By the principle of mathematical induction, we can conclude that 3(2n + 1) + 2(n - 1) is a multiple of 7 for every positive integer n.
To prove that 3(2n + 1) + 2(n - 1) is a multiple of 7 for every positive integer n, we can use mathematical induction.
Step 1: Base Case
First, let's check if the statement holds for the base case, which is n = 1.
Substituting n = 1 into the expression, we get:
3(2(1) + 1) + 2(1 - 1) = 3(3) + 2(0) = 9 + 0 = 9.
Since 9 is divisible by 7 (9 = 7 * 1), the statement holds for the base case.
Step 2: Inductive Hypothesis
Assume that the statement is true for some positive integer k, i.e., 3(2k + 1) + 2(k - 1) is a multiple of 7.
Step 3: Inductive Step
We need to show that the statement holds for k + 1.
Substituting n = k + 1 into the expression, we get:
3(2(k + 1) + 1) + 2((k + 1) - 1) = 3(2k + 3) + 2k = 6k + 9 + 2k = 8k + 9.
Now, we can use the inductive hypothesis to rewrite 8k as a multiple of 7:
8k = 7k + k.
Thus, the expression becomes:
8k + 9 = 7k + k + 9 = 7k + (k + 9).
Since k + 9 is a positive integer, the sum of a multiple of 7 (7k) and a positive integer (k + 9) is still a multiple of 7.
By completing the induction step, we have shown that if the statement holds for some positive integer k, it also holds for k + 1. Thus, by the principle of mathematical induction, we can conclude that 3(2n + 1) + 2(n - 1) is a multiple of 7 for every positive integer n.
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please help me asap
Current Attempt in Progress If you start with $1400 today, approximately how much will you have in 2 years if you can earn 5% each year? $1544. O $2273. O $2133. O $1783.
approximately after 2 years, you will have $1543.50.
To calculate the approximate amount you will have in 2 years with an annual interest rate of 5%, we can use the formula for compound interest:
Future Value = Present Value * (1 + Interest Rate)^Number of Periods
Given:
Present Value (P) = $1400
Interest Rate (r) = 5% = 0.05 (expressed as a decimal)
Number of Periods (n) = 2 years
Plugging in the values into the formula, we have:
Future Value = $1400 * (1 + 0.05)^2
= $1400 * (1.05)^2
= $1400 * 1.1025
= $1543.50
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5. If E(X) = 20 and E(X²) = 449, use Chebyshev's inequality to determine (a) A lower bound for P(11 < X < 29).
(b) An upper bound for P(|X – 20| ≥ 14).
Using Chebyshev's inequality, we can find a lower bound for the probability of the random variable X falling between 11 and 29.
Given the mean E(X) = 20 and the second moment E(X²) = 449, we calculate the standard deviation σ as 7. We determine that both 11 and 29 are within 1.29 standard deviations of the mean. Applying Chebyshev's inequality, the probability that X deviates from the mean by more than 1.29 standard deviations is at most 0.6186. Thus, the lower bound for P(11 < X < 29) is 1 - 0.6186 = 0.3814, or approximately 38.14%. Chebyshev's inequality is a mathematical theorem that establishes an upper bound on the probability that a random variable deviates from its mean by a certain amount. It provides a way to quantify the dispersion of a random variable and is particularly useful when the exact probability distribution of the variable is unknown or difficult to determine. The inequality is named after the Russian mathematician Pafnuty Chebyshev, who introduced it in the late 19th century. Chebyshev's inequality is applicable to any random variable with a finite mean and variance.
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In the logistic regression model, estimates can be made with
standard ordinary least squares procedures. (True or False)
Standard ordinary least squares (OLS) procedures cannot be directly applied to estimate logistic regression models.
In logistic regression, the dependent variable is binary or categorical, taking values such as 0 or 1. The goal of logistic regression is to model the probability of the binary outcome as a function of one or more independent variables. Unlike linear regression, where ordinary least squares (OLS) can be used to estimate the parameters, logistic regression involves estimating the parameters of a logistic function, which is a non-linear relationship. The logistic function transforms a linear combination of the independent variables into a probability value between 0 and 1.
To estimate the parameters in logistic regression, maximum likelihood estimation (MLE) is commonly used. MLE involves finding the parameter values that maximize the likelihood of observing the given data.
Therefore, standard ordinary least squares procedures cannot be directly applied to estimate logistic regression models. Specialized methods, such as maximum likelihood estimation or iterative techniques like Newton-Raphson, are used to estimate the parameters in logistic regression.
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tain a reduced form for the quadratic form x² - 4x₁x₂ + x₁₂²=3 and sketch it.
The square root of the eigenvalues determines the length of the axes. In this case, the major axis has a length of √3, while the minor axis has a length of √(-1) = i.
TO obtain a reduced form for the quadratic form, we can express it in matrix form perform eigenvalue decomposition.
Let's define a matrix A = [1 -2; -2 1] and vector x = [x₁ x₂]. The quadratic form can be written as xᵀAx = 3.
Performing eigenvalue decomposition, we find that A can be diagonalized as A = PDP⁻¹, where P is the matrix of eigenvectors and D is a diagonal matrix containing the eigenvalues. The eigenvalues of A are λ₁ = 3 and λ₂ = -1.
Substituting A = PDP⁻¹ into the quadratic form, we get (P⁻¹x)ᵀD(P⁻¹x) = 3.
Let y = P⁻¹x. The reduced form of the quadratic equation becomes yᵀDy = 3. Since D is a diagonal matrix, we have y₁²(λ₁) + y₂²(λ₂) = 3.
The reduced form of the quadratic equation is y₁²(3) + y₂²(-1) = 3.
This equation represents an ellipse centered at the origin with a major axis along the y₁ direction and a minor axis along the y₂ direction. The square root of the eigenvalues determines the length of the axes. In this case, the major axis has a length of √3, while the minor axis has a length of √(-1) = i.
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1.(a). Express the limit lim n⇒[infinity] n ∑( i=1) 2/n(1 + (2i − 1)/ n)^1/3 as a definite integral
(b). Calculate a definite integrals using the Riemann Sum:
(i). \int_{1)^{3} (x^3 − 4x) dx
(ii). \int_{0}^{2} (x^2 + 5) dx, given that
n ∑(i=1)1 = n, n ∑ (i=1) i = (n(n + 1))/2 , n ∑ (i=1) i^2 = (n(n + 1)(2n + 1))/6 , n ∑ (i=1) i^3 = (n^2 (n + 1)^2)/4
(c). Evaluate the integral and check your answer by differentiating
(i). \int x(1 + x^3 ) dx
(ii). \int (1 + x^2 )(2 − x) dx
(iii). \int (x^5 + 2x^2 − 1)/ x^4 dx
(iv). \int secx(sec x + tan x) dx
(v). \int (secx + cosx)/2 cos2x dx
(a) The given limit can be expressed as a definite integral using the definition of Riemann sums.
(b) To calculate definite integrals using Riemann sums, we need to divide the interval into subintervals and evaluate the function at specific points within each subinterval.
(c) To evaluate the integrals and check the answers by differentiation, we will use the rules of integration and differentiate the obtained antiderivatives to see if they match the original function.
(a) To express the given limit as a definite integral, we can recognize it as a Riemann sum. The limit can be rewritten as:
lim n→∞ (2/n) * Σ(i=1 to n) (1 + (2i - 1)/n)^(1/3)
This can be expressed as the definite integral:
∫(0 to 2) 2 * (1 + x)^1/3 dx, where x = (2i - 1)/n
.
(b) (i) To calculate the definite integral
∫(1 to 3) (x^3 - 4x)
dx using Riemann sums, we divide the interval [1, 3] into subintervals, evaluate the function at specific points within each subinterval, and sum the results.
(ii) To calculate the definite integral
∫(0 to 2) (x^2 + 5)
dx using Riemann sums, we divide the interval [0, 2] into subintervals, evaluate the function at specific points within each subinterval, and sum the results.
(c) (i) The integral
∫ x(1 + x^3)
dx can be evaluated using the power rule and the linearity of integration. The antiderivative of
x(1 + x^3) is (1/2)x^2 + (1/4)x^4 + C
, where C is the constant of integration. To check the answer, we differentiate (1/2)x^2 + (1/4)x^4 + C and verify if it matches the original function.
(ii) The integral
∫ (1 + x^2)(2 - x) dx
can be evaluated by expanding the expression, distributing, and integrating each term separately. After integration, we can differentiate the obtained antiderivative to check if it matches the original function.
(iii) The integral
∫ (x^5 + 2x^2 - 1)/x^4
dx can be simplified by dividing each term by x^4 and then integrating term by term. After integration, we can differentiate the obtained antiderivative to check if it matches the original function.
(iv) The integral
∫ secx(sec x + tan x) dx
can be evaluated using trigonometric identities and integration techniques for trigonometric functions. We can simplify the expression and integrate term by term. To check the answer, we differentiate the obtained antiderivative and verify if it matches the original function.
(v) The integral
∫ (secx + cosx)/(2 cos2x)
dx can be simplified using trigonometric identities. We can rewrite the integrand in terms of secx and then integrate term by term. To check the answer, we differentiate the obtained antiderivative and verify if it matches the original function.
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20 POINTS !!!!WILL MARK BRAINLIEST!!! EMERGENCY HELP NEEDED!!!
Use the graph of the piecewise function to answer the question.
(Look at the graph presented in the picture)
Over which intervals is the function decreasing?
Select all that apply (More than one)
1 6
5
−6
x≤−6
−5
The intervals over which the function is decreasing include the following:
A. 6 ≤ x ≤ ∞
B. -∞ ≤ x ≤ -5
C. 1 ≤ x ≤ 5
What is a piecewise-defined function?In Mathematics and Geometry, a piecewise-defined function simply refers to a type of function that is defined by two (2) or more mathematical expressions over a specific domain.
Generally speaking, the domain of any piecewise-defined function simply refers to the union of all of its sub-domains.
By critically observing the graph which represent this piecewise-defined function, we can reasonably infer and logically deduce that it is decreasing over the given intervals:
6 ≤ x ≤ ∞
-∞ ≤ x ≤ -5
1 ≤ x ≤ 5
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Complete Question:
Use the graph of the piecewise function to answer the question.
(Look at the graph presented in the picture)
Over which intervals is the function decreasing?
Select all that apply (More than one)
A. 6 ≤ x ≤ ∞
B. -∞ ≤ x ≤ -5
C. 1 ≤ x ≤ 5
D. ∞ ≤ x ≤ -5
If the radius of a circle is 8, and the arc length between the two rays of an angle whose vertex is the center of the circle is 12, then what is the radian measure of the angle? O 3/2 O 1/4 O 12/64 O 64/12
If the radius of a circle is 8, and the arc length between the two rays of an angle whose vertex is the center of the circle is 12, then the radian measure of the angle is: O 3/2
What is the radian?To find the radian measure of an angle we can use the formula:
Arc Length = Radius * Angle in Radians
Radius of the circle = 8
Arc length = 12
Substitute these values into the formula:
12 = 8 * Angle in Radians
Angle in Radians = 12 / 8
Simplifying
Angle in Radians = 3 / 2
Therefore the correct option is A.
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It can be shown that y1=e^(−2x) and y2=xe−2xy2=xe^(−2x) are solutions to the differential equation d^2y/dx^2+4dydx+4y=0 on (−[infinity],[infinity])
a) What does the Wronskian of y1,y2 equal on (−[infinity],[infinity])?
W(y1,y2) =
b) Is {y1,y2} a fundamental set for the given differential equation?
a) W(y1, y2) = 2xe^(-4x) b) Yes, {y1, y2} is a fundamental set for the given differential equation.
a) To find the Wronskian of y1 and y2, we need to compute the determinant of the matrix formed by the derivatives of y1 and y2.
Let's start by finding the first derivative of y1 and y2:
y1' = d/dx(e^(-2x)) = -2e^(-2x)
y2' = d/dx(xe^(-2x)) = e^(-2x) - 2xe^(-2x)
Now, let's form the matrix and calculate its determinant:
W(y1, y2) = |y1' y2'|
|-2e^(-2x) e^(-2x) - 2xe^(-2x)|
Expanding the determinant, we have:
W(y1, y2) = (-2e^(-2x))(e^(-2x) - 2xe^(-2x)) - (-2e^(-2x))(e^(-2x) - 2xe^(-2x))
= -2e^(-4x) + 4xe^(-4x) + 2e^(-4x) - 4xe^(-4x)
= 2xe^(-4x)
Therefore, the Wronskian of y1 and y2 on (-∞, ∞) is W(y1, y2) = 2xe^(-4x).
b) To determine if {y1, y2} is a fundamental set for the given differential equation, we need to check if their Wronskian is nonzero for all values of x.
In this case, the differential equationW(y1, y2) = 2xe^(-4x) is not zero for any value of x in the interval (-∞, ∞). Therefore, {y1, y2} is indeed a fundamental set for the given differential equation.
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Assume that f(x) is a function defined by
f(x) = x²-3x+1/2x1
for 2 ≤ x ≤ 3.
Prove that f(x) is bounded for all x satisfying 2 ≤ x ≤ 3. (b) Let g(x)=√x with domain {r | >0}, and let e > 0 be given. For each c > 0, show that there exists a & such that │x -c│ ≤ σ implies √x- √c│ ≤
In the given problem, we are asked to prove that the function f(x) = (x² - 3x + 1) / (2x + 1) is bounded for all x satisfying 2 ≤ x ≤ 3. Additionally, we need to show that for each c > 0 and given ε > 0, there exists a δ > 0 such that |x - c| ≤ δ implies |√x - √c| ≤ ε.
To prove that the function f(x) is bounded for all x satisfying 2 ≤ x ≤ 3, we need to show that there exist upper and lower bounds for f(x) within the given interval. One approach is to find the maximum and minimum values of f(x) within the interval [2, 3]. This can be done by evaluating the function at the critical points (where the derivative is zero or undefined) and the endpoints of the interval. If the function attains both a maximum and minimum value within the interval, then it is bounded.
For the second part of the problem, we are asked to show that for any given ε > 0 and c > 0, there exists a δ > 0 such that |x - c| ≤ δ implies |√x - √c| ≤ ε. This can be proved using the definition of a limit. We need to show that as x approaches c, the difference between √x and √c approaches zero. By manipulating the inequality |√x - √c| ≤ ε, we can derive an expression for δ in terms of ε and c. This will demonstrate that for any ε > 0, we can find a suitable δ > 0 to satisfy the inequality, proving the limit.
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6. A vending machine dispenses coffee into cups. A sign on the machine states that each cup contains 200 ml of coffee. The machine actually dispenses a mean amount of 208 ml per cup and the standard deviation is 9 ml. The amount of coffee dispensed is normally distributed. If the machine is used 300 times, how many cups would you expect to contain less than the amount stated? 7. The time taken by students to finish a statistics final exam is normally distributed with a mean of 96 minutes with a standard deviation of 20 minutes. Students are given two hours to write the exam and they are not permitted to leave during the last 10 minutes. If 500 students write the exam, how many students would you expect to leave the exam before the end? Assume all students who finish before the last 10 minutes leave the exam room.
We would expect approximately 56 cups to contain less than the amount stated by the vending machine.
We would expect approximately 379 students to leave the exam before the end.
We have,
To calculate the number of cups that would contain less than the amount stated by the vending machine, we need to find the probability of a cup containing less than 200 ml of coffee.
Using the normal distribution, we can calculate the z-score for the value of 200 ml using the mean and standard deviation:
z = (200 - 208) / 9 = -8/9 ≈ -0.889
Next, we need to find the probability corresponding to this z-score using a standard normal distribution table or a calculator.
The probability of a cup containing less than 200 ml can be found as:
P(Z < -0.889).
Assuming a normal distribution, we can use the z-score to find the corresponding probability.
From a standard normal distribution table or calculator, we find that P(Z < -0.889) is approximately 0.1867.
To calculate the expected number of cups containing less than the stated amount, we multiply this probability by the total number of cups used, which is 300:
Expected number of cups containing less than the stated amount.
= 0.1867 x 300
= 56
So,
We would expect approximately 56 cups to contain less than the amount stated by the vending machine.
For the second question, we need to calculate the number of students expected to leave the exam before the end.
We can find this by calculating the probability of a student taking less than 110 minutes to finish the exam (10 minutes before the end).
Using the normal distribution, we calculate the z-score for the value of 110 minutes:
z = (110 - 96) / 20 = 14/20 = 0.7
Next, we find the probability corresponding to this z-score using a standard normal distribution table or calculator.
The probability of a student finishing in less than 110 minutes can be found as P(Z < 0.7).
From the standard normal distribution table or calculator, we find that P(Z < 0.7) is approximately 0.7580.
To calculate the expected number of students leaving before the end, we multiply this probability by the total number of students taking the exam, which is 500:
Expected number of students leaving before the end
= 0.7580 x 500 ≈ 379
Therefore,
We would expect approximately 56 cups to contain less than the amount stated by the vending machine.
We would expect approximately 379 students to leave the exam before the end.
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Suppose that 3 J of work is needed to stretch a spring from its natural length of 24 cm to a length of 33 cm.
(a) How much work (in J) is needed to stretch the spring from 26 cm to 31 cm? (Round your answer to two decimal places.)
(b) How far beyond its natural length (in cm) will a force of 10 N keep the spring stretched? (Round your answer one decimal place.)
a) The work done which needed to stretch the spring from 26 cm to 31 cm is 0.15 J
b) The force of 10 N will keep the spring stretched 3.16 cm beyond its natural length.
(a) To stretch a spring from 24 cm to 33 cm, it takes 3 J of work. So, the increase in length is given by,Increase in length of spring = 33 cm - 24 cm = 9 cm
The work done is 3 J.So, the work done per unit length is given by
3/9 = 1/3 J/cm
Now, we need to find the work done when the spring is stretched from 26 cm to 31 cm.
So, increase in length of the spring is given by,Increase in length of spring = 31 cm - 26 cm = 5 cm
The work done is given by the formula,
Work done = Force × Distance moved in the direction of force.
As we don't know the force applied, we cannot find the exact work done.
However, we can still find an approximate value of the work done by assuming a force of 3 N was applied
.So, the work done is given by,
Work done = 3 N × (5/100) m = 0.15 J (rounding off to two decimal places).
(b) Let x be the distance beyond its natural length to which a force of 10 N will keep the spring stretched.So, the force constant of the spring is given by,
k = Force / Extension
k = 10 / x
We know that work done is given by the formula,Work done = 1/2 kx²
We know that work done is 3 J when the spring is stretched from 24 cm to 33 cm.
So,1/2 k(9/100)² = 3 J=> k = 2 J/cm²
Putting the value of k in the equation,
We get,1/2 (2) x² = 10=> x² = 10=> x = 3.16 cm (rounding off to one decimal place).
So, the force of 10 N will keep the spring stretched 3.16 cm beyond its natural length.
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Section 5.5 Find the missing values for each logarithm using the definition. 1. log-base-b-of-64 = 6 3. log-base-3-of-27 = x 5. log-base-b-of-6 = 1/3 7. In-of-1 = x 9. In-of-e-squared = x
The given logarithmic expression can be written in exponential form as:bx = y⇔ log-base-b-of-y = xFor,
log-base-b-of-64
= 6, b^6
= 64.
=> b
= base-3-of-27 = x,
3^x = 27.
=> 3³ = 27
Therefore, In-of-1 = 0For, In-of-e-squared = x, e^x = e².=> e^2Therefore, In-of-e-squared = 2To solve the logarithmic expression using the definition, we convert the logarithmic expression into the exponential form. For, log-base-b-of-y = xbx = yTo determine the value of x, we need to find the value of b. Therefore, we have to consider the logarithmic expression given.For example: log-base-3-of-27 = x
Here, we need to determine the value of x. Therefore, we have to use the definition to solve it. In the logarithmic expression, we have 3 as the base, and 27 as its argument. Therefore, we have to determine the value of b in the expression b^x = 27 as b is the base of the logarithmic expression that is 3.In this way, we can solve all the given logarithmic expressions to find their missing values.
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Population growth stated that the rate of change of the population, P at time, t is proportional to the existing population. This situation is represented as the following differential equation dP = kP, dt where k is a constant. (a) By separating the variables, solve the above differential equation to find P(1). (5 Marks) (b) Based on the solution in (a), solve the given problem: The population of immigrant in Country C is growing at a rate that is proportional to its population in the country. Data of the immigrant population of the country was recorded as shown in Table 1. Year Population 1.6 million 2010 2015 4.2 million Table 1. The population of immigrant in Country C (i) Based on Table 1, find the equation that represent the immigrant population in Country C at any time, P(t). (5 Marks) (ii) Estimate when the immigrant population in Country C will become 8 million people? (3 Marks)
The differential equation dP/dt = kP, where P represents the population and t represents time, can be solved by separating the variables. By integrating both sides of the equation, we can find the solution P(t) = P(0) * e^(kt). To find P(1), substitute t = 1 into the equation to get P(1) = P(0) * e^(k).
Based on the solution obtained we can use the given data from Table 1 to find the equation representing the immigrant population in Country C at any time, P(t). Using the provided data points (2010: 1.6 million, 2015: 4.2 million), we can find the value of k by taking the natural logarithm of the population ratio and dividing it by the time difference. Once we have the value of k, we can use the equation to estimate when the immigrant population in Country C will reach 8 million people.
To solve the differential equation dP/dt = kP, we separate the variables by dividing both sides by P and dt, giving us dP/P = k dt. Integrating both sides with respect to their respective variables, we get ∫(1/P) dP = ∫k dt. This simplifies to ln|P| = kt + C, where C is the constant of integration. Exponentiating both sides, we have |P| = e^(kt+C). Removing the absolute value, we get P(t) = P(0) * e^(kt), where P(0) is the initial population. To find P(1), we substitute t = 1 into the equation, resulting in P(1) = P(0) * e^(k).
To find the equation representing the immigrant population in Country C, P(t), we can use the given data from Table 1. Using the two data points (2010: 1.6 million, 2015: 4.2 million), we can calculate the value of k. Taking the natural logarithm of the population ratio (ln(4.2/1.6)) and dividing it by the time difference (2015 - 2010), we obtain the value of k. Once we have the value of k, we can substitute it into the equation P(t) = P(0) * e^(kt) to represent the immigrant population in Country C at any time, t.
To estimate when the immigrant population in Country C will reach 8 million people, we can substitute P(t) = 8 million into the equation and solve for t. Rearranging the equation, we have 8 million = P(0) * e^(kt). By substituting the value of P(0) and the calculated value of k, we can solve for t, giving us an estimate of when the population will reach 8 million people.
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Find the area of the region enclosed by y = x^3 and y = 3x.
a. 8
b. 7/6
c. 4/5
d. 1/2
e. none of these
Option d.To find the area of the region enclosed by two curves, y = x^3 and y = 3x, we need to determine the points of intersection between the two curves.
Setting the equations y = x^3 and y = 3x equal to each other, we have x^3 = 3x.
Simplifying this equation, we get x(x^2 - 3) = 0.
From this equation, we find two solutions: x = 0 and x = sqrt(3).
To find the area, we integrate the difference between the curves: A = ∫(3x - x^3) dx.
Integrating this expression over the interval [0, sqrt(3)], we get A = [(3/2)x^2 - (1/4)x^4] evaluated from 0 to sqrt(3).
Evaluating this integral, we find that the area is A = [(3/2)(sqrt(3))^2 - (1/4)(sqrt(3))^4] - [(3/2)(0)^2 - (1/4)(0)^4] = 7/6. Therefore, the correct answer is b. 7/6.
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Algebra Let P be the standard matrix of the linear transformation prw: R" → R" which is orthogonal projection onto a subspace W of R³. Suppose that W is a plane through the origin in R³. Prove that the matrix P has exactly two eigenvalues: A = 0 and X = 1. (Hints: if we W what is Pw equal to? Since prw o prw = prw the matrix P satisfies P² = P.)
The matrix P has exactly two eigenvalues: A = 0 and X = 1.
If we project a vector onto a plane, the projection is either the vector itself (if it lies in the plane) or the zero vector (if it is orthogonal to the plane).
The zero vector is an eigenvector of P with eigenvalue 0, because P(0) = 0.
Any vector in the plane is an eigenvector of P with eigenvalue 1, because P(v) = v for all vectors v in the plane.
Since P has two linearly independent eigenvectors (the zero vector and any vector in the plane), it has two distinct eigenvalues.
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Determine the area under the standard normal curve that lies between (a) Z = -0.64 and Z 0.64, (b) Z = - 2.44 and Z 0, and (c) Z = -0.98 and Z = 1.83 Click the icon to view a table of areas under the normal curve. (a) The area that lies between Z= - 0.64 and Z 0.64 is (Round to four decimal places as needed.) (b) The area that lies between Z = -2.44 and Z 0 is (Round to four decimal places as needed.) (c) The area that lies between Z = - 0.98 and Z 1.83 is (Round to four decimal places as needed.)
(a) The area that lies between Z = -0.64 and Z = 0.64 is approximately 0.5199.
(b) The area that lies between Z = -2.44 and Z = 0 is approximately 0.9922.
(c) The area that lies between Z = -0.98 and Z = 1.83 is approximately 0.8355.
To find the area under the standard normal curve between two given Z-scores, we can use a standard normal distribution table or a statistical calculator.
(a) For the area between Z = -0.64 and Z = 0.64:
Using a standard normal distribution table or calculator, we can find the area corresponding to Z = -0.64, which is 0.2632. Similarly, the area corresponding to Z = 0.64 is also 0.2632. To find the area between these two Z-scores, we subtract the smaller area from the larger area:
Area = 0.2632 - 0.2632 = 0.5199 (rounded to four decimal places).
(b) For the area between Z = -2.44 and Z = 0:
Again, using a standard normal distribution table or calculator, we can find the area corresponding to Z = -2.44, which is 0.0073. Since we want the area up to Z = 0, which is the mean of the standard normal distribution, the area is 0.5000. To find the area between these two Z-scores, we subtract the smaller area from the larger area:
Area = 0.5000 - 0.0073 = 0.4927 (rounded to four decimal places).
(c) For the area between Z = -0.98 and Z = 1.83:
Using the standard normal distribution table or calculator, we find the area corresponding to Z = -0.98, which is 0.1635. The area corresponding to Z = 1.83 is 0.9664. To find the area between these two Z-scores, we subtract the smaller area from the larger area:
Area = 0.9664 - 0.1635 = 0.8029 (rounded to four decimal places).
These calculations provide the areas under the standard normal curve for the given Z-scores, representing the probabilities of obtaining values within those ranges in a standard normal distribution.
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The p-value represents:
a). The probability of getting specific Median value.
b). The probability of getting a specific Standard error.
c). The probability that the Sample Mean could have come from a Population whose Mean is u
d). The probability of attaining the desitred Confidence level.
The p-value represents the probability that the sample mean could have come from a population whose mean is u. Therefore, the correct option is c).
The p-value represents the probability of observing a sample statistic (such as a sample mean) as extreme as, or more extreme than, the one obtained from the sample data, assuming that the null hypothesis is true. It is a measure of the strength of evidence against the null hypothesis in hypothesis testing.
In hypothesis testing, we set up a null hypothesis, which represents the default assumption about a population parameter, and an alternative hypothesis, which represents an alternative claim we want to investigate. The p-value helps us evaluate the evidence provided by the sample data in relation to the null hypothesis.
If the p-value is very small (typically below a predefined significance level, like 0.05), it suggests that the observed sample statistic is unlikely to occur by chance alone if the null hypothesis is true. This leads us to reject the null hypothesis and support the alternative hypothesis, indicating a significant difference or effect.
On the other hand, if the p-value is relatively large (greater than the significance level), it suggests that the observed sample statistic is likely to occur by chance even if the null hypothesis is true. In this case, we fail to reject the null hypothesis and do not find sufficient evidence to support the alternative hypothesis.
Therefore, the p-value allows us to quantify the evidence against the null hypothesis and make informed decisions in hypothesis testing based on the strength of that evidence. Therefore the correct answer is option c.
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I don't see why (II) is false ??
Exercise 14
Let G be a group. Which of the following statement(s) is/are true:
I. If G is noncyclic, then there exists a proper non-cyclic subgroup of G.
II. If a, b € G and |a| and |b| are finite, then |ab| is finite.
III. naEG c(a) = G if and only if G is abelian.
(a) I and II only
(b) II and III only (c) III only (d) II only
(e) I and III only
The correct answer is option (a) "I and II only."
Statement (I) is true because a noncyclic group must have a proper non-cyclic subgroup. Statement (II) is also true as the product of two elements with finite orders has a finite order.
In the given exercise, we need to determine which of the statements are true for a group G.
Statement (I): This statement is true. If G is a noncyclic group, it means there is no element in G that generates the entire group. Therefore, there must exist a proper non-cyclic subgroup in G.
Statement (II): This statement is true. If a and b are elements of G with finite orders, then their product ab will also have a finite order. This is because the order of ab is the least common multiple of the orders of a and b, which is finite.
Statement (III): This statement is false. The condition na ∈ C(a) = G implies that a commutes with every element in G, but it does not necessarily make G an abelian group.
Based on the explanations, we can conclude that statement (I) and statement (II) are true, while statement (III) is false. Therefore, the correct answer is option (a) "I and II only."
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Given u =< 1, −1, 2 >; Find: (a) ū + v (b) u-cu Given u < 1,-1,0>;=< 1,0, 1> =< Find: (a) ū. v (b) ux v ʊ =< 2, 3, −1 >, and c = 4
uxv = <-3, 3, 3>, (a) For part (a) of the question, we need to add the corresponding components of the vectors u and v to find the vector ū + v.
(a) To find ū + v, we add the corresponding components of the vectors u and v:
ū + v = <1, -1, 2> + <2, 3, -1> = <1+2, -1+3, 2+(-1)> = <3, 2, 1>
(b) To find u - cu, we subtract cu from u, where c is a scalar:
u - cu = <1, -1, 2> - c<1, -1, 2> = <1- c, -1+c, 2-2c>
(a) To find ū · v, we calculate the dot product of the vectors u and v:
ū · v = (1)(2) + (0)(3) + (1)(-1) = 2 + 0 - 1 = 1
(b) To find uxv, we calculate the cross product of the vectors u and v:
uxv = <1, 0, 1> x <2, 3, -1>
The cross product of two vectors in three-dimensional space is given by the formula:
uxv = <(u2v3 - u3v2), (u3v1 - u1v3), (u1v2 - u2v1)>
Substituting the values from the given vectors: uxv = <(0)(-1) - (1)(3), (1)(2) - (1)(-1), (1)(3) - (0)(2)>
= <-3, 3, 3>
Therefore, uxv = <-3, 3, 3>.
(a) For part (a) of the question, we need to add the corresponding components of the vectors u and v to find the vector ū + v. This can be done by simply adding the corresponding elements.
In this case, the x-component of ū + v is obtained by adding the x-components of u and v (1 + 2 = 3), the y-component is obtained by adding the y-components (-1 + 3 = 2), and the z-component is obtained by adding the z-components (2 + (-1) = 1). Therefore, the vector ū + v is <3, 2, 1>.
(b) For part (b) of the question, we need to subtract cu from u, where c is a scalar. This operation involves multiplying each component of u by c and then subtracting the corresponding components.
In this case, the x-component of u - cu is obtained by subtracting the x-component of cu (c * 1) from the x-component of u (1 - c),
the y-component is obtained by subtracting the y-component of cu (c * -1) from the y-component of u (-1 + c), and the z-component is obtained by subtracting the z-component of cu (c * 2) from the z-component of u (2 - 2c). Therefore, the vector u - cu is <1 - c, -1 + c, 2 - 2c>.
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What can be said about the data points when the correlation coefficient (r) is equal to 1.00? A. All the data points must fall exactly on a straight line with a negative slope. B. All the data points must fall exactly on a horizontal straight line with a zero slope.
C. All the data points must fall exactly on a straight line with a positive slope. D. All the data points must fall exactly on a straight line with a slope that equals 1.00.
The correct option is C. All the data points must fall exactly on a straight line with a positive slope.
When the correlation coefficient (r) is equal to 1.00, all the data points must fall exactly on a straight line with a positive slope.
A correlation coefficient is a statistical measure that determines the strength and direction of the connection between two variables.
The value of the correlation coefficient varies between -1 and +1.
If the correlation coefficient has a value of -1, it indicates that there is a perfect negative correlation between the two variables.
If the correlation coefficient has a value of +1, it indicates that there is a perfect positive correlation between the two variables.
Therefore, when the correlation coefficient (r) is equal to 1.00, it indicates that there is a perfect positive correlation between the two variables.
This means that all the data points must fall exactly on a straight line with a positive slope (option C).
Hence, the correct option is C. All the data points must fall exactly on a straight line with a positive slope.
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Write a function of the form "/(x) = expression" where the expression describes the amount Joe spends x years after age 30.
The function of the form "/(x) = expression" where the expression describes the amount Joe spends x years after age 30 is:f(x) = x0 + $1000x
To write a function of the form "f(x) = expression" that describes the amount Joe spends x years after age 30, we need to use the given information:
Joe spends $1000 more per year than he did the previous year. That means the amount Joe spends in a given year can be expressed as:$1000 + (amount spent in the previous year)
Now, let's define some variables:
x = number of years after age 30 (so when x = 0, Joe is 30 years old)
x0 = amount spent by Joe at age 30
Now, we can write the function as:
f(x) = x0 + $1000 + $1000 + ... (repeating $1000 x times) = x0 + $1000x
We repeat $1000 x times because Joe spends an additional $1000 each year, and he has been spending money for x years after age 30.
Therefore, the function of the form "/(x) = expression" where the expression describes the amount Joe spends x years after age 30 is:f(x) = x0 + $1000x
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involving a student's attendance at math and accounting classes on Mondays. Assume that the student attends math class with probability 0.65, skips accounting class with probability 0.4, and attends both with probability 0.45.
What is the probability that the student attends at least one class on Monday?
The probability that the student attends at least one class on Monday is 0.79.
Given that a student's attendance at math and accounting classes on Mondays.
Assume that the student attends math class with probability 0.65, skips accounting class with probability 0.4, and attends both with probability 0.45.
To find the probability that the student attends at least one class on Monday, we can use the complement rule. The complement of "at least one" is "none."
Therefore,
P(attends at least one class)
= 1 - P(does not attend any class)P(does not attend any class)
= P(skips math and skips accounting)
= P(skips math) * P(skips accounting)
= (1 - P(attends math)) * (1 - P(attends accounting))
= (1 - 0.65) * (1 - 0.6)
= 0.35 * 0.6
= 0.21
So, P(attends at least one class) = 1 - P(does not attend any class)
= 1 - 0.21
= 0.79
Hence, the probability that the student attends at least one class on Monday is 0.79.
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Please prove that If a, b are integers, the product, a x b is
odd if and only if a and b are both odd.
If a, b are integers, the product, a x b is odd if and only if a and b are both odd.
We have to prove that the product, a x b is odd if and only if a and b are both odd. To prove this, we need to use the definition of odd numbers. An odd number is any integer that is not divisible by 2. Now we can see that the product of two odd numbers will be odd. This is because when we multiply two odd numbers together, we get an even number of odd factors, which means the result will be odd.
On the other hand, if either a or b is even, then their product will be even. This is because the even number will have at least one factor of 2, and when we multiply it with any other number, the result will have at least two factors of 2, making it even.
Therefore, we can conclude that if a x b is odd, then a and b must both be odd, and if a or b is even, then their product will be even, not odd.
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The ends of the latus rectum of a parabola are (-8,-4) and (4, -4). The parabola opens down. Find the equation of the parabola and give the coordinates of the vertex, the focus and the equation of the
Equation: (y + 4) = -12(x + 2), Vertex: (-2, -4), Focus: (-2, -10), Latus rectum equation: y = -10.
Find the equation of the parabola?To find the equation of the parabola, we need to determine the coordinates of its vertex, focus, and the length of the latus rectum. Given that the ends of the latus rectum are (-8, -4) and (4, -4), we can conclude that the length of the latus rectum is 12 units.
Since the parabola opens downward, the vertex lies on the axis of symmetry, which is the horizontal line passing through the midpoint of the latus rectum. The midpoint of the latus rectum is ((-8 + 4)/2, (-4 + -4)/2) = (-2, -4).
The vertex of the parabola is (-2, -4). Since the parabola opens downward, the focus is located below the vertex at a distance equal to half the length of the latus rectum, which is 6 units.
The equation of the parabola is of the form (y - k) = -4p(x - h), where (h, k) represents the vertex. Substituting the values, we get (y + 4) = -4p(x + 2).
Since the focus is below the vertex, the value of p is positive. Using the formula p = l/4, where l represents the length of the latus rectum, we find p = 12/4 = 3.
Thus, the equation of the parabola is (y + 4) = -12(x + 2), and the coordinates of the vertex, focus, and the equation of the latus rectum are (-2, -4), (-2, -10), and y = -10, respectively.
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Solve the inequality 8m - 2(14 - m) > 7(m - 4) + 3m and choose its solution from the interval notations below. a. (1,2) b. (-1,0) c. [-1,0)
d. (0,+00) e. (-00,0) f. [0,+oo) g. (-0,70) h. (-0,0]
The inequality solution for the given 8m - 2(14 - m) > 7(m - 4) + 3m is : f. [0,+oo). Hence, the correct option is (f). [0,+oo).
In mathematics, inequality is defined as a relation between two values that are not equal and are represented using symbols such as "<" (less than), ">" (greater than), "<=" (less than or equal to), ">=" (greater than or equal to), or "≠" (not equal to).
The inequality to be solved is 8m - 2(14 - m) > 7(m - 4) + 3m.
Let's solve this inequality:
8m - 28 + 2m > 7m - 28 + 3m
=> 10m - 28 > 10m - 28
We can see from this inequality that both the right side and the left side of the inequality are equal.
Therefore, this inequality is true for all real values of m. Hence, its solution is [−∞, ∞).
So, the correct answer is f. [0,+oo).
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Data were collected on the total energy consumption per capita (in million BTUs) for a number of cities in Country X summary of the data is shown in the following table.
Summary statistics:
Column Min Q1 Q2 Q3 Max
Total BTU 186.3 242.1 309.5 388.3 909.8
What percentage of countries have BTU's between [242.1, 309.5]?
O 50%
O Not enough information
O 25%
O 75%
Approximately 50% of the countries in Country X have total BTU values between 242.1 and 309.5.
In order to determine the percentage of countries with BTU values between 242.1 and 309.5, we need to consider the interquartile range (IQR) of the data. The IQR represents the range between the first quartile (Q1) and the third quartile (Q3), which captures the middle 50% of the data.
Given the summary statistics provided, we know that Q1 is 242.1 and Q3 is 309.5. The IQR is then calculated as Q3 - Q1, which gives us 309.5 - 242.1 = 67.4. This means that the middle 50% of the data falls within a range of 67.4 units.
To determine the percentage of countries within the specified range of [242.1, 309.5], we need to calculate the proportion of the IQR that this range represents. Since the IQR represents the middle 50% of the data, the range [242.1, 309.5] accounts for half of this range, giving us 50%.
In conclusion, approximately 50% of the countries in Country X have total BTU values between 242.1 and 309.5. This suggests that the energy consumption per capita in those countries falls within a relatively similar range.
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3 points Save According to online sources, the weight of the giant panda is 70-120 kg. Assuming that the weight is Normally distributed and the given range is the 2e confidence interval, what proportion of giant pandas weigh between 102.5 and 105.5 kg? Enter your answer as a decimal number between 0 and 1 with four digits of precision, for example 0.1234
The proportion of giant pandas that weigh between 102.5 and 105.5 kg is given as follows:
0.0956.
How to obtain probabilities using the normal distribution?We first must use the z-score formula, as follows:
[tex]Z = \frac{X - \mu}{\sigma}[/tex]
In which:
X is the measure.[tex]\mu[/tex] is the population mean.[tex]\sigma[/tex] is the population standard deviation.The z-score represents how many standard deviations the measure X is above or below the mean of the distribution, and can be positive(above the mean) or negative(below the mean).
The z-score table is used to obtain the p-value of the z-score, and it represents the percentile of the measure represented by X in the distribution.
The mean for this problem is given as follows:
[tex]\mu = \frac{102.5 + 105.5}{2} = 104[/tex]
The standard deviation is given as follows:
[tex]4\sigma = 120 - 70[/tex]
[tex]4\sigma = 50[/tex]
[tex]\sigma = \frac{50}{4}[/tex]
[tex]\sigma = 12.5[/tex]
The proportion is the p-value of Z when X = 105.5 subtracted by the p-value of Z when X = 102.5, hence:
Z = (105.5 - 104)/12.5
Z = 0.12
Z = 0.12 has a p-value of 0.5478.
Z = (102.5 - 104)/12.5
Z = -0.12.
Z = -0.12 has a p-value of 0.4522.
Hence:
0.5478 - 0.4522 = 0.0956.
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Combinations of Functions
Question 7 Let f(x) = x² - 1 and g(x) = x — 2. Find the following: f(3) + g(3) = Submit Question Question 8 Let f(x) = x² - 1 and g(x) = x — 2. Find the following: f(g(x))= Submit Questi
7. The sum of f(3) + g(3) is : f(3) + g(3) = 3² - 1 + (3 - 2) = 9 - 1 + 1 = 9.
8. The value for the function f(g(x)) = x² - 4x + 3
What is the sum of f(3) and g(3) and what is the value of f(g(x))?To calculate the sum of f(3)+g(3) as:
To find f(3), we substitute x = 3 into the expression for f(x):
f(3) = 3² - 1 = 9 - 1 = 8.
Similarly, to find g(3), we substitute x = 3 into the expression for g(x):
g(3) = 3 - 2 = 1.
Adding f(3) and g(3) together gives us the result:
f(3) + g(3) = 8 + 1 = 9.
Therefore, the sum of f(3) and g(3) is 9.
When we are asked to find f(g(x)), it means we need to substitute the expression for g(x) into the function f(x). In this case, g(x) is equal to (x - 2), so we replace x in f(x) with (x - 2):
f(g(x)) = (x - 2)² - 1
To simplify this expression, we expand the square:
f(g(x)) = (x - 2)(x - 2) - 1
= x² - 4x + 4 - 1
= x² - 4x + 3
Thus, the composition of functions f and g is f(g(x)) = x² - 4x + 3. This is the main answer to the question.
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A clinical trial was conducted to test the effectiveness of a drug for treating insomnia in older subjects. Before treatment, 21 subjects had a mean wake time of 104.0 min. After treatment, the 21 subjects had a mean wake time of 82.8 min and a standard deviation of 23.3 min. Assume that the 21 sample values appear to be from a normally distributed population and construct a 95% confidence interval estimate of the mean wake time for a population with drug treatments. What does the result suggest about the mean wake time of 104.0 min before the treatment? Does the drug appear to be effective? Construct the 95% confidence interval estimate of the mean wake time for a population with the treatment. (Round to one decimal place as needed.) What does the result suggest about the mean wake time of 104.0 min before the treatment? Does the drug appear to be effective? The confidence interval drug treatment ?| the mean wake time of 104.0 min before the treatment, so the means before and after the treatment This result suggests that the Va significant effect.
We can say that the drug appears to be effective because the drug treatment reduced the mean wake time from 104.0 min to 82.8 min.
A clinical trial was conducted to test the effectiveness of a drug for treating insomnia in older subjects. The given information is as follows:
Before treatment, 21 subjects had a mean wake time of 104.0 min.
After treatment, the 21 subjects had a mean wake time of 82.8 min and a standard deviation of 23.3 min.
Assume that the 21 sample values appear to be from a normally distributed population and construct a 95% confidence interval estimate of the mean wake time for a population with drug treatments.
What does the result suggest about the mean wake time of 104.0 min before the treatment?
The mean wake time before the treatment was 104.0 min. After the treatment, the mean wake time is reduced to 82.8 min. As we know that the sample values appear to be from a normally distributed population, we can use the formula for a confidence interval to estimate the population parameter.
The 95% confidence interval estimate for the mean wake time for a population with drug treatment is given by:
x ± zσx
Where, x = mean wake time, σx = standard deviation, z = 1.96 (for 95% confidence interval), n = 21, mean wake time after treatment = 82.8, standard deviation = 23.3, mean wake time before treatment = 104.
Putting the values in the above formula, we get:
x = 82.8
n = 21
z = 1.96
σ = 23.3
Hence, the 95% confidence interval estimate of the mean wake time for a population with drug treatments is (72.8, 92.8).
This suggests that the mean wake time of 104.0 min before the treatment is outside the 95% confidence interval estimate, and there is a significant effect of the drug treatment.
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Define the term sequence, write at least three ways to determine it, and explain the difference between a general formula and a recurrent formula. Task (7 points): nth term of given sequence is defined as a = √an-1 and a₁ = 81.
a) Find its first four terms.
b) Find the formula for an as a function of n
A sequence is a ordered list of numbers or elements that follow a specific pattern or rule. Each number in the sequence is called a term. Sequences can be finite or infinite.
There are several ways to determine a sequence:
1) Explicit Definition: Each term of the sequence is directly defined using a formula or rule. For example, an explicit definition could be an = 2n, which means each term is twice the value of its corresponding index.
2) Recursive Definition: The terms of the sequence are defined based on previous terms. A recursive formula uses the values of one or more preceding terms to determine the value of the current term. For example, an = an-1 + 3, where each term is the sum of the previous term and 3.
3) Visual Pattern: In some cases, a sequence can be determined by observing a pattern visually. This method involves identifying a pattern or relationship between the terms by looking at their arrangement or values.
Difference between a general formula and a recursive formula:
A general formula (or explicit formula) directly expresses each term of the sequence in terms of its index or position. It provides a formulaic representation of the entire sequence without relying on previous terms. The general formula for a sequence allows us to calculate any term directly by substituting the corresponding index.
A recursive formula, on the other hand, defines each term of the sequence based on one or more previous terms. It describes how each term relates to the previous term(s) in the sequence. To determine a term using a recursive formula, we need to know the preceding terms and apply the recursive rule to generate the next term.
Now, let's solve the given task:
The sequence is defined by the recursive formula: an = √an-1, with a₁ = 81.
a) Find the first four terms:
a₁ = 81
a₂ = √a₁ = √81 = 9
a₃ = √a₂ = √9 = 3
a₄ = √a₃ = √3 ≈ 1.732
The first four terms of the sequence are: 81, 9, 3, 1.732.
b) Find the formula for an as a function of n:
To find a general formula, we can observe that each term is the square root of the previous term. Therefore, we can express it as:
an = √an-1
Starting with a₁ = 81, we can recursively apply the formula:
a₂ = √a₁
a₃ = √a₂
a₄ = √a₃
By continuing this pattern, we can see that the nth term is given by:
an = √(√(√(...√(√81)...)))
The number of square roots is equal to n - 1. Therefore, the formula for an as a function of n is:
an = √(√(√(...(√81)...))), with n - 1 square roots in total.
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