Answer:
50 units
General Formulas and Concepts:
Pre-Algebra
Order of Operations: BPEMDAS
Brackets Parenthesis Exponents Multiplication Division Addition Subtraction Left to RightEquality Properties
Trigonometry
[Right Triangles Only] Pythagorean Theorem: a² + b² = c²
a is a leg b is another leg c is the hypotenuseStep-by-step explanation:
Step 1: Define
a = 48
b = 14
c = ?
Step 2: Solve for c
Substitute in variables [Pythagorean Theorem]: 48² + 14² = c²Evaluate exponents: 2304 + 196 = c²Add: 2500 = c²[Equality Property] Square root both sides: 50 = cRewrite: c = 50the line y = x passes through (−3, 7) and is parallel to y = 4x − 1.
The equation of the line parallel to y = 4x - 1 and passing through (-3, 7) is y = 4x + 19.
To find the equation of the line parallel to y = 4x - 1 and passing through (-3, 7), we know that parallel lines have the same slope. The given line has a slope of 4. Since the line y = x also needs to have a slope of 4, we can write its equation as y = 4x + b. To find the value of b, we substitute the coordinates (-3, 7) into the equation. Thus, 7 = 4(-3) + b, which simplifies to b = 19. Therefore, the equation of the line parallel to y = 4x - 1 and passing through (-3, 7) is y = 4x + 19.
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Describe all solutions of Ax = 0 in parametric vector form, where A is row equivalent to the given matrix. 1 3 5 7 01-33 X=X3+X4 (Type an integer or fraction for each matrix element.)
The solutions of the equation Ax = 0, where A is row equivalent to the given matrix [1 3 5 7; 0 1 -3 -3], can be described in parametric vector form as x = t[-3; 3; 1; 0] + s[-7; 3; 0; 1], where t and s are real numbers.
To find the solutions of the equation Ax = 0, where A is row equivalent to the given matrix [1 3 5 7; 0 1 -3 -3], we perform row operations to bring the matrix to row-echelon form. After row reduction, we obtain the matrix [1 0 -14 -14; 0 1 -3 -3]. This corresponds to the system of equations:
x1 - 14x3 - 14x4 = 0
x2 - 3x3 - 3x4 = 0
We can rewrite this system as:
x1 = 14x3 + 14x4
x2 = 3x3 + 3x4
x3 = x3
x4 = x4
To express the solutions in parametric vector form, we introduce the parameters t and s, where t and s are real numbers. Then we have:
x1 = 14t + 14s
x2 = 3t + 3s
x3 = t
x4 = s
Combining these equations, we get:
x = t[-3; 3; 1; 0] + s[-7; 3; 0; 1]
This parametric vector form describes all solutions of Ax = 0. The values of t and s can vary independently, allowing for infinitely many solutions.
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Do we have always f(En F) = f(E) n f(F) if f : A + B, E, FCA
The statement "f(En F) = f(E) n f(F)" does not hold in general for all functions f: A → B and sets E, F ⊆ A.
The statement "f(En F) = f(E) n f(F)" does not hold in general for all functions f: A → B and sets E, F ⊆ A. To demonstrate this, let's consider a counterexample.
Counterexample:
Let A = {1, 2} be the domain, B = {1, 2, 3} be the codomain, and f: A → B be defined as follows:
f(1) = 1
f(2) = 2
Let E = {1} and F = {2}. Then, E ∩ F = ∅ (the empty set).
Now let's evaluate both sides of the equation:
f(E) = f({1}) = {1}
f(F) = f({2}) = {2}
f(En F) = f(∅) = ∅
We can see that {1} ∩ {2} = ∅, so f(E) ∩ f(F) = {1} ∩ {2} = ∅.
Therefore, f(En F) ≠ f(E) ∩ f(F), and the statement does not hold in this case. Hence, the general statement is not always true.
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The question is -
Do we have always f(En F) = f(E) n f(F) if f: A → B, E, F ⊆ A?
The data below represent a random sample of weekly snowfall amounts, in inches, in a certain city. Assume that the population is approximately normal. 0.8 1.8 0.8 1.19 0.4 a. Calculate the sample mean. b. Calculate the sample standard deviation. c. Construct a 90% confidence interval estimate for the population mean
a. The sample mean is 0.99
b. The sample standard deviation is 0.568
c. The 90% confidence interval estimate for the population mean is (0.203, 1.777).
a. To calculate the sample mean, we need to sum up all the data points and divide by the total number of data points. Let's calculate it:
Sample Mean = (0.8 + 1.8 + 0.8 + 1.19 + 0.4) / 5 = 0.99
b. To calculate the sample standard deviation, we'll use the formula:
Sample Standard Deviation = √((Σ(x - x')²) / (n - 1))
where Σ represents the sum, x is each data point, x' is the sample mean, and n is the sample size. Let's calculate it:
Calculate the squared deviations:
(0.8 - 0.99)² = 0.0361
(1.8 - 0.99)² = 0.8281
(0.8 - 0.99)² = 0.0361
(1.19 - 0.99)² = 0.0441
(0.4 - 0.99)^2 = 0.3481
Calculate the sum of squared deviations:
Σ(x - x')² = 0.0361 + 0.8281 + 0.0361 + 0.0441 + 0.3481 = 1.2925
Calculate the sample standard deviation:
Sample Standard Deviation = √(Σ(x - x')² / (n - 1))
=√(1.2925 / (5 - 1))
= √(0.323125)
≈ 0.568
c. To construct a 90% confidence interval estimate for the population mean, we'll use the formula:
Confidence Interval = (x' - z*(σ/√n),x' + z*(σ/√n))
where x is the sample mean, z is the z-value corresponding to the desired confidence level (90% corresponds to z = 1.645 for a one-tailed interval), σ is the population standard deviation (which we don't have, so we'll use the sample standard deviation as an estimate), and n is the sample size.
Let's calculate the confidence interval:
Confidence Interval = (0.99 - 1.645*(0.568/√5), 0.99 + 1.645*(0.568/√5))
= (0.99 - 0.787, 0.99 + 0.787)
= (0.203, 1.777)
Therefore, the 90% confidence interval estimate for the population mean is (0.203, 1.777).
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New-Homes Prices: If the average price of a new one-family home is $246,300 with a standard deviation of $15,000, find the minimum and maximum prices of the houses that a contractor will build to satisfy the middle 44% of the market. Assume that the variable is normally distributed. Round 2-value calculations to 2 decimal places and final answers to the nearest dollar.
To satisfy the middle 44% of the market, the contractor should build houses with prices ranging from $238,983 to $254,618.
To find the minimum and maximum prices of houses that satisfy the middle 44% of the market, we need to determine the cutoff prices.
Given that the variable (prices of new one-family homes) is normally distributed with an average of $246,300 and a standard deviation of $15,000, we can use the standard normal distribution to find the cutoff values.
Step 1: Convert the desired percentile to a z-score.
The middle 44% of the market corresponds to (100% - 44%) / 2 = 28% on each tail.
Step 2: Find the z-scores corresponding to the desired percentiles.
Using a standard normal distribution table or statistical software, we can find that the z-score corresponding to an area of 28% is approximately -0.5545.
Step 3: Convert the z-scores back to the original prices using the formula:
[tex]z = (x - \mu) / \sigma[/tex]
For the minimum price:
-0.5545 = (x - 246300) / 15000
Solving for x:
x - 246300 = -0.5545 * 15000
x - 246300 = -8317.5
x = 238982.5
For the maximum price:
0.5545 = (x - 246300) / 15000
Solving for x:
x - 246300 = 0.5545 * 15000
x - 246300 = 8317.5
x = 254617.5
Rounding the minimum and maximum prices to the nearest dollar, we get:
Minimum price: $238,983
Maximum price: $254,618
Therefore, to satisfy the middle 44% of the market, the contractor should build houses with prices ranging from $238,983 to $254,618.
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1. (a) Evaluate the following integrals (i) √ x√2x² −5 dx x cos 2x dx (ii) x+1 (iii) dx (x+2)(x+3) (3 Marks)
Evaluating the integrals results to
∫√(x√2x² - 5) dx = [tex]\sqrt{2} (x^{2} \sqrt{2} - 5) ^{1/2}[/tex] + C.
∫x cos(2x) dx = (1/2) x sin(2x) + (1/4) cos(2x) + C
∫ dx / ((x+2)(x+3)) = (1/5) ln|x+3| - (1/5) ln|x+2| + C.
How to evaluate the integralsevaluating the given integrals one by one:
(i) ∫√(x√2x² - 5) dx:
∫√(x√2x² - 5) dx = ∫√(x * x√2 - 5) dx = ∫√(x²√2 - 5) dx.
if u = x²√2 - 5.
du/dx = 2x√2,
dx = du / (2x√2)
substituting these values into the integral:
∫√(x²√2 - 5) dx = ∫√u * (du / (2x√2)) = (1 / (2√2)) ∫√u / x du.
factoring out [tex]u^{1/2}[/tex] / x, we get:
(1 / (2√2)) ∫([tex]u^{1/2}[/tex] / x) du
= (1 / (2√2)) ∫[tex]u^{1/2}[/tex] * u⁻¹ du
= (1 / (2√2)) ∫[tex]u^{-1/2}[/tex] du.
Integrating [tex]u^{-1/2}[/tex]
(1 / (2√2)) * (2[tex]u^{1/2}[/tex]) + C = √2[tex]u^{1/2}[/tex] + C,
where C is the constant of integration.
Finally, substitute back u = x²√2 - 5 to get the final result:
∫√(x√2x² - 5) dx = [tex]\sqrt{2} (x^{2} \sqrt{2} - 5) ^{1/2}[/tex] + C.
(ii) ∫x cos(2x) dx:
To evaluate this integral, we can use integration by parts.
if u = x and dv = cos(2x) dx.
du = dx and v = (1/2)sin(2x).
Using the integration by parts formula ∫u dv = uv - ∫v du, we can write:
∫x cos(2x) dx = (1/2)x sin(2x) - (1/2)∫sin(2x) dx.
Integrating sin(2x)
(1/2)x sin(2x) + (1/4)cos(2x) + C,
(iii) ∫dx / ((x+2)(x+3))
To evaluate the integral ∫ dx / ((x+2)(x+3)), we can use partial fraction decomposition.
∫ dx / ((x+2)(x+3)) = ∫ (A/(x+2) + B/(x+3)) dx.
multiplying both sides by (x+2)(x+3)
1 = A(x+3) + B(x+2).
Expanding and equating coefficients
1 = (A + B)x + (3A + 2B).
A + B = 0 and 3A + 2B = 1.
Solving these equations, we find A = -1/5 and B = 1/5.
Substituting the values of A and B back into the integral, we have:
∫ dx / ((x + 2) (x + 3)) = ∫ (-1/5(x + 2) + 1/5(x + 3)) dx,
= (-1/5) ln |x + 2| + (1/5) ln |x + 3| + C,
= (1/5) ln |x + 3| - (1/5) ln |x + 2| + C.
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Use a t-distribution to answer this question. Assume the samples are random samples from distributions that are reasonably normally distributed, and that a t-statistic will be used for inference about the difference in sample means. State the degrees of freedom used. Find the endpoints of the t-distribution with 2.5 % beyond them in each tail if the samples have sizes ni 14 and n2 = 28.
The endpoints of the t-distribution with 2.5% beyond them in each tail are: t* = ± 2.021.
In order to find the endpoints of the t-distribution with 2.5% beyond them in each tail, for samples of sizes n1= 14 and n2 = 28, given that samples are random and the distributions are normally distributed, we will use the t-distribution to answer this question.
The formula used to determine the endpoints of the t-distribution is given as follows:
t* = ± t(α/2, df),
where the degrees of freedom used are
df = n1 + n2 - 2
and
α = 0.025 (because we want 2.5% beyond the endpoints in each tail).
Substituting in the values of n1 and n2, we have df = 14 + 28 - 2 = 40.
Using a t-distribution table or a calculator, we can determine that the t-value for α/2 with 40 degrees of freedom is t(0.025/2, 40) = ± 2.021.
Therefore, the endpoints of the t-distribution with 2.5% beyond them in each tail are:
t* = ± 2.021.
The answer is: t* = ± 2.021.
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Let É be a non-negative integer-valued random variable and © be its generating function. Express E[83] in terms of ♡ and its derivatives: 3 = EICS) -Σουφο) + bx®(k)(1). For each of the following quantities select the corresponding coefficient. Choose.... Choose... Choose... 6(1)(0) 6(1)(1) 8(2)(0) 0(3)(0) 0(3)(1) 0(2)(1) Choose... Choose.... Choose...
Given that E [83] in terms of ♡ and its derivatives: 3 = EICS) -Σουφο) + bx®(k)(1)
Given, generating function © is non-negative integer-valued random variable where c(x) = E[ x©]. To express E[83] in terms of ♡ and its derivatives let’s find ©(1) = E[©].
Derivative of c(x) isc1(x) = E[© x© -1]
Evaluating c1(1) = E[©1] = E[©] = ©(1)
Similarly, second derivative of c(x) isc2(x) = E[©(© - 1)x© - 2]
Evaluating c2(1) = E[©(© - 1)] = E[©2 - ©]E[©2] - E[©] = ©(2) - ©(1)
We are given 3 = EICS) -Σουφο) + bx®(k)(1)
Thus, 83 = c3(1) - 3c2(1) + 2c1(1)
Putting the values c1(1) = ©(1) and c2(1) = ©(2) - ©(1)©(1) = E[©] = 3/5©(2) = E[©(© - 1)] + E[©] = 13/25
Thus, 83 = c3(1) - 3c2(1) + 2c1(1) = E[©(© - 1)(© - 2)] - 3[©(2) - ©(1)] + 2©(1)
Putting the value of ©(1) and ©(2)83 = E[©(© - 1)(© - 2)] - 3[13/25 - 3/5] + 2[3/5]83 = E[©(© - 1)(© - 2)] - 9/5 + 6/583 = E[©(© - 1)(© - 2)] + 1/5
Comparing the above expression with bx®(k)(1) the coefficient of x83 is 8(2)(0) . Thus, the answer is 8(2)(0).Note: Here, bx®(k)(1) means the coefficient of x83 in the expression of x®(k)(1).
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if x has a binomial distribution with n = 150 and the success probability p = 0.4, fnd the following probabilities approximately:
a. P(48 < X < 66) b. P(X> 69) c. P(48 X < 65) d. P(X < 60) e. P(X<60)
if x has a binomial distribution with n = 150 and the success probability p = 0.4, find the following probabilities are
a. P(48<X<66)≈0.9545
b. P(X>69)≈0.0228
c. P(48≤X≤65)≈0.8413
d. P(X<60)≈0.1587
e. P(X≤60)≈0.5000
We will utilize the typical guess to the binomial dispersion to discover the taking after probabilities.
For binomial dissemination with n trials and victory likelihood p, the cruel is np and the standard deviation is √{np(1-p)}.
In this case, n=150 and p=0.4, so the cruel is np=60 and the standard deviation is √{np(1-p)}=6.
a) To discover the probability that X is between 48 and 66, we will utilize the typical estimation to discover the region beneath the typical bend between 48 and 66. This area is roughly 0.9545.
b) To discover the likelihood that X is more noteworthy than 69, we are able to utilize the ordinary estimation to discover the zone under the typical bend to the proper of 69. This zone is around 0.0228.
c) To discover the likelihood that X is between 48 and 65, we will utilize the typical estimation to discover the range beneath the ordinary bend between 48 and 65. This range is roughly 0.8413.
d) To discover the likelihood that X is less than 60, we will utilize the typical estimation to discover the range beneath the ordinary bend to the cleared out of 60. This range is around 0.1587.
e) To discover the likelihood that X is less than or rises to 60, ready to utilize the typical estimation to discover the range beneath the ordinary bend to the cleared out of 60. This range is around 0.5000.
In this manner, the surmised probabilities are as takes after:
a. P(48<X<66)≈0.9545
b. P(X>69)≈0.0228
c. P(48≤X≤65)≈0.8413
d. P(X<60)≈0.1587
e. P(X≤60)≈0.5000
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Use the Integral Test to determine whether the series is convergent or divergent.
[infinity] n
n2 + 6
n = 1
Evaluate the following integral.
[infinity] 1
x
x2 + 6
dx
The series ∑ₙ=₁ to ∞ (n/n² + 6) is divergent.
To determine whether the series ∑ₙ=₁ to ∞ (n/n² + 6) is convergent or divergent, we can use the Integral Test.
The Integral Test states that if f(x) is a continuous, positive, and decreasing function on the interval [1, ∞) and f(n) = aₙ for all positive integers n, then the series ∑ₙ=₁ to ∞ aₙ and the integral ∫₁ to ∞ f(x) dx either both converge or both diverge.
In this case, let's consider the function f(x) = x/(x² + 6). We can check if it meets the conditions of the Integral Test.
Positivity: The function f(x) = x/(x² + 6) is positive for all x ≥ 1.
Continuity: The function f(x) = x/(x² + 6) is a rational function and is continuous for all x ≥ 1.
Decreasing: To check if the function is decreasing, we can take the derivative and analyze its sign:
f'(x) = (x² + 6 - x(2x))/(x² + 6)² = (6 - x²)/(x² + 6)²
The derivative is negative for all x ≥ 1, which means that f(x) is a decreasing function on the interval [1, ∞).
Since the function f(x) = x/(x² + 6) satisfies the conditions of the Integral Test, we can evaluate the integral to determine if it converges or diverges:
∫₁ to ∞ x/(x² + 6) dx
To evaluate this integral, we can perform a substitution:
Let u = x² + 6, then du = 2x dx
Substituting these values, we have:
(1/2) ∫₁ to ∞ du/u
Taking the integral:
(1/2) ln|u| evaluated from 1 to ∞
= (1/2) ln|∞| - (1/2) ln|1|
= (1/2) (∞) - (1/2) (0)
= ∞
The integral ∫₁ to ∞ x/(x² + 6) dx diverges since it evaluates to ∞.
According to the Integral Test, since the integral diverges, the series ∑ₙ=₁ to ∞ (n/n² + 6) also diverges.
Therefore, the series ∑ₙ=₁ to ∞ (n/n² + 6) is divergent.
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Incomplete question:
Use the Integral Test to determine whether the series is convergent or divergent.
∑ₙ=₁ to ∞ = n/n² + 6
Evaluate the following integral ∫₁ to ∞ x/x²+6 . dx
Let N=12=22+2³.
Given that M²=51 (mod 59), what is M¹² (mod 59)?
3
7
30 36 Let N = 12 = 22 + 23.
Given that M2 ≡ 51 (mod 59), what is M12 (mod 59)?
I'm having a hard time figuring this out, I'd appreciate a walkthrough! I've seen a few similar questions explained online but it seems like there is a jump in logic in part of the answer that I'm not understanding.
Thanks in advance!
M¹² is congruent to 36 modulo 59.
What is congruent?
The term “congruent” means exactly equal shape and size. This shape and size should remain equal, even when we flip, turn, or rotate the shapes.
To find M¹² (mod 59), we need to use the given equation M² ≡ 51 (mod 59) and apply exponentiation rules to simplify the calculation. Let's break down the steps:
First, let's rewrite N = 12 = 2² + 2³.
We know that M² ≡ 51 (mod 59). We can raise both sides of this congruence to the power of 6 (which is 12 divided by the highest power of 2 in the decomposition of N) to get:
(M²)⁶ ≡ 51⁶ (mod 59).
By applying the exponentiation rule (aⁿ ≡ bⁿ (mod m)), we have:
M¹² ≡ 51⁶ (mod 59).
Now, we need to calculate 51⁶ (mod 59). To simplify the calculation, we can reduce 51 (mod 59) and observe a pattern:
51 ≡ -8 (mod 59).
Now, let's find the powers of -8 (mod 59):
(-8)² ≡ 64 ≡ 5 (mod 59),
(-8)³ ≡ -8 * 5 ≡ -40 ≡ 19 (mod 59),
(-8)⁴ ≡ 5² ≡ 25 (mod 59),
(-8)⁵ ≡ -8 * 25 ≡ -200 ≡ 38 (mod 59),
(-8)⁶ ≡ 5 * 38 ≡ 190 ≡ 36 (mod 59).
Therefore, we have found that 51⁶ ≡ 36 (mod 59).
Finally, substituting this result back into the equation M¹² ≡ 51⁶ (mod 59), we get:
M¹² ≡ 36 (mod 59).
Hence, M¹² is congruent to 36 modulo 59.
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What is QR ? Enter your answer in the box. Units The figure shows what appears to be obtuse triangle Q R S with obtuse angle R. Point T is on side Q R. Single tick marks pass through segments Q T and T R. Point U is on side R S. Double tick marks pass through segments R U and U S. Point V is on side S Q. Triple tick marks pass through segments S V and V Q. Segment T V is drawn and has length 5. 4. Segment U V is drawn and has length 6
QR refers to a Quick Response code that is similar to a barcode that can be scanned with a smartphone to read the information it holds.
The Quick Response (QR) code is a type of two-dimensional (2D) matrix barcode that consists of black and white square dots arranged in a square grid on a white background. QR codes are frequently used to encode URLs or other information that can be scanned and read by a smartphone. They are used in a variety of applications, including advertising, product packaging, and business cards.To explain the given figure, an obtuse triangle QRS is given, which has an obtuse angle R. Point T is on side QR, Point U is on side RS, and Point V is on side SQ. Single tick marks pass through segments QT and TR.Double tick marks pass through segments RU and US.Triple tick marks pass through segments SV and VQ. Segment TV is drawn, which has a length of 5 units, and segment UV is drawn, which has a length of 6 units.For such more questions on QR
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Calculate the mean function of the random process.X(t) = A cos(wet+) if the amplitude A is uniformly distributed random variable over (-1,2) while the phase e and the frequency We are constants. Can X(t) be wide sense stationary?
The mean function of the random process. X(t) is:μ(t) = E[X(t)] = (1/3) [sin (4πt + 2Ө) - sin (2πt + Ө)].
Given X(t) = A cos(wet + Ө), where the amplitude A is a uniformly distributed random variable over (-1, 2), while the phase Ө and the frequency we are constants.
To calculate the mean function of the random process, we know that the mean is defined as E[X(t)].
Therefore, E[X(t)] = E[A cos(wet + Ө)]
We know that A is uniformly distributed over (-1,2).
The probability density function of a uniform distribution over (a, b) is f(x) = 1/(b - a) if a ≤ x ≤ b and 0 otherwise.
Using this probability density function, the mean of A is given by E[A] = (2 + (-1))/2 = 0.5.
We can apply the Law of Total Probability to calculate E[X(t)] as follows:
E[X(t)] = E[A cos (wet + Ө)] = ∫cos (wet + Ө) f(A) dA (from -1 to 2) = ∫cos (wet + Ө) (1/3) dA (from -1 to 2) = (1/3) [sin (2wet + 2Ө) - sin (wet + Ө)] (from -1 to 2) = (1/3) [sin (4πt + 2Ө) - sin (2πt + Ө)].
Therefore, the mean function of X(t) is:μ(t) = E[X(t)] = (1/3) [sin (4πt + 2Ө) - sin (2πt + Ө)].
We can find the autocorrelation function of X(t) as follows: R (t1, t2) = E[X(t1) X(t2)] = E[A cos (wet1 + Ө)A cos (wet2 + Ө)].
The product of two cosine functions can be written in terms of the sum of the cosine and sine functions as follows: cos(x)cos(y) = (1/2)[cos (x + y) + cos (x - y)] sin (x)sin(y) = (1/2) [cos (x - y) - cos (x + y)]
Therefore, A cos (wet1 + Ө)A cos (wet2 + Ө) = (1/2)A² [cos (wet1 + wet2 + 2Ө) + cos (wet1 - wet2)] + (1/2)A² [cos (wet1 - wet2) - cos (wet1 + wet2 + 2Ө)]
We can find the expected value of this expression as follows: E[A cos(wet1 + Ө)A cos(wet2 + Ө)] = (1/2)E[A²] [cos(wet1 + wet2 + 2Ө) + cos(wet1 - wet2)] + (1/2)E[A²] [cos(wet1 - wet2) - cos(wet1 + wet2 + 2Ө)] = (1/3) [cos(wet1 + wet2 + 2Ө) + cos(wet1 - wet2)]
Therefore, R(t1, t2) = E[X(t1) X(t2)] = (1/3) [cos (wet1 + wet2 + 2Ө) + cos (wet1 - wet2)]
Therefore, X(t) is wide-sense stationary, as the mean function and autocorrelation function depend only on the time difference t1 - t2, and not on the absolute values of t1 and t2.
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In a moth population, 47 are brown, 15 are yellow, and 34 are black. What is the approximate probability of a moth being black?
A. 2%
B. 49%
C. 16%
D. 35%
The correct answer is D. 35%. There is a 35% chance that a randomly selected moth from the population will be black.
To find the approximate probability of a moth being black, we need to divide the number of black moths by the total number of moths in the population.
Total number of moths = 47 (brown) + 15 (yellow) + 34 (black) = 96
Number of black moths = 34
Probability of a moth being black = (Number of black moths) / (Total number of moths) = 34 / 96 ≈ 0.3542
Rounded to the nearest percent, the approximate probability of a moth being black is 35%. Therefore, the correct answer is D. 35%.
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d) add a kalman filter to this system and attempt to remove the additional noise. hint: remember to switch the system to continuous time!
To add a Kalman filter to the system and remove additional noise, we need to switch the system to continuous time. The Kalman filter is commonly used in continuous-time systems.
The Kalman filter is designed to estimate the state of a dynamic system in the presence of measurement noise and process noise. It requires a mathematical model that describes the system dynamics and measurement process. In this context, we don't have access to the underlying system dynamics and noise characteristics.
Therefore, applying a Kalman filter to the given data would not be appropriate as it is not a continuous-time system, and the necessary system dynamics and noise models are not provided. The Kalman filter is more commonly used in scenarios involving continuous-time systems with known dynamics and noise characteristics, where it can effectively estimate the state and remove noise.
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How many distinct squares can a chess knight reach after n moves on an infinite chessboard? (The knight's moves are L-shaped: two squares either
up, down, left, or right and then one square in a perpendicular direction.) Use, induction and a formula.
The number of distinct squares a chess knight can reach after n moves on an infinite chessboard can be determined using an induction argument and a formula.
The formula involves finding a pattern in the number of reachable squares as the number of moves increases.
Let's consider the base case where n = 0. When the knight hasn't made any moves, it is on a single square, so the number of reachable squares is 1.
Now, assume that for some positive integer k, the knight can reach F(k) distinct squares after k moves. We want to show that the knight can reach F(k+1) distinct squares after k+1 moves.
To reach F(k+1) distinct squares, the knight must be on a square that has adjacent squares from which it can make its next move. The knight can move to each of those adjacent squares in one move, and from there it can reach F(k) distinct squares. Therefore, the total number of distinct squares reachable after k+1 moves is F(k+1) = F(k) + 8, since the knight has 8 possible adjacent squares.
Using this recursive formula, we can find F(n) for any positive integer n. For example, F(1) = F(0) + 8 = 1 + 8 = 9, F(2) = F(1) + 8 = 9 + 8 = 17, and so on.
In summary, the number of distinct squares a chess knight can reach after n moves can be calculated using the formula F(n) = F(n-1) + 8, where F(0) = 1.
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z is a standard normal random variable. The P(-1.96 z -1.4) equals a. 0.4192 b. 0.0558 c. 0.8942 d. 0.475
As z is a standard normal random variable the P(-1.96 < z < -1.4) equals to 0.0558. Option B is the correct answer.
To solve the problem, we can use the standard normal distribution table or a calculator to find the probability corresponding to the given range.
P(-1.96 < z < -1.4) represents the probability that a standard normal random variable z falls between -1.96 and -1.4.
Using the standard normal distribution table or a calculator, we can find the cumulative probability associated with each value:
P(z < -1.96) = 0.025
P(z < -1.4) = 0.0808
To find the probability between the two values, we subtract the smaller cumulative probability from the larger one:
P(-1.96 < z < -1.4) = P(z < -1.4) - P(z < -1.96) = 0.0808 - 0.025 = 0.0558
Therefore, the answer is option b) 0.0558.
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Evaluate the series below using summation properties and rules: Di-1 (31) Type your answer__Сл 5 Evaluate the series below using summation properties and rules: L-1(-2i+6) Type your answer__ Evaluate the series below: Σ((-3):) Type your answer__
The series Di-1 (31) evaluates to 31. the series L-1(-2i+6) evaluates to 0.the series Σ((-3):) evaluates to 0.
Given:Di-1 (31)Evaluating the series using summation properties and rules:We need to substitute the i value in the series as it starts from i=1 and ends at i=5.i = 1, Di-1 (31) = D₀(31) = 31i = 2, Di-1 (31) = D₁(31) = 0i = 3, Di-1 (31) = D₂(31) = 0i = 4, Di-1 (31) = D₃(31) = 0i = 5, Di-1 (31) = D₄(31) = 0
Therefore, the series is:Di-1 (31) = 31 + 0 + 0 + 0 + 0 = 31
Hence, the series Di-1 (31) evaluates to 31.
L-1(-2i+6)
Evaluating the series using summation properties and rules:We need to substitute the i value in the series as it starts from i=1 and ends at i=5.i = 1, L-1(-2i+6) = L-3 = 0i = 2, L-1(-2i+6) = L-1(2) = 4i = 3, L-1(-2i+6) = L₁(6) = 4i = 4, L-1(-2i+6) = L₃(10) = -4i = 5, L-1(-2i+6) = L₅(14) = -8
Therefore, the series is:L-1(-2i+6) = 0 + 4 + 4 - 8 = 0
Hence, the series L-1(-2i+6) evaluates to 0.
Σ((-3):)
Evaluating the series using summation properties and rules:We need to substitute the i value in the series as it starts from i=-3 and ends at i=3.i = -3, Σ((-3):) = -3i = -2, Σ((-3):) = -2 + -3i = -1, Σ((-3):) = -1 + -2 + -3i = 0, Σ((-3):) = 0 + -1 + -2 + -3 +i = 1, Σ((-3):) = 1 + 0 + -1 + -2 + -3 +i = 2, Σ((-3):) = 2 + 1 + 0 + -1 + -2 + -3 +i = 3, Σ((-3):) = 3 + 2 + 1 + 0 + -1 + -2 + -3 = -0
Therefore, the series is:Σ((-3):) = -3 - 2 - 1 + 0 + 1 + 2 + 3 = 0
Hence, the series Σ((-3):) evaluates to 0.
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Jenny has three bags, one white, one yellow, one orange. Each bag contains 20 identically sized balls. The white bag has 5 blue balls, the yellow bag has 10 blue balls, and the orange bag has blue balls. The rest of the balls are red
She now draws balls from the bags, one ball each time and replacing each ball picked before picking the next
If a blue ball is picked from the white bag, Jenny next picks from the yellow bag, otherwise she next picks from orange bag. If a blue ball is picked from the yellow bag, Jenny next picks from the orange bag, otherwise she next picks from white bag. If a blue ball is picked from the orange bag, Jenny next picks from the white bag, otherwise she next picks from yellow bag.
If Jenny starts her draw from the white bag, compute the probability that
The first 4 balls she drew are blue
After 5 draws, she has not drawn from the orange bag
The probability that Jenny draws 4 consecutive blue balls from different bags is 1/64. The probability that after 5 draws she has not drawn from the orange bag is 1023/1024.
To compute the probability that the first 4 balls Jenny drew are blue, we need to consider the sequence of draws.
Since each bag is equally likely to be picked at each step, the probability of drawing a blue ball from the white bag is 5/20 = 1/4, and the probability of drawing a blue ball from the yellow bag is 10/20 = 1/2.
Therefore, the probability of drawing 4 consecutive blue balls is (1/4) * (1/2) * (1/4) * (1/2) = 1/64.
To compute the probability that after 5 draws Jenny has not drawn from the orange bag, we need to consider the possibilities for the first 5 draws.
Since Jenny starts from the white bag, there are two cases: either she draws 5 blue balls (all from the white and yellow bags) or she draws at least one non-blue ball.
The probability of drawing 5 consecutive blue balls is (1/4)^5 = 1/1024.
Therefore, the probability of not drawing from the orange bag after 5 draws is 1 - 1/1024 = 1023/1024.
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Consider an (m, n) systematic linear block code and let r = n – m. Giving an m x n encoding matrix G, show that there exists an r xn parity-check matrix H such that T (a) (5%) GH" = 0 (b) (5%) Each row of H, denoted as hi, 1
Yes, there exists an r x n parity-check matrix H such that GH^T = 0.
To show the existence of an r x n parity-check matrix H such that GH^T = 0, we need to construct H based on the given m x n encoding matrix G.
Let's first understand the structure of G. The encoding matrix G for a systematic linear block code with parameters (m, n) has the following form:
G = [I_m | P],
where I_m is the m x m identity matrix and P is an m x r matrix containing the parity-check bits. The identity matrix I_m represents the systematic part of the code, which directly maps the information bits to the codeword.
The matrix P represents the parity-check part of the code, which ensures that the codeword satisfies certain parity-check equations.
To construct the parity-check matrix H, we need to find a matrix such that when multiplied by G^T, the result is zero. In other words, we want H to satisfy the equation GH^T = 0.
Let's denote the rows of H as h_i, where 1 <= i <= r. Since GH^T = 0, each row h_i should satisfy the equation:
h_i * G^T = 0,
where "*" denotes matrix multiplication.
Expanding the above equation, we have:
[h_i | h_i * P^T] = 0,
where h_i * P^T represents the dot product of h_i and the transpose of matrix P.
Since the first m columns of G are an identity matrix I_m, we can write the above equation as:
[h_i | h_i * P^T] = [0 | h_i * P^T] = 0.
This implies that h_i * P^T = 0.
Therefore, to satisfy the equation GH^T = 0, we can construct H such that each row h_i is orthogonal to the matrix P. In other words, h_i should be a valid codeword of the dual code of the systematic linear block code generated by G.
To summarize, the existence of an r x n parity-check matrix H such that GH^T = 0 relies on constructing H such that each row h_i is orthogonal to the matrix P, i.e., h_i * P^T = 0. The dual code of the systematic linear block code generated by G provides valid codewords for H.
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Which of the following is the average rate of change over the interval [−5, 10] for the function g(x) = log2(x^6) − 3?
a. 0
b. 2
c. 3
d. 6
Therefore, the average rate of change over the interval [−5, 10] for the function g(x) = log2(x^6) − 3 is -16/5.So, the correct option is (none of these).Answer: (none of these)
The given function is g(x) = log2(x^6) − 3 and we are to find the average rate of change over the interval [−5, 10].To find the average rate of change of the function g(x) over the interval [a, b], we use the following formula:average rate of change = (f(b) - f(a))/(b - a)where f(a) and f(b) are the values of the function at the endpoints of the interval [a, b].Hence, the average rate of change of the function g(x) over the interval [−5, 10] is given by:average rate of change = (g(10) - g(-5))/(10 - (-5))We now need to evaluate g(10) and g(-5).We have g(x) = log2(x^6) − 3Putting x = 10, we get:g(10) = log2(10^6) − 3 = 6log2(10) − 3Putting x = -5, we get:g(-5) = log2((-5)^6) − 3 = log2(15625) − 3Thus,average rate of change = (6log2(10) − 3 − (log2(15625) − 3))/(10 - (-5))= (6log2(10) − log2(15625))/15= (6 log2(10/15625))/15= (6 log2(2/3125))/15= (6 (-8))/15= -48/15= -16/5
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The option that represents the average rate of change over the interval [−5, 10] for the function g(x) = [tex]log2(x^6) − 3[/tex] is -0.4194.
We are to determine the average rate of change over the interval [−5, 10] for the function,
g(x) = [tex]log2(x^6) − 3.[/tex]
The average rate of change is defined as the ratio of the change in y to the change in x.
It is the slope of the line that contains the endpoints of the given interval.
We are given that g(x) = [tex]log2(x^6) − 3[/tex] and we want to find the average rate of change of this function over the interval [−5, 10].
We have the following formula to find the average rate of change over an interval for a function:
[tex]\frac{g(b)-g(a)}{b-a}[/tex]
Where a and b are the endpoints of the interval.
Here, a = -5 and b = 10.
We have:
g(a) = g(-5)
= [tex]log2[(-5)^6] - 3[/tex]
= log2[15625] - 3
≈ 9.291
g(b) = g(10)
= [tex]log2[10^6] - 3[/tex]
= 6 - 3
= 3
Therefore, the average rate of change of g(x) over the interval [-5, 10] is given by:
[tex]\frac{g(b)-g(a)}{b-a}=\frac{3-9.291}{10-(-5)}[/tex]
=[tex]\frac{-6.291}{15}[/tex]
=[tex]\boxed{-0.4194}[/tex]
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If two entire functions agree on a segment of the real axis, must they agree on C?
No, if two entire functions agree on a segment of the real axis, it does not necessarily imply that they agree on the complex plane.
While it is true that two entire functions that agree on a segment of the real axis will have the same Taylor series expansion and hence the same values on the real line, this does not guarantee that they will agree on the entire complex plane. The behavior of complex functions can differ significantly from their behavior on the real line.
Consider, for example, the entire functions [tex]f(z) = e^z[/tex] and [tex]g(z) = e^-^z^\\^2^[/tex]. These functions agree on the real axis, [tex]e^z[/tex] and [tex]e^-^z^\\^2^[/tex] both reduce to e^x for real values of x. However, on the complex plane, these functions have distinct behaviors. While f(z) is an entire function that grows exponentially in all directions, g(z) has a Gaussian-like shape and decays rapidly as the imaginary part of z increases.
Therefore, agreement on a segment of the real axis does not imply agreement on the entire complex plane, as the complex behavior of functions can be vastly different from their behavior on the real line.
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Find two linearly independent solutions of
y" + 1xy = 0 of the form
y_1 = 1 + a_3x^3 + a_6x^6 + -----)
y_2 = x+ b_4x^4 + b_7 + x^7+-----)
Enter the first few coefficients:
Enter
a_3= _______
a_6= _______
b_4= _____
b_7= _____
The differential equation given is y" + xy = 0. The required task is to find two linearly independent solutions of the given equation of the given form. The first solution is y1 = 1 + a3x³ + a6x⁶ + .........
The first derivative of y1 is given by y'1 = 0 + 3a3x² + 6a6x⁵ + ..........Differentiating once more, we get, y"1 = 0 + 0 + 30a6x⁴ + ..........Substituting the value of y1 and y"1 in the given differential equation, we get:0 + x(1 + a3x³ + a6x⁶ + ..........) = 0(1 + a3x³ + a6x⁶ + ..........) = 0For this equation to hold true, a3 = 0 and a6 = 0. Therefore, y1 = 1 is one of the solutions. The second solution is y2 = x + b4x⁴ + b7x⁷ + ...........
The first derivative of y2 is given by y'2 = 1 + 4b4x³ + 7b7x⁶ + ..........Differentiating once more, we get, y"2 = 0 + 12b4x² + 42b7x⁵ + ..........Substituting the value of y2 and y"2 in the given differential equation, we get:0 + x(1 + b4x⁴ + b7x⁷ + ........) = 0(1 + b4x⁴ + b7x⁷ + ........) = 0For this equation to hold true, b7 = 0 and b4 = -1. Therefore, y2 = x - x⁴ is the second solution. The required coefficients are as follows:a3 = 0a6 = 0b4 = -1b7 = 0
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rectangle has a perimeter of 64.8 millimeters and a base of 15.8 millimeters. What is the height?
The height of the rectangle is 16.6 millimeters.
To find the height of a rectangle, we can use the formula for the perimeter of a rectangle, which states that the perimeter is equal to twice the sum of its length and width. In this case, the base of the rectangle is given as 15.8 millimeters, and the perimeter is given as 64.8 millimeters.
Let's denote the height of the rectangle as h. Using the formula, we can express the given information as:
Perimeter = 2 × (Base + Height)
Substituting the given values, we have:
64.8 = 2 × (15.8 + h)
To solve for h, we first simplify the equation by multiplying the values inside the parentheses:
64.8 = 2 × 15.8 + 2 × h
Next, we simplify further:
64.8 = 31.6 + 2h
Subtracting 31.6 from both sides:
64.8 - 31.6 = 2h
33.2 = 2h
To isolate h, we divide both sides by 2:
33.2/2 = h
16.6 = h
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Suppose that the number of patients arriving at an emergency room is N, each of which is classified into two types (A and B). Type A are those who require assistance in no more than 15 mins and type B no more than 30 mins. It has been estimated that the probability of type A patients that the emergency room receives per day is p. Determine, using conditional expectation properties, on average how many type B patients are seen in the emergency room.
On average, the number of type B patients seen in the emergency room is N * [(1 - p) / (1 - p + q/2)].
On average, the number of type B patients seen in the emergency room can be determined using conditional expectation properties. The answer is as follows:
The average number of type B patients seen in the emergency room can be calculated by considering the conditional expectation of the number of type B patients given that a patient is not of type A.
Let's denote this average number as E(B|not A).
Since the probability of a patient being type A is p, the probability of a patient not being type A is 1 - p.
Let's denote this probability as q = 1 - p.
The conditional probability of a patient being type B given that they are not type A is the probability of being type B (30-minute requirement) divided by the probability of not being type A (15-minute requirement).
This can be written as P(B|not A) = (1 - p) / (1 - p + q/2), where q/2 represents the probability of a patient being type B.
Using conditional expectation properties, we can calculate the average number of type B patients as E(B|not A) = N * P(B|not A).
Therefore, on average, the number of type B patients seen in the emergency room is N * [(1 - p) / (1 - p + q/2)].
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A square piece of paper 10 cm on a side is rolled to form the lateral surface area of a right circulare cylinder and then a top and bottom are added. What is the surface area of the cylinder? Round your final answer to the nearest hundredth if needed. 13) 6+ А Triangle ABC is going to be translated.
The total surface area of the cylinder is approximately 116.28 cm² (rounded to two decimal places).
To find the surface area of the cylinder, we need to first find the height of the cylinder. We know that the circumference of the base of the cylinder is equal to the length of the square paper, which is 10 cm.
The formula for the circumference of a circle is C = 2πr, where C is the circumference and r is the radius. Since we know that the circumference is 10 cm, we can solve for the radius:
10 = 2πr
r = 5/π
Now that we know the radius, we can find the height of the cylinder. The height is equal to the length of the square paper, which is 10 cm.
So, the surface area of the lateral surface of the cylinder is given by:
Lateral Surface Area = 2πrh
= 2π(5/π)(10)
= 100 cm²
The surface area of each end of the cylinder (i.e., top and bottom) is equal to πr². So, the total surface area of both ends is:
Total End Surface Area = 2πr²
= 2π(5/π)²
= 50/π cm²
Therefore, the total surface area of the cylinder is:
Total Surface Area = Lateral Surface Area + Total End Surface Area
= 100 + (50/π)
≈ 116.28 cm² (rounded to two decimal places)
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Determine whether the lines 2x + 5y =7 and 5x +2y =2 are
perpendicular
true or false
To find whether the lines 2x + 5y =7 and 5x +2y =2 are perpendicular or not, first find the slope of the lines. Then check whether the slopes are negative reciprocal to each other. If yes, then they are perpendicular and if no, then they are not perpendicular.
The slope of a line is given by the formula y = mx + b where m is the slope. Rearranging the given equations in this form:2x + 5y = 7 Simplifying,2x + 5y - 2x = 7 - 2x multiplying by -1 and reversing the signs,5y = -2x + 7Dividing by 5 on both sides, y = (-2/5)x + 7/5Slope, m1 = -2/5
Similarly, for the second equation,5x + 2y = 2 Simplifying,5x + 2y - 5x = 2 - 5x multiplying by -1 and reversing the signs,2y = -5x + 2 Dividing by 2 on both sides, y = (-5/2)x + 1Slope, m2 = -5/2 Now, check if the slopes are negative reciprocals. If yes, then they are perpendicular m1 * m2 = (-2/5) * (-5/2) = 1So, m1 * m2 = 1 which is true and thus the given lines are perpendicular to each other. Hence, the statement "the lines 2x + 5y =7 and 5x +2y =2 are perpendicular" is true.
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The approximation of I = scos (x2 + 5) dx using simple Simpson's rule is: COS -1.57923 0.54869 -0.93669 -0.65314
The approximation of the integral I = ∫s⋅cos(x² + 5) dx using simple Simpson's rule is: -1.57923.
Simpson's rule is a numerical method used to approximate definite integrals. It divides the interval of integration into several subintervals and approximates the integral using quadratic polynomials. In simple Simpson's rule, the number of subintervals is even.
The formula for simple Simpson's rule is:
I ≈ h/3 [f(x₀) + 4f(x₁) + 2f(x₂) + 4f(x₃) + 2f(x₄) + ... + 2f(xₙ₋₂) + 4f(xₙ₋₁) + f(xₙ)],
where h is the step size and n is the number of subintervals.
In this case, the function to be integrated is f(x) = s⋅cos(x² + 5), and we have the values of x and f(x) at each subinterval. By applying the formula of simple Simpson's rule and substituting the given values, we can calculate the approximation.
Based on the provided information, it appears that the approximation obtained using simple Simpson's rule is -1.57923. However, it is important to note that without additional context or information about the specific subintervals and step size, it is not possible to verify or provide a more detailed explanation of the calculation.
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Perform 2 iterations of the chebyshev method to find an approximate value of 1/7. Take the initial approximation as Xo=0.1
After two iterations of the Chebyshev method with an initial approximation of X0 = 0.1, the approximate value of 1/7 is -0.5.
To perform two iterations of the Chebyshev method, we start with the initial approximation Xo = 0.1 and use the formula:
Xn+1 = 2Xn - (7Xn^2 - 1)
Using the initial approximation X0 = 0.1:
X1 = 2 * 0.1 - (7 * 0.1^2 - 1)
= 0.2 - (0.7 - 1)
= 0.2 - 0.3
= -0.1
Using X1 as the new approximation:
X2 = 2 * (-0.1) - (7 * (-0.1)^2 - 1)
= -0.2 - (0.7 - 1)
= -0.2 - 0.3
= -0.5
After two iterations of the Chebyshev method, the approximate value of 1/7 using the initial approximation X0 = 0.1 is -0.5.
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A square has an area of 36 m^2. What is the length of each side?
Answer:
6 m
Step-by-step explanation:
a = [tex]s^{2}[/tex]
36 = [tex]6^{2}[/tex]
Each side is 6 m.
Helping in the name of Jesus.
Answer:
6 meters (In the Name of Jesus, I am helping others, Amen).
Step-by-step explanation:
If a square has an area of 36 m², then the length of each side can be found by taking the square root of the area since the area of a square is equal to the length of one side squared.
So, we can find the length of each side of the square as follows:
Side length = √(Area)
Side length = √(36 m²)
Side length = 6 m
Therefore, the length of each side of the square is 6 meters.