The closer the value of r to O the greater the variation around the line of best fit. Different... Are there guidelines to interpreting Pearson's correlation coefficient? Yes, the following guidelines have been proposed: ...
A random sample of 100 middle schoolers were asked about their favorite sport. The following data was collected from the students.
Sport Basketball Baseball Soccer Tennis
Number of Students 17 12 27 44
Which of the following graphs correctly displays the data?
histogram with the title favorite sport and the x axis labeled sport and the y axis labeled number of students, with the first bar labeled basketball going to a value of 17, the second bar labeled baseball going to a value of 12, the third bar labeled soccer going to a value of 27, and the fourth bar labeled tennis going to a value of 44
histogram with the title favorite sport and the x axis labeled sport and the y axis labeled number of students, with the first bar labeled baseball going to a value of 17, the second bar labeled basketball going to a value of 12, the third bar labeled tennis going to a value of 27, and the fourth bar labeled soccer going to a value of 44
bar graph with the title favorite sport and the x axis labeled sport and the y axis labeled number of students, with the first bar labeled basketball going to a value of 17, the second bar labeled baseball going to a value of 12, the third bar labeled soccer going to a value of 27, and the fourth bar labeled tennis going to a value of 44
bar graph with the title favorite sport and the x axis labeled sport and the y axis labeled number of students, with the first bar labeled baseball going to a value of 17, the second bar labeled basketball going to a value of 12, the third bar labeled tennis going to a value of 27, and the fourth bar labeled soccer going to a value of 44
Answer:
B
Mark brainliest and help feed my children
(also thank and rate 5 stars)
hope this helped
Please help, worth many points
The polynomials are
1. f(x) = (x + 3) * (x - 2) * (x - 4)2. f(x) = (x - 2)^2 * (x - 8)3. f(x) = (-1/6) * x^2 * (x + 1).How to find the polynomialsIn order to find the factored form of a polynomial with x-intercepts at (-3, 0), (2, 0), and (4, 0), we must write out the equation as:
f(x) = a * (x + 3) * (x - 2) * (x - 4)
Knowing that a = 1, we simplify the equation to obtain the final form:
f(x) = (x + 3) * (x - 2) * (x - 4)
If the given curve has a bounce at the point (2,0) and a bend at (8,0), then its factored form would be:
f(x) = a * (x - 2)^2 * (x - 8)
Given that a = 1, the simplified version is written as follows:
f(x) = (x - 2)^2 * (x - 8)
Using (3, -6),
y = a * x^2 * (x + 1)
solving for a as follows:
-6 = a * 3^2 * (3 + 1)
-6 = a * 9 * 4
a = -6 / 36
f(x) = (-1/6) * x^2 * (x + 1).
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Find the area of the region that lies inside the circle r = 9 sin(theta) and outside the cardioid r = 3 + 3 sin(theta). The cardioid (in blue) and the circle (in red) are sketched in the figure. The value of a and b in this formula are determined by finding the points of intersection of the two curves. They intersect when 9 sin(theta) = 3 + 3 sin(theta), which gives sin(theta) = 1/2, so theta = pi/6, theta = 5 pi/6. The desired area can be found by subtracting the area inside the cardioid between theta = pi/6, 5 pi/6 from the area inside the circle from pi/6 to 5 pi/6. Thus A = 1/2 integral_pi/6^5 pi/6 (9 sin (theta))^2 d theta - 1/2 integral_pi/6^5 pi/6 (3 + 3 sin (theta))^2 d theta Since the region is symmetric about the vertical axis theta = pi/2, we can write A = 2[1/2 integral_pi/6^pi/2 81 sin^2 (theta) d theta - 9/2 integral_pi/6^pi/2 (1 + 2 sin (theta)) d theta] = integral_pi/6^pi/2 [72 sin^2(theta) - 9 - d theta] = integral_pi/6^pi/2 (-36 cos (2 theta) - sin (theta)) d theta [because sin^2 (theta) = 1/2 (1 - cos (2 theta))] =|_pi/6^pi/2 =
Therefore, the area of the region inside the circle and outside the cardioid is. [tex]2\sqrt(3)[/tex].
To find the area of the region inside the circle and outside the cardioid, we need to integrate the difference between the areas of the circle and the cardioid over the interval where they intersect. The points of intersection are at theta = pi/6 and theta = 5pi/6, as given in the problem.
First, let's find the equation of the cardioid in Cartesian coordinates. We have r = 3 + 3sin(θ), so in Cartesian coordinates, this is:
[tex]x^2 + y^2[/tex]= [tex](3 + 3sin(θ)) ^2[/tex]
[tex]x^2 + y^2[/tex]= [tex]9 + 18sin(θ) + 9sin^2(θ)[/tex]
[tex](x^2 + y^2 - 9)[/tex] = [tex]18sin(θ) + 9sin^2(θ)[/tex]
Using the equation of the circle, r = 9sin(theta), we can rewrite sin(theta) as r/9:
([tex]x^2 + y^2 - 9) = 18(r/9) + 9(r/9)^2[/tex]
[tex]x^2 + y^2 = 3r + r^2/3[/tex]
Now we can set up the integral to find the area:
A = 1/2 ∫[tex](pi/6) ^{(5\pi/6)} [81sin^2(θ) - 9 - 18sin(θ) - 9sin^2(θ)] dθ[/tex]
[tex]A = 1/2 ∫(pi/6)^(5pi/6) [72sin^2(θ) - 9 - 18sin(θ)] dθ[/tex]
Since the region is symmetric about the vertical axis theta = pi/2, we can double this integral:
A = ∫[tex](pi/6)^(pi/2) [72sin^2(θ) - 9 - 18sin(θ)] dθ[/tex]
Now we can use the identity sin^2(θ) = 1/2(1 - cos(2θ)) to simplify the integral:
A = ∫[tex](\pi/6) ^(pi/2) [36(1-cos(2θ)) - 9 - 18sin(θ)] dθ[/tex]
A = ∫[tex](pi/6) ^(\pi/2) [-36cos(2θ) - sin(θ)] dθ[/tex]
Integrating, we get:
A = [-[tex]18sin(2θ) - cos(θ)] |_\pi/6^\pi/2[/tex]
[tex]A = [-18sin(2(\pi/2) - 2(\pi/6)) - cos(\pi/2) + cos(\pi/6)] - [-18sin(2(\pi/6)) - cos(\pi/6)][/tex]
[tex]A = [-18sin(\pi /3) - 0.5] - [-9\sqrt(3)/2 - sqrt(3)/2][/tex]
[tex]A = -18\sqrt(3)/2 + 4.5 + 9\sqrt(3)/2 - \sqrt(3)/2[/tex]
[tex]A = 4\sqrt(3)/2[/tex]
[tex]A = 2\sqrt(3)[/tex]
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what is the answer to this question -11+8(6k-17) ?
Answer:
[tex]\huge\boxed{\sf 48k - 147}[/tex]
Step-by-step explanation:
Given expression:= -11 + 8(6k - 17)
Distribute 8 to 6k and 17= -11 + 48k - 136
Combine like terms= 48k - 11 - 136
= 48k - 147[tex]\rule[225]{225}{2}[/tex]
Answer:
48k - 147
Step-by-step explanation:
Now we have to,
→ Simplify the given expression.
The expression is,
→ -11 + 8(6k - 17)
Major steps we use are,
→ Rearranging the expression.
→ Combining the like terms.
Let's simplify the expression,
→ -11 + 8(6k - 17)
→ 8(6k - 17) - 11
→ 8(6k) - 8(17) - 11
→ 48k - 136 - 11
→ 48k - (136 + 11)
→ 48k - 147
Hence, the answer is 48k - 147.
A car dealership announces that the mean time for an oil change is less than 15 minutes. For the given scenario, the H0 15 and Ha < 15.
A population is the collection of all outcomes, responses, measurements, or counts that are of interest.
A recent survey of 200 college career centers reported that the average starting salary for petroleum engineering majors is $83,121. The average salary provided here is the population parameter.
For a given sample size of 40, 95% confidence level, and sample standard deviation of about 53, the margin of error will be 16.4.
Outlier is a measure of the typical amount an entry deviates from the mean.
A data set can have the same mean, median, and mode.
find f · dr c for the given f and c. f = x2 i y2 j and c is the line from the point (5, 4) to the point (7, 6). f · dr c =
f · dr c = 158/3 for the given f = x2 i y2 j and c is the line from point (5, 4) to point (7, 6).
To find f · dr c for the given f and c, we must first parameterize the line segment c. We can do this by letting x = 5 + t(2) and y = 4 + t(2), where 0 ≤ t ≤ 1. This gives us the vector equation r(t) = 5i + 4j + 2ti + 2tj.
Next, we need to calculate the r(t) differential, which is dr = 2i dt + 2j dt. We can then rewrite this as dr = (2i + 2j) dt.
Now we can calculate f · dr c by substituting our parameterizations into the dot product formula:
f · dr c = ∫f · dr = ∫(x2 i + y2 j) · (2i + 2j) dt
= ∫(2x2 + 2y2) dt
= ∫(2[(5 + 2t)2] + 2[(4 + 2t)2]) dt
= ∫(50 + 40t + 8t2) dt
= 50t + 20t2 + (8/3)t3 + C
evaluated from t = 0 to t = 1.
Plugging in our values, we get:
f · dr c = (50 + 20 + (8/3)) - (0 + 0 + 0) = 158/3
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AMR is a computer-consulting firm. The number of new clients that it has obtained each month has ranged from 0 to 6. The number of new clients has the probability distribution that is shown below. New clients, X : 0 1 2 3 4 5 6 P(X): 0.03 0.10 0.15 0.35 0.20 0.10 0.07 What is the probability of gaining no more than two new clients in a given month? What is the probability of gaining at least 4 new clients in a given month? Calculate the expected value rounded to 2 decimal places. A. 0.28B. 0.37C. 3.17D.0.13E. 0.63 F. 1.83 G. 3.0
1. The probability of gaining no more than 2 clients is 0.28. 2. For atleast 4 new clients: 0.37. 3. The expected value is 3.17.
What is probability?The study of arbitrary events or experiments falls under the purview of probability, a subfield of mathematics. It is used to determine how likely an event is to occur, with a range of 0 (impossible) to 1. (certain). In a variety of domains, including economics, engineering, physics, and social sciences, probability can be used to assess and forecast events. It entails applying formulae, equations, and statistical analysis to calculate the probabilities of a specific event occurring under specific circumstances or presumptions. Decision-making, risk management, and many other aspects of daily life all depend on the concept of probability.
1. The probability of gaining no more than 2 clients is given as:
P(X ≤ 2) = P(X = 0) + P(X = 1) + P(X = 2)
Substituting the value of probabilities from the table we have;
P(X ≤ 2) = 0.03 + 0.10 + 0.15 = 0.28
2. For atleast 4 new clients we have:
P(X ≥ 4) = P(X = 4) + P(X = 5) + P(X = 6) = 0.20 + 0.10 + 0.07 = 0.37
3. The expected value is given as:
E(X) = 0(0.03) + 1(0.10) + 2(0.15) + 3(0.35) + 4(0.20) + 5(0.10) + 6(0.07) = 3.17
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The complete question is:
New clients, X : 0 1 2 3 4 5 6
P(X): 0.03 0.10 0.15 0.35 0.20 0.10 0.07
1. The probability of gaining no more than 2 clients is 0.28. 2. For atleast 4 new clients: 0.37. 3. The expected value is 3.17.
What is probability?The study of arbitrary events or experiments falls under the purview of probability, a subfield of mathematics. It is used to determine how likely an event is to occur, with a range of 0 (impossible) to 1. (certain). In a variety of domains, including economics, engineering, physics, and social sciences, probability can be used to assess and forecast events. It entails applying formulae, equations, and statistical analysis to calculate the probabilities of a specific event occurring under specific circumstances or presumptions. Decision-making, risk management, and many other aspects of daily life all depend on the concept of probability.
1. The probability of gaining no more than 2 clients is given as:
P(X ≤ 2) = P(X = 0) + P(X = 1) + P(X = 2)
Substituting the value of probabilities from the table we have;
P(X ≤ 2) = 0.03 + 0.10 + 0.15 = 0.28
2. For atleast 4 new clients we have:
P(X ≥ 4) = P(X = 4) + P(X = 5) + P(X = 6) = 0.20 + 0.10 + 0.07 = 0.37
3. The expected value is given as:
E(X) = 0(0.03) + 1(0.10) + 2(0.15) + 3(0.35) + 4(0.20) + 5(0.10) + 6(0.07) = 3.17
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The complete question is:
New clients, X : 0 1 2 3 4 5 6
P(X): 0.03 0.10 0.15 0.35 0.20 0.10 0.07
Let n ≥ 1, x be a real number, and x≥ −1.
Prove the following statement using mathematical induction . ( 1 + x )n ≥ 1 + nx
Let n ≥ 1, x be a real number, and x≥ −1.
By mathematical induction, we have shown that (1 + x)n ≥ 1 + nx for all n ≥ 1 and x ≥ -1.
mathematical induction:To prove that (1 + x)n ≥ 1 + nx for all n ≥ 1 and x ≥ -1 using mathematical induction,
we need to first establish a base case and then show that if the statement holds for n = k, it also holds for n = k + 1.
Base case: When n = 1, we have (1 + x)^1 = 1 + x and 1 + 1x = 1 + x. Therefore, the statement is true for n = 1.
Inductive step:
Assume that (1 + x)k ≥ 1 + kx for some arbitrary positive integer k. We want to show that (1 + x)k+1 ≥ 1 + (k + 1)x.
Starting with the left-hand side of the inequality:
(1 + x)k+1 = (1 + x)k (1 + x)
By the inductive hypothesis, we know that (1 + x)k ≥ 1 + kx, so we can substitute that in:
(1 + x)k+1 ≥ (1 + kx)(1 + x)
Expanding the right-hand side:
(1 + kx)(1 + x) = 1 + kx + x + kx^2 = 1 + (k + 1)x + kx^2
So we have:
(1 + x)k+1 ≥ 1 + (k + 1)x + kx^2
Now, since x ≥ -1, we know that kx^2 ≥ -k. Adding this to both sides of the inequality, we get:
(1 + x)k+1 + k ≥ 1 + (k + 1)x
Finally, since k is a positive integer, we know that (1 + x)k+1 + k ≥ 1 + (k + 1)x, which completes the inductive step.
Therefore, by mathematical induction, we have shown that (1 + x)n ≥ 1 + nx for all n ≥ 1 and x ≥ -1.
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Consider the differential equation 2x²y" + 3xy' + (2x - 1 ly = 0. The indicial equation is 2r2+r-1=0. The recurrence relation is Cz[2(k+r)+(k+r-1)+3(k+r)-1]+202-1=0. A series solution corresponding to the indicial root r=- 1 is y=x-'[1+372 €***), where Select the correct answer. (-2) **k!(-1)-1-3---(2k-3) CR = -2 k! 1.3... (2k-3) CE (-2) k!(-1)-1-3---(2k-1) (-2) k!(-1)-(2k-3) C* (-2) k!(-1)-1-3....-(2k-5)
Considering the differential equation 2x²y" + 3xy' + (2x - 1)y = 0. A series solution corresponding to the indicial root r=- 1 is y=x-'[1+372 €***), where [tex]c_k=\frac{(-2)^k}{k!(-1)*(2k-3)!}[/tex].
The given differential equation has been transformed into the indicial equation 2r²+r-1=0, which has the roots r=1/2 and r=-1. We are interested in finding a series solution corresponding to the indicial root r=-1.
To do this, we first assume a solution of the form y(x) = [tex]x^r[/tex] * Σ_[tex](n=0)^{(∞)} c_n[/tex] * [tex]x^n[/tex]. Substituting this into the given differential equation and simplifying, we get a recurrence relation for the coefficients [tex]c_n[/tex]. In this case, the recurrence relation is Cz[2(k+r)+(k+r-1)+3(k+r)-1]+202-1=0, where C is a constant and k is the index of the coefficients.
Next, we need to use the indicial root r=-1 to solve for the coefficients [tex]c_n[/tex]. Plugging in r=-1 into the assumed solution, we get y(x) = [tex]x^{-1}[/tex] * Σ[tex]_(n=0)^{(∞)} c_n[/tex] * [tex]x^n[/tex]. We can simplify this to y(x) = Σ_[tex](n=0)^{(∞)}[/tex] c_n * [tex]x^{(n-1)}[/tex]. Then, we can use the recurrence relation to solve for the coefficients.
In this case, the correct answer is [tex]c_k=\frac{(-2)^k}{k!(-1)*(2k-3)!}[/tex].
The complete question is:-
Consider the differential equation 2x²y" + 3xy' + (2x - 1)y = 0. The indicial equation is [tex]2r^2[/tex]+r-1=0. The recurrence relation is [tex]c_k{2(k+r)+(k+r-1)+3(k+r)-1]+2c_{k-1}=0[/tex].
A series solution corresponding to the indicial root r=- 1 is y=x-'[1+372 €***), where
Select the correct answer.
a. [tex]c_k=\frac{(-2)^k}{k!(-1).1.3...(2k-3)}[/tex]
b. [tex]c_k=\frac{-2^k}{k!.1.3...(2k-3)}[/tex]
c. [tex]c_k=\frac{(-2)^k}{k!(-1).1.3...(2k-1)}[/tex]
d. [tex]c_k=\frac{(-2)^k}{k!(-1)*(2k-3)!}[/tex]
e. [tex]c_k=\frac{(-2)^k}{k!(-1).1.3...(2k-5)}[/tex]
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The student who scored 55 had been out of school for two days. After taking a retest, the student’s score was 78. How does this new score affect the mean and the range of test scores?
If the student who retook the test had originally scored the lowest or one of the lowest scores, then the new range might not change much, if at all.
However, if the student had originally scored somewhere in the middle or towards the higher end of the range, then the new range will likely be larger than the original range, because 78 is higher than most of the original scores.
How to explain the informationThe mean (average) of a set of numbers is calculated by adding up all the numbers and dividing the sum by the total number of numbers.
mean = S/n
Therefore, the new mean score will be:
new mean = (S + 23)/n
The range of a set of numbers is the difference between the highest and lowest numbers in the set.
Before the retest, let's say the lowest score was a, and the highest score was b. Then, the range was:
range = b - a
After the retest, the lowest score will still be a, but the highest score will be either b or 78, whichever is higher. Therefore, the new range will be:
new range = max(b, 78) - a
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consider the following code segment. int [ ] values = {1, 2, 3, 4, 5, 8, 8, 8};int target = 8; what value is returned by the call binarysearch (values, target) ?
The value returned by the call binary Search(values, target) is 5.
Let's perform a binary search on the given array:
The code segment provided is: int[] values = {1, 2, 3, 4, 5, 8, 8, 8}; int target = 8;
1. Initialize variables: low = 0, high = 7 (length of array - 1)
2. Calculate mid: mid = (low + high) / 2 = (0 + 7) / 2 = 3
3. Check if the target is equal to the middle element: values[3] = 4, which is not equal to 8
4. Since the target (8) is greater than the middle element (4), update low: low = mid + 1 = 3 + 1 = 4
5. Calculate mid again: mid = (low + high) / 2 = (4 + 7) / 2 = 5
6. Check if the target is equal to the middle element: values[5] = 8, which is equal to the target
As a result, the binary search function returns the index of the target, which is 5.
Therefore, the value returned by the call binary Search(values, target) is 5.
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let ax = a2x-1, a1 = 2 find a3 =
The value of a₃ is equal to 8.
To find a₃ using the given terms, aₓ = a₂x-1 and a₁ = 2, follow these steps:
Step 1: Identify the value of x when finding a₃.
Since you want to find a₃, the value of x will be 3.
Step 2: Use the given formula to find a₃.
The formula provided is aₓ = a₂x-1.
Plug in the value of x as 3:
a₃ = a₂(3)-1.
Step 3: Simplify the formula.
Simplify the formula as follows:
a₃ = a₁(4).
Step 4: Substitute the given value of a₁ into the formula.
You're given that a₁ = 2, so substitute it into the simplified formula:
a₃ = 2(4).
Step 5: Solve for a₃.
To find a₃, multiply the values:
a₃ = 8.
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let f(x, y, z) = xy3z2 and let c be the curve r(t) = et cos(t2 1), ln(t2 1), 1 t2 1 with 0 ≤ t ≤ 1. compute the line integral of ∇f along c.
The line-integral of ∇f along C is [tex]\frac{e^{cos(2)} [ln(2)]^3 }{2}[/tex] .
What is the line integral of a gradient vector field along a curve ?The gradient vector field of a scalar field, is a vector field on the domain such that, the vector associated to any point, is equal to the gradient of the scalar field at that point. By the definition of gradient, ∇f . (dx,dy,dz) = f(x+dx, y+dy, z+dz) - f(x,y,z) = change in the value of f as position changes from (x, y, z) to (x + dx, y + dy, z + dz). so the line integral of ∇f along the curve C, is
[tex]\int\limits_C {\nabla f} \,.\, dC = f(\textrm{final point}) - f(\textrm{initial point}) = f(C(1)) - f(C(0))[/tex]
if the curve C is defined on the interval [0,1].
in our question: [tex]f = xy^3z^2,[/tex]
[tex]\textrm{and the curve C is } \{ r(t) = \, < e^{tcos(t^2+1)},\ln (t^2 + 1), \frac{1}{\sqrt{t^2 + 1}} > , | \, 0\leq t\leq 1\}[/tex]
So the line integral along the curve C is
[tex]\int\limits_C {\nabla f} \, .\,dC = f(\textrm{final point}) - f(\textrm{initial point}) = f(C(1)) - f(C(0))[/tex]
[tex]\textrm{C}(1) = < e^{cos(2)},\ln(2),\frac{1}{\sqrt{2}} > . \textrm{ So }f(\textrm C}(1)) = \frac{e^{cos(2)}{(\ln(2))}^3}{2}[/tex]
[tex]\textrm{C}(0) = < 1,0,1 > . \textrm{ So }f(\textrm C}(0)) = 1(0^3)1^2 = 0[/tex]
So the line integral is equal to [tex]\frac{e^{cos(2)}{(\ln(2))}^3}{2} - 0 = \frac{e^{cos(2)}{(\ln(2))}^3}{2}[/tex]
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As asked, the question is incomplete:
The complete question is:
let [tex]f = xy^3z^2,[/tex] and
[tex]\textrm{and the curve C is } \{ r(t) = < e^{tcos(t^2+1)},\ln (t^2 + 1), \frac{1}{\sqrt{t^2 + 1}} > , | \, 0\leq t\leq 1\}[/tex]
In this case compute the line integral of ∇f along c.
The line-integral of ∇f along C is [tex]\frac{e^{cos(2)} [ln(2)]^3 }{2}[/tex] .
What is the line integral of a gradient vector field along a curve ?The gradient vector field of a scalar field, is a vector field on the domain such that, the vector associated to any point, is equal to the gradient of the scalar field at that point. By the definition of gradient, ∇f . (dx,dy,dz) = f(x+dx, y+dy, z+dz) - f(x,y,z) = change in the value of f as position changes from (x, y, z) to (x + dx, y + dy, z + dz). so the line integral of ∇f along the curve C, is
[tex]\int\limits_C {\nabla f} \,.\, dC = f(\textrm{final point}) - f(\textrm{initial point}) = f(C(1)) - f(C(0))[/tex]
if the curve C is defined on the interval [0,1].
in our question: [tex]f = xy^3z^2,[/tex]
[tex]\textrm{and the curve C is } \{ r(t) = \, < e^{tcos(t^2+1)},\ln (t^2 + 1), \frac{1}{\sqrt{t^2 + 1}} > , | \, 0\leq t\leq 1\}[/tex]
So the line integral along the curve C is
[tex]\int\limits_C {\nabla f} \, .\,dC = f(\textrm{final point}) - f(\textrm{initial point}) = f(C(1)) - f(C(0))[/tex]
[tex]\textrm{C}(1) = < e^{cos(2)},\ln(2),\frac{1}{\sqrt{2}} > . \textrm{ So }f(\textrm C}(1)) = \frac{e^{cos(2)}{(\ln(2))}^3}{2}[/tex]
[tex]\textrm{C}(0) = < 1,0,1 > . \textrm{ So }f(\textrm C}(0)) = 1(0^3)1^2 = 0[/tex]
So the line integral is equal to [tex]\frac{e^{cos(2)}{(\ln(2))}^3}{2} - 0 = \frac{e^{cos(2)}{(\ln(2))}^3}{2}[/tex]
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As asked, the question is incomplete:
The complete question is:
let [tex]f = xy^3z^2,[/tex] and
[tex]\textrm{and the curve C is } \{ r(t) = < e^{tcos(t^2+1)},\ln (t^2 + 1), \frac{1}{\sqrt{t^2 + 1}} > , | \, 0\leq t\leq 1\}[/tex]
In this case compute the line integral of ∇f along c.
the p-value for a one-sided test of hypothesis is p = 0.013. what would the p-value be for the corresponding two-tailed test of hypothesis?
The p-value for the corresponding two-tailed test of hypothesis would be 0.026, obtained by doubling the p-value for the one-sided test.
To find the p-value for the corresponding two-tailed test of hypothesis, you would need to double the p-value for the one-sided test. This is because the p-value for a one-tailed test only considers one direction of the hypothesis, whereas the p-value for a two-tailed test considers both directions.
So, if the p-value for a one-sided test of hypothesis is p = 0.013, then the p-value for the corresponding two-tailed test of hypothesis would be
p-value = 2 × 0.013
Multiply the numbers
= 0.026
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seven hundred three million written in scientific notation?
Seven hundred three million can be written in scientific notation as:
7.03 x 10^8
[tex]\huge{\colorbox{black}{\textcolor{lime}{\textsf{\textbf{I\:hope\:this\:helps\:!}}}}}[/tex]
[tex]\begin{align}\colorbox{black}{\textcolor{white}{\underline{\underline{\sf{Please\: mark\: as\: brillinest !}}}}}\end{align}[/tex]
[tex]\textcolor{blue}{\small\texttt{If you have any further questions,}}[/tex] [tex]\textcolor{blue}{\small{\texttt{feel free to ask!}}}[/tex]
♥️ [tex]{\underline{\underline{\texttt{\large{\color{hotpink}{Sumit\:\:Roy\:\:(:\:\:}}}}}}\\[/tex]
Seven hundred three million can be written in scientific notation as:
7.03 x 10^8
[tex]\huge{\colorbox{black}{\textcolor{lime}{\textsf{\textbf{I\:hope\:this\:helps\:!}}}}}[/tex]
[tex]\begin{align}\colorbox{black}{\textcolor{white}{\underline{\underline{\sf{Please\: mark\: as\: brillinest !}}}}}\end{align}[/tex]
[tex]\textcolor{blue}{\small\texttt{If you have any further questions,}}[/tex] [tex]\textcolor{blue}{\small{\texttt{feel free to ask!}}}[/tex]
♥️ [tex]{\underline{\underline{\texttt{\large{\color{hotpink}{Sumit\:\:Roy\:\:(:\:\:}}}}}}\\[/tex]
Can someone please help me out with this?
Every minute, the number of bacteria decays by a factor of 16^(-60).
How to define an exponential function?An exponential function has the definition presented as follows:
y = ab^x.
In which the parameters are given as follows:
a is the value of y when x = 0.b is the rate of change.The decay factor k of the exponential function is obtained as follows:
b = 1 - k
k = 1 - b.
The parameter b for the function in this problem is given as follows:
b = 15/16.
Hence the decay factor each second is obtained as follows:
k = 1 - 15/16
k = 16/16 - 15/16
k = 1/16.
Then the decay factor each minute is given as follows:
k = (1/16)^60
k = 16^(-60).
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please answer and help me! i’ll mark brainliest
Answer: complementary
Step-by-step explanation:
adds to 90 degrees
if the order of objects is of importance, how many ways can 13 objects be selected 3 at a time?
2,186 ways
How to find permutation?If the order of objects is important and you need to select 13 objects 3 at a time, you can use permutations to find the number of ways this can be done.
Your answer: There are 2,186 ways to select 13 objects 3 at a time when order is important.
Step-by-step explanation:
1. Use the formula for permutations: P(n, r) = n! / (n - r)!, where n is the total number of objects (13) and r is the number of objects to be selected at a time (3).
2. Calculate the factorials: 13! = 6,227,020,800 and 10! = 3,628,800.
3. Divide the two factorials: 6,227,020,800 / 3,628,800 = 2,186.
So, there are 2,186 ways to select 13 objects 3 at a time when order is important.
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Let P,= the production of product i in period j. To specify that production of product 2 in period 4 and in period 5 differs by no more than 80 units, we need to add which pair of constraints? a. P24 - P25 <= 80; P25 - P24 >= 80 b. P52 - P42 <= 80; P42-P52 <= 80 c. P24 - P25 >= 80; P25 - P24 >= 80 d. P24 - P25 <= 80: P25 - P24 <= 80
The correct pair of constraints to add is option d: P24 - P25 <= 80; P25 - P24 <= 80
To specify that production of product 2 in period 4 and in period 5 differs by no more than 80 units, the correct pair of constraints to add is option d: P24 - P25 <= 80; P25 - P24 <= 80.
The constraint P24 - P25 <= 80 ensures that the production of product 2 in period 4 (P24) does not exceed the production in period 5 (P25) by more than 80 units.
The constraint P25 - P24 <= 80 ensures that the production in period 5 (P25) does not exceed the production in period 4 (P24) by more than 80 units.
These two constraints together ensure that the production of product 2 in period 4 and period 5 differs by no more than 80 units in either direction, as both P24 - P25 and P25 - P24 are limited to be less than or equal to 80.
Therefore, the correct pair of constraints to add is option d: P24 - P25 <= 80; P25 - P24 <= 80
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Decrease £61 by 24% Give your answer in pounds (£).
Answer: £46.36.
Step-by-step explanation: To decrease £61 by 24%, we first need to find 24% of £61. We can do this by multiplying £61 by 0.24: £61 * 0.24 = £14.64. Now, to decrease £61 by 24%, we subtract £14.64 from £61: £61 - £14.64 = £46.36.
So, if you decrease £61 by 24%, the result is £46.36.
3
Select the correct answer.
If the graphs of the linear equations in a system are parallel, what does that mean about the possible solution(s) of the system?
O A.
B.
OC.
D.
There are infinitely many solutions.
There is no solution.
The lines in a system cannot be parallel.
There is exactly one solution.
Answer:
There is no solution.
Step-by-step explanation:
The graphs are parallel. They will never intersect each other.
how do i rewrite this in the form of k•x^2
Answer:
8x^(3/2)
Step-by-step explanation:
We can simplify the expression first:
2sqrt(x)4x^(-5/2)=8x^(-3/2)
Now we can rewrite this in the form kx^2:
8x^(=3/2)=8(x^(-3/2))(x^(5/2))/x^2
=8(x^2/x^3)(x^(1/2))/x^2
=8x^(-1/2)
therefore, 2sqrt(x)4x^(-5/2) is equivalent to 8x^(-1/2), which can be written in the form kx^2 as 8x^(3/2)
I hope this helps!
Use implicit differentiation to find ∂z/∂x and ∂z/∂y.
x^(2) + 2y^(2)+ 3z^(2) = 1
The value of ∂z/∂x is -x/3z and the value of partial derivative ∂z/∂y is -2y/3z.
In mathematics, a partial derivative of a function of several variables is its derivative with respect to one of those variables, with the others held constant. Partial derivatives are used in vector calculus and differential geometry.
The partial derivative is a way to find the slope in either the x or y direction, at the point indicated.
To find ∂z/∂x and ∂z/∂y using implicit differentiation, we first differentiate both sides of the equation with respect to x and y, respectively:
Differentiating with respect to x:
2x + 3(∂z/∂x)(2z) = 0
Simplifying, we get:
∂z/∂x = -2x/6z = -x/3z
Differentiating with respect to y:
4y + 3(∂z/∂y)(2z) = 0
Simplifying, we get:
∂z/∂y = -4y/6z = -2y/3z
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Use the Laplace transform to solve the initial value problem
y′′ +2y′ +2y=g(t), y(0)=0, y′(0)=1,
where g(t) = 1 for π ≤ t < 2π and g(t) = 0 otherwise. Express the solution y(t) as a
piecewise defined function, simplified.
The solution y(t) is a piecewise defined function given by: [tex]y(t) = (e^(-t/2) \times sin((t - \pi)/2))/2 + (e^(-t/2)\times sin((t - \pi)/2 + \pi))/2 for \pi \leq t \leq < 2\pi[/tex]
y(t) = 0 for t < π and t ≥ 2π
To solve the given initial value problem using Laplace transform, we apply the Laplace transform to both sides of the differential equation:
L{y''} + 2L{y'} + 2L{y} = L{g(t)}
Using the standard Laplace transform formulas for derivatives and unit step function, we get:
[tex]s^2[/tex] Y(s) - s y(0) - y'(0) + 2s Y(s) - 2y(0) + 2Y(s) = 1/(s[tex]e^(\pi)[/tex] - s e^(2π))
Substituting y(0) = 0 and y'(0) = 1, and simplifying, we get:
Y(s) = (1 - s)/([tex]s^2[/tex] + 2s + 2) [tex]\times[/tex] 1/(s [tex]e^\pi[/tex] - s [tex]e^(2\pi)[/tex])
To express y(t) as a piecewise defined function, we need to invert this Laplace transform using partial fraction decomposition and inverse Laplace transform. The roots of the denominator s^2 + 2s + 2 are complex conjugates given by:
s = -1 + i and s = -1 - i
Therefore, we can write the partial fraction decomposition as:
(1 - s)/([tex]s^2[/tex] + 2s + 2) = A/(s + 1 - i) + B/(s + 1 + i)
Multiplying both sides by the denominator and substituting s = -1 + i and s = -1 - i, we get:
A = (-1 + i)/4 and B = (-1 - i)/4
Substituting these values, we get:
Y(s) = (-1 + i)/(4(s + 1 - i)) + (-1 - i)/(4(s + 1 + i))
Taking the inverse Laplace transform of each term using the table of Laplace transforms, we get:
y(t) = ([tex]e^{(-t/2)[/tex] [tex]\times[/tex]sin((t - π)/2))/2 + ([tex]e^{(-t/2)[/tex][tex]\times[/tex]sin((t - π)/2 + π))/2 for π ≤ t < 2π
and y(t) = 0 for t < π and t ≥ 2π
Therefore, the solution y(t) is a piecewise defined function given by:
y(t) = ([tex]e^{(-t/2)[/tex] [tex]\times[/tex] sin((t - π)/2))/2 + ([tex]e^{(-t/2)[/tex][tex]\times[/tex] sin((t - π)/2 + π))/2 for π ≤ t < 2π
y(t) = 0 for t < π and t ≥ 2π
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The solution y(t) is a piecewise defined function given by: [tex]y(t) = (e^(-t/2) \times sin((t - \pi)/2))/2 + (e^(-t/2)\times sin((t - \pi)/2 + \pi))/2 for \pi \leq t \leq < 2\pi[/tex]
y(t) = 0 for t < π and t ≥ 2π
To solve the given initial value problem using Laplace transform, we apply the Laplace transform to both sides of the differential equation:
L{y''} + 2L{y'} + 2L{y} = L{g(t)}
Using the standard Laplace transform formulas for derivatives and unit step function, we get:
[tex]s^2[/tex] Y(s) - s y(0) - y'(0) + 2s Y(s) - 2y(0) + 2Y(s) = 1/(s[tex]e^(\pi)[/tex] - s e^(2π))
Substituting y(0) = 0 and y'(0) = 1, and simplifying, we get:
Y(s) = (1 - s)/([tex]s^2[/tex] + 2s + 2) [tex]\times[/tex] 1/(s [tex]e^\pi[/tex] - s [tex]e^(2\pi)[/tex])
To express y(t) as a piecewise defined function, we need to invert this Laplace transform using partial fraction decomposition and inverse Laplace transform. The roots of the denominator s^2 + 2s + 2 are complex conjugates given by:
s = -1 + i and s = -1 - i
Therefore, we can write the partial fraction decomposition as:
(1 - s)/([tex]s^2[/tex] + 2s + 2) = A/(s + 1 - i) + B/(s + 1 + i)
Multiplying both sides by the denominator and substituting s = -1 + i and s = -1 - i, we get:
A = (-1 + i)/4 and B = (-1 - i)/4
Substituting these values, we get:
Y(s) = (-1 + i)/(4(s + 1 - i)) + (-1 - i)/(4(s + 1 + i))
Taking the inverse Laplace transform of each term using the table of Laplace transforms, we get:
y(t) = ([tex]e^{(-t/2)[/tex] [tex]\times[/tex]sin((t - π)/2))/2 + ([tex]e^{(-t/2)[/tex][tex]\times[/tex]sin((t - π)/2 + π))/2 for π ≤ t < 2π
and y(t) = 0 for t < π and t ≥ 2π
Therefore, the solution y(t) is a piecewise defined function given by:
y(t) = ([tex]e^{(-t/2)[/tex] [tex]\times[/tex] sin((t - π)/2))/2 + ([tex]e^{(-t/2)[/tex][tex]\times[/tex] sin((t - π)/2 + π))/2 for π ≤ t < 2π
y(t) = 0 for t < π and t ≥ 2π
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Find the radius of the circle with equation x² + y² = 196
Answer:
The equation of a circle with center (a,b) and radius r is given by:
(x - a)² + (y - b)² = r²
Comparing this with the given equation x² + y² = 196, we can see that a = 0, b = 0, and r² = 196. Therefore, the radius of the circle is:
r = sqrt(196) = 14
Hence, the radius of the circle is 14 units.
On a particular day during the tourist season a rent-a-car company must supply cars to four destinations according to the following schedule: Destination Cars required A 2
B 3
C 5
D 7
The company has three branches from which the cars may be supplied. On the day in question, the inventory status of each of the branches was as follows: Branch Cars available
1 6
2 1
3 10
The distances between branches and destinations are given by the following table: Destination Branch A B C D 1 7 11 3 2 2 1 6 0 1 3 9 15 8 5
Plan the day's activity such that supply requirements are met at a minimum cost (assumed proportional to car-miles travelled).
The total cost for transporting the cars will be (2*7) + (3*11) + (5*8) + (7*5) = 94 car miles.
Therefore, the rent-a-car company should follow this plan to meet the supply requirements at a minimum cost.
To plan the day's activity such that supply requirements are met at a minimum cost, we can use the transportation problem method. We will create a matrix with rows representing the branches and columns representing the destinations. The cells will represent the number of cars transported from each branch to each destination.
We start by filling the cells with the lowest transportation cost. For example, from branch 1 to destination A, the cost is 7, which is the lowest cost among all the other options. We will continue filling the cells with the lowest costs until we have met the supply requirements for each destination.
Here is the completed matrix:
Destination A B C D Supply
Branch 1 2 0 0 0 2
Branch 2 0 3 0 0 3
Branch 3 0 0 5 7 12
Demand 2 3 5 7
To interpret the matrix, we can see that branch 1 will supply 2 cars to destination A and branch 2 will supply 3 cars to destination B. Branch 3 will supply 5 cars to destination C and 7 cars to destination D. The total cost for transporting the cars will be (2*7) + (3*11) + (5*8) + (7*5) = 94 car-miles.
Therefore, the rent-a-car company should follow this plan to meet the supply requirements at a minimum cost
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A chicken is taken out of the freezer (0C) and placed on a table in a 23C room. Forty-five minutes later the temperature is 10C. It warms according to Newton's Law. How long does it take before the temperature reaches 20C?
According to Newton's Law of Cooling, it takes 90 minutes for the chicken to reach 20°C.
According to Newton's Law of Cooling, the rate at which an object's temperature changes is proportional to the difference between its temperature and the ambient temperature. The formula for Newton's Law of Cooling is:
ΔT/Δt = k(T - Ta)
Where ΔT is the change in temperature, Δt is the change in time, k is a constant, T is the object's temperature, and Ta is the ambient temperature.
From the given information, we have:
ΔT1 = 10C - 0C = 10°C
Δt1 = 45 minutes
Ta = 23°C
Now, we want to find the time it takes for the chicken to reach 20°C:
ΔT2 = 20C - 0C = 20°C
Using the formula and the fact that k and Ta are constants, we can set up the following proportion:
(ΔT1/Δt1) / (ΔT2/Δt2) = 1
Solving for Δt2:
(10/45) / (20/Δt2) = 1
Cross-multiplying and solving for Δt2, we get:
Δt2 = 90 minutes
So, it takes 90 minutes for the chicken to reach 20°C.
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In each case, determine the value the constant c that makes the probability statement correct.
a) Φ(c) = .9838
b) P(0 ≤ Z ≤ c) = .291
c) P(c ≤ Z) = .121
Values the constant c are;
a) c = 2.16.
b) c = 0.57.
c) c = -1.17.
How to determine the value the constant c that makes the probability statement correct?a) We need to find the value of c such that Φ(c) = 0.9838. Using a standard normal table or a calculator, we find that the z-score corresponding to a cumulative probability of 0.9838 is approximately 2.16. Therefore, c = 2.16.
b) We need to find the value of c such that P(0 ≤ Z ≤ c) = 0.291. Using a standard normal table or a calculator, we find that the z-score corresponding to a cumulative probability of 0.291 is approximately 0.57. Therefore, c = 0.57.
c) We need to find the value of c such that P(c ≤ Z) = 0.121. Using a standard normal table or a calculator, we find that the z-score corresponding to a cumulative probability of 0.121 is approximately -1.17. Therefore, c = -1.17.
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Find the general solution to y" + 10y' + 41y = 0. Give your answer as y = In your answer, use c1 and c2 to denote arbitrary constants and x the independent variable. Enter c1 as c1 and c2 as c2.
c1 and c2 are arbitrary constants, and x is the independent variable.
Describe detailed method to find the general solution to the given second-order homogeneous linear differential equation?We first need to find the characteristic equation:
r² + 10r + 41 = 0
Now, we need to find the roots of this quadratic equation. Using the quadratic formula:
r = (-b ± √(b² - 4ac)) / 2a
Here, a = 1, b = 10, and c = 41. Plugging in these values:
r = (-10 ± √(10² - 4(1)(41))) / 2(1)
r = (-10 ± √(100 - 164)) / 2
Since the discriminant (b² - 4ac) is negative, the roots will be complex:
r = (-10 ± √(-64)) / 2
r = -5 ± 4i
Now that we have the complex roots, we can write the general solution as:
y(x) = c1 * e^(-5x) * cos(4x) + c2 * e^(-5x) * sin(4x)
Here, c1 and c2 are arbitrary constants, and x is the independent variable.
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What's the measure of arc GM if KP=PL and GH=36?
In a circle with center O, chord KL is perpendicular to diameter GH. If KP=PL=18 and GH=36, what is the measure of arc GM?
Based on the mentioned informations and provided valus, the measure of arc of the circle GM is calculated out to be 18π.
Since KL is perpendicular to GH and GH is a diameter, KL is a chord that bisects the circle into two equal halves. Therefore, the arc GM is half the measure of the circle.
The measure of the circle can be found using the diameter GH, which is equal to 36. The formula for the circumference of a circle is C = πd, where d is the diameter. Therefore, the circumference of this circle is C = π(36) = 36π.
Since arc GM is half the measure of the circle, its measure can be found by dividing the circumference by 2.
arc GM = (1/2)C = (1/2)(36π) = 18π
Therefore, the measure of arc GM is 18π.
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