities: Marginal probability, Joint probability, Conditional probability
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In the hospital study cited previously, the standard deviation of the noise levels of the 11 intensive care units was 4.1 dBA, and the standard deviation of the noise levels of 26 nonmedical care areas, such as kitchens and machine rooms, was 13.2 dBA. At a=0.05, is there a significant difference between the standard deviations of these two areas? You are required to do the "Seven-Steps Classical Approach as we did in our class." No credit for p-value test. 1. Define: 2. Hypothesis: 3. Sample: 4. Test: 5. Critical Region: 6. Computation: 7. Decision:
Since F < 0.3165, we fail to reject the null hypothesis H0: σ12 = σ22. Thus, we can conclude that there is no significant difference between the standard deviations of the noise levels of the 11 intensive care units and 26 nonmedical care areas at α=0.05.
1. Define: The two sample problem is used to determine whether two groups have the same population mean.
We consider two samples that are independent of each other, and we compare the variances of the two samples to determine if they are equal.
Hypothesis: H0: σ12 = σ22 Ha: σ12 ≠ σ22 We want to test if the noise levels in intensive care units are different from the noise levels in nonmedical care areas.
Sample: The standard deviation of the noise levels of the 11 intensive care units was 1 dBA, and the standard deviation of the noise levels of 26 nonmedical care areas, such as kitchens and machine rooms, was 13.2 dBA.
Test: To determine if there is a significant difference between the standard deviations of these two areas, we will use the F-test at α=0.05.
Critical Region: At α=0.05, we have an F-distribution with (df1 = 10, df2 = 25), therefore our critical region is: F < 0.3165 or F > 3.4617.
We have two sample standard deviations, we can use the F-test to determine if they are significantly different from each other. F = S12/S22 = 4.12/13.22 = 0.1009.7.
Since F < 0.3165, we fail to reject the null hypothesis H0: σ12 = σ22. Thus, we can conclude that there is no significant difference between the standard deviations of the noise levels of the 11 intensive care units and 26 nonmedical care areas at α=0.05.
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Solve the following problems as directed. Show DETAILED solutions and box your final answers. 1. Determine the radius and interval of convergence of the power series En 5+ (-1)^+1(x-4) n (15 pts) ngn 2. Find the Taylor series for the function f(x) = x4 about a = 2. (10 pts) 3. Obtain the Fourier series for the function f whose definition in one period is f(x) = -x for – 3 < x < 3. Sketch the graph of f.
The Taylor series for f(x) = x⁴ about a = 2 is the Fourier series for the function f whose definition in one period is
[tex]f(x) = 16 + 32(x - 2) + 24(x - 2)^2 + 4(x - 2)^3 + (x - 2)^{4/2!} + ...[/tex]
To determine the radius and interval of convergence of the power series, we'll analyze the given series:
E(n=5) ∞ [tex](-1)^{(n+1)}(x-4)^n[/tex]
First, let's apply the ratio test:
lim(n→∞) [tex]|((-1)^{(n+2)}(x-4)^{(n+1)}) / ((-1)^{(n+1)}(x-4)^n)|[/tex]
Simplifying the expression:
lim(n→∞) [tex]|(-1)^{(n+2)}(x-4)^{(n+1)}| / |(-1)^{(n+1)}(x-4)^n|[/tex]
Since we have[tex](-1)^{(n+2)[/tex] and [tex](-1)^{(n+1)[/tex], the negative signs will cancel out, and we are left with:
lim(n→∞) |x-4|
For the ratio test, the series converges when the limit is less than 1 and diverges when the limit is greater than 1.
|x-4| < 1
Solving this inequality:
-1 < x-4 < 1
Adding 4 to all parts of the inequality:
3 < x < 5
Thus, the interval of convergence is (3, 5). To determine the radius of convergence, we take the difference between the endpoints of the interval:
Radius = (5 - 3) / 2 = 2 / 2 = 1
Therefore, the radius of convergence is 1.
To find the Taylor series for the function f(x) = x⁴ about a = 2, we'll use the Taylor series expansion formula:
[tex]f(x) = f(a) + f'(a)(x-a) + f''(a)(x-a)^{2/2!} + f'''(a)(x-a)^{3/3!} + ...[/tex]
First, let's calculate the derivatives of f(x):
f'(x) = 4x³
f''(x) = 12x²
f'''(x) = 24x
f''''(x) = 24
Now, let's evaluate each term at x = 2:
f(2) = 2⁴
= 16
f'(2) = 4(2)³
= 32
f''(2) = 12(2)²
= 48
f'''(2) = 24(2)
= 48
f''''(2) = 24
Substituting these values into the Taylor series formula:
[tex]f(x) = 16 + 32(x - 2) + 48(x - 2)^{2/2!} + 48(x - 2)^{3/3!} + 24(x - 2)^{4/4!} + ...[/tex]
Simplifying the terms:
[tex]f(x) = 16 + 32(x - 2) + 24(x - 2)^2 + 4(x - 2)^3 + (x - 2)^{4/2!} + ...[/tex]
Therefore, the Taylor series for f(x) = x⁴ about a = 2 is:
[tex]f(x) = 16 + 32(x - 2) + 24(x - 2)^2 + 4(x - 2)^3 + (x - 2)^{4/2!} + ...[/tex]
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Solve the initial value problem:
X' = AX , where
X1'= X1+X2
X2'= 4X1 - 2X2
initial conditions: X1 (0) = 1, X2 (0)= 6
To solve the initial value problem X' = AX, where A is the coefficient matrix and X is the vector of unknowns, we can follow these steps:
Write the system of differential equations:
X1' = X1 + X2
X2' = 4X1 - 2X2
Write the coefficient matrix A:
A = [1 1]
[4 -2]
Write the vector of unknowns:
X = [X1]
[X2]
Rewrite the system in matrix form:
X' = AX
Take the derivative of X:
X' = [X1']
[X2']
Substitute the expressions for X' and X in the matrix form:
[X1']
[X2'] = [1 1] [X1]
[X2]
Multiply the matrices:
[X1']
[X2'] = [X1 + X2]
[4X1 - 2X2]
Equate the corresponding components of the matrices:
X1' = X1 + X2
X2' = 4X1 - 2X2
Now, we have the system of differential equations in the initial value problem. To solve this system, we can proceed as follows:
First, let's solve the first equation:
X1' = X1 + X2
To solve this first-order linear differential equation, we can use an integrating factor. The integrating factor is given by e^(∫1 dt) = e^t.
Multiplying both sides of the equation by the integrating factor, we get:
e^t * X1' = e^t * X1 + e^t * X2
Now, the left side can be rewritten using the product rule:
(d/dt)(e^t * X1) = e^t * X1 + e^t * X2
Integrating both sides with respect to t, we obtain:
e^t * X1 = ∫(e^t * X1 + e^t * X2) dt
Simplifying the integral:
e^t * X1 = X1 * ∫e^t dt + X2 * ∫e^t dt
Integrating:
e^t * X1 = X1 * e^t + X2 * e^t + C1
Dividing both sides by e^t:
X1 = X1 + X2 + C1 * e^(-t)
Simplifying:
C1 * e^(-t) = 0
Since C1 is a constant, we can set it to zero:
C1 = 0
Therefore, the solution to the first equation is:
X1 = X1 + X2
Now, let's solve the second equation:
X2' = 4X1 - 2X2
To solve this first-order linear differential equation, we can use a similar approach.
Multiplying both sides by the integrating factor e^(-2t), we get:
e^(-2t) * X2' = e^(-2t) * (4X1 - 2X2)
Again, using the product rule for the left side:
(d/dt)(e^(-2t) * X2) = e^(-2t) * (4X1 - 2X2)
Integrating both sides with respect to t, we obtain:
e^(-2t) * X2 = ∫(e^(-2t) * (4X1 - 2X2)) dt
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Apply the Jacobi method to approximate the solution of the following system of linear equations accurate to within 0.02 . Assume 1(0) = (0,0,0)". Use three significant digits with rounding in your calculations. 5.x– 2x2 + 3x3 = -1 - 3x2 + 9x2 + x3 = 2 2x1 - x2 - 7x3 = 3 = =
The solution is x = (-0.42, 0.42, 0.39) accurate to within 0.02.
The system of linear equations are:
5x₁ – 2x₂ + 3x₃ = -1 3x₂ + 9x₂ + x₃ = 2 2x₁ - x₂ - 7x₃ = 3
To approximate the solution using the Jacobi method, the system can be written in the form of x = Bx + c, where B is the matrix of coefficients and c is the matrix of constants.
This is given by x₁ = (1/5)(2x₂ - 3x₃ - 1)x₂ = (1/9)(-3x₁ - x₃ + 2)x₃ = (1/7)(-2x₁ + x₂ + 3)
At the first iteration:
x₁⁽¹⁾ = (1/5)(2(0) - 3(0) - 1)
= -0.20x₂⁽¹⁾
= (1/9)(-3(0) - (0) + 2)
= 0.22x₃⁽¹⁾
= (1/7)(-2(0) + (0) + 3)
= 0.43
At the second iteration: x₁⁽²⁾ = (1/5)(2(0.22) - 3(0.43) - 1)
= -0.34x₂⁽²⁾
= (1/9)(-3(-0.20) - (0.43) + 2)
= 0.37x₃⁽²⁾
= (1/7)(-2(-0.20) + (0.22) + 3)
= 0.34
At the third iteration:
x₁⁽³⁾ = (1/5)(2(0.37) - 3(0.34) - 1)
= -0.40x₂⁽³⁾
= (1/9)(-3(-0.34) - (0.34) + 2)
= 0.41x₃⁽³⁾
= (1/7)(-2(-0.34) + (0.37) + 3)
= 0.38
At the fourth iteration:
x₁⁽⁴⁾ = (1/5)(2(0.41) - 3(0.38) - 1)
= -0.42x₂⁽⁴⁾ = (1/9)(-3(-0.40) - (0.38) + 2)
= 0.42x₃⁽⁴⁾ = (1/7)(-2(-0.40) + (0.41) + 3)
= 0.39
The Jacobi method can be continued until the desired level of accuracy is reached.
Hence, the solution is x = (-0.42, 0.42, 0.39) accurate to within 0.02.
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list the first five terms of the sequence. an = (−1)n − 1 n^2
The first five terms of the sequence are 1, -1/4, 1/9, -1/16, 1/25. First five terms of the given sequence are 1, -1/4, 1/9, -1/16, 1/25.
The given sequence is given by; an = (−1)n − 1 n².
To find out the first five terms of the sequence, we substitute the values of n starting from 1 up to 5.
Then; when n = 1;an = (−1)¹ − 1 (1)²an = -1
when n = 2;an = (−1)² − 1 (2)²an = -3/4
when n = 3;an = (−1)³ − 1 (3)²an = -8/9
when n = 4;an = (−1)⁴ − 1 (4)²an = -15/16
when n = 5;an = (−1)⁵ − 1 (5)²an = -24/25 .
Therefore, the first five terms of the sequence are;-1,-3/4,-8/9,-15/16,-24/25.
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8. Find the following given: x = sint & y = cos² t a) Sketch the curve and show the direction as t increases. b) Find the rectangular equation.
the rectangular equation is given by:[tex]x = \pm \sqrt(1 - y)[/tex]
Answer : [tex]x =\pm \sqrt(1 - y)[/tex]
Given, x = sin(t)
and
[tex]y = cos^2(t)[/tex]
a) Sketch the curve and show the direction as t increasesTo sketch the curve, we use the parametric curve given by
x = sin(t)
and
[tex]y = cos^2(t).[/tex]
For this, we take the values of t, find the corresponding values of x and y and plot them.
We use different values of t for plotting the graph.
The direction of the curve is shown using arrows.
As t increases, the point moves along the curve in the direction shown by the arrow.
The curve is given as follows:
b) Find the rectangular equation to find the rectangular equation, we use the trigonometric identities: [tex]cos^2(t) = 1-sin^2(t)[/tex]
Substituting the values of x and y, we get: [tex]y = cos^2(t)[/tex]
=> [tex]y = 1 - sin^2(t)[/tex]
=> [tex]sin^2(t) = 1 - y[/tex]
=>[tex]sin(t) = ± √(1 - y)[/tex]
For x = sin(t), we substitute sin(t) by ± √(1 - y) to get the value of x.
As sin(t) is positive in the first and second quadrant and negative in the third and fourth quadrant, we need to use both positive and negative values of √(1 - y) for x.
Hence, the rectangular equation is given by:[tex]x = \pm \sqrt(1 - y)[/tex]
Answer:[tex]x = \pm \sqrt(1 - y)[/tex]
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