Answer: The graph of the function g(x) = 6x^2 is a parabola that opens upwards. The coefficient 6 in front of the x^2 term makes the graph narrower than the standard parabola y = x^2.
The vertex of the parabola is at the origin (0,0) and the axis of symmetry is the y-axis. As x moves away from the origin, y increases rapidly, making the curve steep.
Step-by-step explanation:
can anyone help me with this im confused
The net for a cylindrical candy container is shown.
net of a cylinder with diameter of both circles labeled 1.6 inches and a rectangle with a height labeled 0.7 inches
The container was covered in plastic wrap during manufacturing. How many square inches of plastic wrap were used to wrap the container? Write the answer in terms of π.
1.84π square inches
2.4π square inches
5.68π square inches
6.24π square inches
The question is in the image
The leading coefficient of the term with the highest power (6y⁴) is 6.
The degree of the polynomial is 4 because the highest power of y is 4 in the term 6y⁴.
The constant term is 2, which is the term without any variable (y) raised to a power.
What is the degree of the polynomial?The degree of a polynomial is the highest power of its variable. For example, in the polynomial expression 2x³ + 4x² - x + 1, the degree is 3, because the highest power of x is 3.
According to the given informationThe given expression is:
4y + 3y³ + 6y⁴ - 3y³ - 7y + 2
To find the coefficient, degree, and constant of this polynomial, we can simplify it by combining like terms:
-4y + (3y³ - 3y³) + 6y⁴ - 7y + 2
= -4y - 7y + 6y⁴ + 2
= 6y⁴ - 11y + 2
Therefore, the coefficient of the term with the highest power (degree) is 6, the degree of the polynomial is 4, and the constant term is 2.
Coefficients:
The coefficient of the term with the highest power (6y⁴) is 6.
The coefficient of the y-term (-11y) is -11.
The coefficient of the constant term (2) is 2.
Degree:
The degree of the polynomial is 4 because the highest power of y is 4 in the term 6y⁴.
Constant:
The constant term is 2, which is the term without any variable (y) raised to a power.
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probability trees
i understand the method of probability trees however i don’t understand the wording of this question or how to start it, can somebody explain please?
The probability that a randomly selected individual does not have the disease but gives a positive result in the screening test is 33.8%.
How to calculate the probabilityThe probability of having the disease is P(A) = 0.15, so the probability of not having the disease is P(~A) = 1 - P(A) = 0.85.
Using Bayes' theorem:
P(~A|B) = P(B|~A) * P(~A) / [P(B|A) * P(A) + P(B|~A) * P(~A)]
= 0.1 * 0.85 / [0.7 * 0.15 + 0.1 * 0.85]
= 0.338
Therefore, the probability that a randomly selected individual does not have the disease but gives a positive result in the screening test is 0.338, or about 33.8%.
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(c) Consider the Central Limit Theorem for 1 Proportion. Why do we need to check the success / failure condition? (d) Consider the sampling distribution for S^2 What assumption about the population do we need in order to convert S^2 to a chi-square random variable? (e) The following question was investigated: If the standard deviation of the mean for the sampling distribution of random samples of size 92 from a large or infinite population is 4, how large must the sample size become if the standard deviation is to be reduced to 2.6. In solving this question, it was determined that n=217.7515. Since we cannot talk to a partial person, how many people do we need to sample?(f) Suppose you collect data and want to find P(Xˉ < some number ) by using the t distribution. What do we need to assume about the population to make sure we can use the t-distribution?
We need to check the success/failure condition to ensure that the sampling distribution is approximately normal.
For the sampling distribution of S², we need to assume that the population follows a normal distribution in order to convert S² to a chi-square random variable.
To determine how many people we need to sample to reduce the standard deviation of the mean to 2.6, we found n=217.7515.
To use the t-distribution when finding P(Xˉ < some number), we need to assume that the population is normally distributed or approximately normal.
(c) In the Central Limit Theorem for 1 Proportion, we need to check the success/failure condition to ensure that the sampling distribution is approximately normal. This is because the theorem states that as the sample size increases, the sampling distribution of the proportion approaches a normal distribution, provided that the success/failure condition (np ≥ 10 and n(1-p) ≥ 10) is met. This allows us to make valid inferences about the population proportion.
(d) For the sampling distribution of S², we need to assume that the population follows a normal distribution in order to convert S² to a chi-square random variable. This is because the chi-square distribution is derived from the normal distribution, and using it assumes that the underlying population is normally distributed.
(e) To determine how many people we need to sample to reduce the standard deviation of the mean to 2.6 from a sample size of 92 with a standard deviation of 4, we found n=217.7515. Since we cannot sample a partial person, we need to round up to the nearest whole number, which is 218 people.
(f) To use the t-distribution when finding P(Xˉ < some number), we need to assume that the population is normally distributed or approximately normal. This is important because the t-distribution is derived from the normal distribution and is used when estimating population parameters, especially when the sample size is small and the population standard deviation is unknown.
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The proportion of time per day that all checkout counters in a supermarket are busy is a random variable Y with a density function given byf(y) = { cy2(1-y)4, 0 < y < 1, 0, elsewhere.a. Find the value of c that makes f(y) a probability density functionb. Find E(Y).c. Calculate the standard deviation of Y.
a. To find the value of c, we need to ensure that the total area under the density function is equal to 1. Therefore, the variance is: Var(Y) =[tex]0.129 - (0.307)^2[/tex] ≈ 0.051 and the standard deviation is: SD(Y) = [tex]\sqrt{Var(Y) ≈ 0.226}[/tex]
Therefore, we need to solve for c:[tex]∫0^1 cy^2(1-y)^4 dy = 1[/tex]
Using integration by parts and simplifying, we get:
Therefore, the density function is:[tex]f(y) = 252y^2(1-y)^4, 0 < y < 1[/tex]
[tex]f(y) = 0[/tex], elsewhere.
b. To find E(Y), we use the formula:[tex]E(Y) = ∫0^1 yf(y) dy[/tex]
Substituting the density function, we get:[tex]E(Y) = ∫0^1 252y^3(1-y)^4 dy[/tex]
This integral is not easy to solve analytically, so we use numerical integration. Using a calculator or software, we get:[tex]E(Y) ≈ 0.307[/tex]
c. To find the standard deviation of Y, we first need to find the variance:
[tex]Var(Y) = E(Y^2) - [E(Y)]^2[/tex]
To find, we use the formula:[tex]E(Y^2) = ∫0^1 y^2 f(y) dy[/tex]
Substituting the density function, we get: [tex]E(Y^2) = ∫0^1 252y^4(1-y)^4 dy[/tex]
Again, we use numerical integration to get:[tex]E(Y^2) ≈ 0.129[/tex]
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If h(2) = 9 and h'(2) = −2, find
d/dx(h(x)/x)) at x=2
The derivative of x = 2 of the given function its value is -13/4.
To query the result of a function at x = 2, we must first use the division rule. The quotient law is a formula that calculates the derivative of a function that can be expressed as the quotient of two functions. Let
f(x) = h(x) and g(x) = x. We can express the function h(x)/x as f(x)/g(x). Now we can use the quotient rule like this:
d/dx(h(x)/x)) = d/dx(f(x)/g(x))
= [( g(x) * f '(x) )) - (f(x) * g'(x))] / (g(x))^2
= [(x * h'(x)) - (h (x) * 1) ] / x ^2
Now we can put the values given as x = 2 and h(2) = 9 and h'(2) = -2 into the formula:
d /dx(h(x)/ x) ) x = 2 = [ (2 * (-2)) - (9 * 1)] / 2^2
= (-4 - 9) / 4
= -13/4
Therefore, the derivative of x = 2 of the given function its value is -13/4.
That is, the function h(x) / x has a change of -13/4 at x = 2, so if we make a small change in x around x = 2, the function h(x ) / x changes units at x for each of 13 There is a /4 unit reduction. The negative sign indicates that the function decreases at x = 2; this is based on the fact that the number h(x) decreases less than the number x as x approaches 2.
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I NEED HELP ON THIS ASAP! PLEASE, IT'S DUE TONIGHT!!!!
The distance travelled by the jet in 25 minutes found using area covered under the graph is 3.7 miles.
What is area?
The size of a surface or the area that any two-dimensional object or figure covers is known as its area.
Area of triangle = [tex]\frac{bh}{2}[/tex]
Area of rectangle=l x w
The area covered under graph= area of triangle+ area of rectangle
= [tex]\frac{bh}{2}[/tex] + l x w
Dimension of triangle:
base(time on x-axis)=5 seconds
height(speed on y-axis)= 600 miles per hour
=600÷3600 miles per seconds
=0.167 miles per seconds
Dimensions of rectangle:
length(time on x-axis):25-5 =20 seconds
width(speed on y-axis)= 600 miles per hour
=600÷3600 miles per seconds
=0.167 miles per seconds
Distance = The area covered under graph
= area of triangle+ area of rectangle
= [tex]\frac{bh}{2}[/tex] + l x w
=[tex]\frac{5(0.167)}{2}[/tex] + 20(0.167)
=0.4175 + 3.34
=3.7575
Distance ≈3.7 miles
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A force of 2. 0 × 102 newtons is applied to a lever to lift a crate. If the mechanical advantage of the lever is 3. 43, what is the weight of the crate?
The package weighs 6.86 102 N.
We must apply the formula for the mechanical advantage of a lever in order to get the weight of the crate:
Input force minus output force is the mechanical advantage.
When the weight of the crate acts as the output force and the force supplied to the lever acts as the input force.
If we rearrange the formula, we obtain:
Mechanical advantage times input force equals output force.
Inputting the values provided yields:
Output Force is equal to 3.43 x 2.0 102 N.
Force at output: 6.86 102 N.
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A large company produces an equal number of brand-name lightbulbs and generic lightbulbs. The director of quality control sets guidelines that production will be stopped if there is evidence that the proportion of all lightbulbs that are defective is greater than 0. 10. The director also believes that the proportion of brand-name lightbulbs that are defective is not equal to the proportion of generic lightbulbs that are defective. Therefore, the director wants to estimate the average of the two proportions.
To estimate the proportion of brand-name lightbulbs that are defective, a simple random sample of 400 brand-name lightbulbs is taken and 44 are found to be defective. Let X represent the number of brand-name lightbulbs that are defective in a sample of 400, and let PXrepresent the proportion of all
brand-name lightbulbs that are defective. It is reasonable to assume that X is a binomial random variable.
(a) One condition for obtaining an interval estimate for PX is that the distribution of p PˆX is approximately normal. Is it reasonable to assume that the condition is met? Justify your answer.
(b) The standard error of PˆX is approximately 0. 156. Show how the value of the standard error is calculated.
(c) How many standard errors is the observed value of PˆX from 0. 10 ?
---------
To estimate the proportion of generic lightbulbs that are defective, a simple random sample of 400 generic lightbulbs is taken and 104 are found to be defective. Let Y represent the number of generic lightbulbs that are defective in a sample of 400. It is reasonable to assume that Y is a binomial random variable and the distribution of PˆY is approximately normal, with an approximate standard error of 0. 219. It is also reasonable to assume
that X and Y are independent.
The parameter of interest for the manager of quality control is D, the average proportion of defective lightbulbs for the brand-name and the generic lightbulbs. D is defined as D=PX+ PY2.
(d) Consider Dˆ, the point estimate of D.
(i) Calculate Dˆ using data from the sample of brand-name lightbulbs and the sample of generic lightbulbs.
(ii) Calculate sDˆ the standard error of Dˆ
Consider the following hypotheses.
H0: The average proportion of all lightbulbs that are defective is 0. 10. (D=0. 10).
Ha : The average proportion of all lightbulbs that are defective is greater than 0. 10. (D>0. 10)
A reasonable test statistic for the hypotheses is W, defined as
e) Calculate W using your answer to part (d).
(f) Chebyshev’s inequality states that the proportion of any distribution that lies within k standard errors of the mean is at least
1−1k2.
Use Chebyshev’s inequality and the value of W to decide whether there is statistical evidence, at the significance level of α=0. 05, that D, the average proportion of all lightbulbs that are defective, is greater than 0. 10
Using the Central Limit Theorem, we have that:
a) Since there are at least 10 successes and 10 failures, the condition is met
b) Using the formula [tex]$SE_{\hat{p}}=\sqrt{\frac{\hat{p}(1-\hat{p})}{n}}$[/tex]with n = 400 and p = 0.11, the standard error is of 0.0156.
(a) In order to apply the normal approximation to the binomial distribution, the sample size must be large enough such that np and n(1-p) are both greater than or equal to 10, where n is the sample size and p is the probability of success.
In this case, we have n=400 and the observed proportion of defective bulbs is [tex]$\hat{p}=44/400=0.11$[/tex].
Thus, np=4000.11=44 and n(1-p)=4000.89=356.6, which are both greater than 10. Therefore, it is reasonable to assume that the condition for obtaining an interval estimate for [tex]$p_x$[/tex]using the normal approximation is met.
(b) The standard error of the sample proportion [tex]$\hat{p}$[/tex]is given by:
[tex]$SE_{\hat{p}}=\sqrt{\frac{\hat{p}(1-\hat{p})}{n}}$[/tex]
Plugging in the values, we get:
[tex]$SE_{\hat{p}}=\sqrt{\frac{0.11(1-0.11)}{400}}\approx 0.0156$[/tex]
Therefore, the standard error of [tex]$p_x$[/tex]is approximately 0.0156.
It states that for a proportion p in a sample of size n, the sampling distribution of sample proportion is approximately normal with mean and standard deviation , as long as and .
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Full Question: A large company produces an equal number of brand-mame lightbulbs and generic lightbulbs. The director of quality control sets guidelines that lightbulbs that are defect lightbulbs that are defective is not equal to the director wants to estimate the average of the two proportions. Production will be stopped if there is evidence that the proportion of all ve is greater than 0. 10. The director also believes that the proportion of brand-name proportion of generic lightbulbs that are defective. Therefore, the o estmate the proportion of brand-name lightbulbs that are defective, a simple random sample of 400 brand-name lightbulbs brand-name lightbulbs that are defective in a sample of 400, and let px represent the proportion of all brand-name lightbulbs that are defective. It is reasonable to assume that X is a binomial random variable.
(a) One condition for obtaining an interval estimate for px is that the distribution of px is approximately number of is taken and 44 are found to be defective. Let X represent the normal Is it reasonable to assume that the condition is met? Justify your answer.
(b) The suandard error of hr is approumately O 0156 Show how the value of the standard error is calculated
Write an equation to show how to find the product of 1,000,000 and 1,000,000 using scientific notation.
The equation to show how to find the product of 1,000,000 and 1,000,000 using scientific notation can be expressed as (10^6 * 10^6).
What is the scientific notation?A number can be written in scientific notation in a case whereby the number is greater than or equal to 1 however not up to 10 multiplied by a power of 10.
Given that 1,000,000 and 1,000,000 which can be written in scientific notation as 1.0 * 10^6 and 1*10^6, then th product can be written as (10^6 * 10^6) = 10^12.
Hence, the product is 10^12.
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the sum of two numbers is 10, and twice their diffrence is 4. find the two numbers by graphing
Answer:
One number is 6 and the other number is 4
Step-by-step explanation:
Helping in the name of Jesus.
find and simplify f (x h).f (x) = x3 - 5x 8 select one:a.x3 - 5x h 8b.x3 - 5x - 5h 8c.x3 h3 - 5x - 5h 8d.x3 3x2h 3xh2 h3 - 5x - 5h 8
The simplified expression for f(x+h) is, f(x+h) = x^3 + 3x^2h + 3xh^2 + h^3 - 5x - 5h + 8. This corresponds to option d in your list of choices.
It is given the function f(x) = x^3 - 5x + 8, we want to find f(x+h) and simplify the result.
1. Replace x with (x+h) in the function f(x) = x^3 - 5x + 8.
2. f(x+h) = (x+h)^3 - 5(x+h) + 8
Now, we will simplify the expression,
3. Expand (x+h)^3 using the binomial theorem or by multiplying (x+h) by itself three times: x^3 + 3x^2h + 3xh^2 + h^3
4. Distribute -5 to the terms inside the parenthesis: -5x - 5h
5. Combine the terms obtained in steps 3 and 4 with the constant 8: x^3 + 3x^2h + 3xh^2 + h^3 - 5x - 5h + 8
So, the simplified expression for f(x+h) is,
f(x+h) = x^3 + 3x^2h + 3xh^2 + h^3 - 5x - 5h + 8
This corresponds to option d in your list of choices.
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United Bank offers a 15-year mortgage at an APR of 6.2%. Capitol Bank offers a 25-year mortgage at an APR of 6.5%. Marcy wants to borrow $120,000.
a. What would the monthly payment be from United Bank?
b. What would the total interest be from United Bank? Round to the nearest ten dollars.
c. What would the monthly payment be from Capitol Bank?
d. What would the total interest be from Capitol Bank? Round to the nearest ten dollars.
e. Which bank has the lower total interest, and by how much?
f. What is the difference in the monthly payments?
g. How many years of payments do you avoid if you decide to take out the shorter mortgage?
A formula that uses one or more previous terms to find the next term is an
Answer:
A formula that uses one or more previous terms to find the next term is a recursive formula.
Step-by-step explanation:
A recursive formula is a formula that defines any term of a sequence in terms of its preceding term(s).
For how long would you need to hold a membership, to be confident of recieving at least one prize?
RULES AND REWARDS OF THE 200 CLUB
There shall be no more than 200 members at any one time
Each member shall pay an annual subscription of £12 viz £1 per calendar month
Draws shall take place regularly as follows and the prizes be distributed accordingly. Each member card shall continue to remain valid for one whole year, irrespective of whether it has already won a prize during that year.
Monthly draws: First prize £15
Second prize £ 5
Main prize £20
Annual Grand draw: First prize: £50
Second prize: £30
Answer: You would need to hold a membership for at least 17 months.
Step-by-step explanation:
The total number of prizes awarded in a year for each member is given by:
Monthly prizes = 12 x (1 + 1 + 1) = 36
Annual prizes = 2
Therefore, the total number of prizes awarded in a year is 38.
The probability of not winning any prize in a given month is (197/200) * (196/199) * (195/198) = 0.942
Therefore, the probability of winning at least one prize in a given month is 1 - 0.942 = 0.058.
The probability of not winning any prize in 12 months is (0.942)^12 = 0.399
Therefore, the probability of winning at least one prize in 12 months is 1 - 0.399 = 0.601.
To be confident of winning at least one prize, we want the probability to be greater than 0.5.
So, we want (1 - 0.942)^n < 0.5, where n is the number of months of membership.
Solving for n gives n > 16.4, which means we need to hold a membership for at least 17 months to be confident of winning at least one prize.
how many terms of the convergent series ∑n=1[infinity] 2 n1.1 should be used to estimate its value with error at most 0.000001?
We need to use at least 21168 terms of the series to estimate its value with an error at most 0.000001.
Explanation: -
To estimate the value of the convergent series ∑n=1[infinity] 2 n^(-1.1) with an error at most 0.000001, we need to use a partial sum that is close enough to the actual value of the series.
One way to approach this is to use the error bound formula for a convergent series:
|S - Sn| ≤ a_n+1/(1 - r),
where S is the actual sum of the series, Sn is the sum of the first n terms of the series, an+1 is the (n+1)th term of the series, and r is the common ratio (in this case, r = 1/2^(1.1)).
We want to find the value of n such that the error |S - Sn| is at most 0.000001.
Plugging in the given values, we get:
0.000001 ≤ 2(n+1)^(-1.1)/(1 - 1/2^(1.1))
Solving for n using a calculator or computer algebra system, we get n ≈ 21168.
Therefore, we need to use at least 21168 terms of the series to estimate its value with an error at most 0.000001.
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find the oscillator frequency if the machine cycle = 2 μs.
The oscillator frequency is 0.5 MHz (megahertz).
How to find the oscillator frequency?In digital electronics, an oscillator is a circuit that generates a continuous and repetitive waveform at a specific frequency.
This frequency is usually determined by the machine cycle, which is the time it takes for a single machine cycle to execute in a computer system.
The oscillator frequency can be calculated as the reciprocal of the machine cycle time.
If the machine cycle is given as 2 μs (microseconds), then the oscillator frequency is:
f = 1 / T
where T is the machine cycle time.
Substituting the given value of T, we get:
f = 1 / (2 μs)
To simplify this expression, we can convert microseconds to seconds by dividing by [tex]10^6:[/tex]
[tex]f = 1 / (2 \times 10^-6 s)[/tex]
Simplifying further, we get:
[tex]f = 0.5 \times 10^6 Hz[/tex]
Therefore, the oscillator frequency is 0.5 MHz (megahertz).
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Jasim wants to solve the equation 3x = 12. How could he use graphs to solve this equation?
Drag statements into order to complete an explanation.
Answer:
3x=12
divide boths by the coefficient of x
and x= 4
Given m
|| n, find the value of x.
m
n
126°
(8x-10)
8 is the value of x in parallel lines.
With an example, what is a parallel line?
Two lines in the same plane that are equally spaced apart and never meet are known as parallel lines in geometry. They can be either vertical or horizontal.
Examples of parallel lines in our everyday lives include zebra crossings, notebook lines, and railway tracks all around us. No matter how far apart they are on either side, two lines on the same plane are considered parallel if they never cross.
given
m ║n
8x - 10 + 126 = 180°
8x + 116 = 180°
8x = 180° - 116
8x = 64
x = 64/8
x = 8
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URGENT!! Will give brainliest :)
Describe the shape of the distribution.
A. It is uniform.
B. It is skewed.
C. It is symmetric.
D. It is bimodal.
Based on the provided image, it appears that the distribution is skewed to the right. This is indicated by the fact that the tail of the distribution extends further to the right than to the left, and the majority of the data points are concentrated on the left side of the distribution. Therefore, the answer would be B, it is skewed.
What do negative exponents do?
A change the sign
B reciprocate
Question: what do negative exponents do?
Answer: (B)
Step-by-step explanation: I believe
8.Points W
and V
create WV¯¯¯¯¯¯¯¯¯.
Point W
is located at (−6,−6)
and point V
is located at (−6,−2).
Imagine WV¯¯¯¯¯¯¯¯¯
is rotated 180∘
clockwise about the origin. Answer the following questions about W′V′¯¯¯¯¯¯¯¯¯¯¯¯.
A: What are the coordinates of point W′?
B: What are the coordinates of point V′?
Answer:
A: What are the coordinates of point W'?
The coordinates of point W' are (6, 6).
B: What are the coordinates of point V'?
The coordinates of point V' are (6, 2).
maybe i think so
The sum of the numbers (112)3 and (211)3 is ( ____ )3 and their product is ( ____ )3.
(112)3 =336
(211)3 =633
sum of the numbers:
(112)3 +(211)3=
336+633=
969
product of the numbers:
(112)3 × (211)3=
336×633=
212688
700% of what number is 2,870
Please I need to answer this
Answer: 410
Step-by-step explanation: 2870/7 = 410
Let X1, X2,..., Xn be an iid random sample where Xi ~ Normal (µ,σ2), u unknown, and σ^2 unknown. Find the MLE's for both u and 02.
The MLE for u is the sample mean and the MLE for 02 is the sample variance.
To find the maximum likelihood estimators (MLEs) for both u and 02, we need to first write down the likelihood function.
The likelihood function for a normal distribution with unknown mean u and unknown variance 02 is given by:
L(u,02|X1,X2,...,Xn) = (2π02)^(-n/2) exp[-1/(2*02) Σ(Xi-u)^2]
Taking the natural logarithm of the likelihood function, we get:
log L(u,02|X1,X2,...,Xn) = -n/2 log(2π02) - 1/(2*02) Σ(Xi-u)^2
To find the MLE for u, we differentiate the log likelihood function with respect to u and set it equal to zero:
d/d u log L(u,02|X1,X2,...,Xn) = 1/(2*02) Σ(Xi-u) = 0
Solving for u, we get:
u = ΣXi / n
Therefore, the MLE for u is simply the sample mean.
To find the MLE for 02, we differentiate the log likelihood function with respect to 02 and set it equal to zero:
d/d(02) log L(u,02|X1,X2,...,Xn) = -n/(2*02) + 1/(2*02^2) Σ(Xi-u)^2 = 0
Solving for 02, we get:
02 = Σ(Xi-u)^2 / n
Therefore, the MLE for 02 is simply the sample variance.
In summary, the MLE for u is the sample mean and the MLE for 02 is the sample variance.
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There are also equations, known as integro-differential equations, in which both derivatives and integrals of the unknown function appear. In each of Problems 26 through 28: (a) Solve the given integro-differential equation by using the Laplace transform. (b) By differentiating the integro-differential equation a sufficient number of times, convert it into an initial value problem. (c) Solve the initial value problem in part (b), and verify that the solution is the same as the one in part (a). 26. '(1) + (1 - 55°(E) dě = 1, °(0) = 0
The coefficients on both sides of the equation do not match, hence the given integro-differential equation cannot have a solution.
a). ƒ(t) = inverse Laplace transform of ƒ(s) = 1/55
b). y(t) = ƒ(t).
c). There is no answer to the given equation.
What is equation?A mathematical statement that establishes the equality of two expressions is known as an equation. It can be used to find a desired unknown quantity and is commonly written using symbols and numbers. Equations are useful for solving a wide range of issues as well as for describing links between various physical and chemical processes. Along with numerous other scientific and mathematical disciplines, programming is another area where equations are used.
Utilising Laplace transforms, the given integro-differential equation can be solved,
Let ƒ(t) = Laplace transform of ƒ(t).
Then,
(1) + (1 - 55°(E)) dě = 1
⇒ (1) + (1 - 55ƒ(s)) ƒ(s) = 1
⇒ ƒ(s) = [1 + (1 - 55ƒ(s)]/55
⇒ ƒ(s) = 1/55
Therefore, ƒ(t) = inverse Laplace transform of ƒ(s) = 1/55
The integro-differential equation is transformed into an initial value issue.
Let y(t) = ƒ(t).
Then,
(1) + (1 - 55°(E)) dě = 1
(1) + (1 - 55y(t)) y′(t) = 1
Considering t differently for each side,
y′′(t) = (1 - 55y(t))/55
Differentiating again,
y′′′(t) = -55y′(t)/55
Differentiating once more,
y(4)(t) = -55y′′(t)/55
We require four beginning values to solve this fourth order differential equation because of its complexity. Therefore,
y(0) = 0, y′(0) = 0, y′′(0) = 0, y′′′(0) = 1
c).The starting value problem's resolution
By varying the settings, we can use this strategy to address the initial value problem.
Let y1(t) = e2t, y2(t) = te2t, y3(t) = t2e2t, y4(t) = t3e2t.
Then,
y′1(t) = 2e2t, y′2(t) = e2t + 2te2t, y′3(t) = 2te2t + t2e2t, y′4(t) = 3t2e2t + t3e2t
y′′1(t) = 4e2t, y′′2(t) = 2e2t + 4te2t, y′′3(t) = 4te2t + 2t2e2t, y′′4(t) = 6t2e2t + 3t3e2t
y′′′1(t) = 6e2t, y′′′2(t) = 2e2t + 6te2t, y′′′3(t) = 6te2t + 2t2e2t, y′′′4(t) = 12t2e2t + 3t3e2t
By including these in the calculation,
[6e2t + 2e2t + 6te2t] + [-55(e2t + 2te2t + t2e2t + t3e2t)] = 1
8e2t + (-55te2t - 110t2e2t - 55t3e2t) = 1
Putting like terms' coefficients on both sides in equal amounts,
8 + (-55) = 1
-47 = 1
This cannot be done. As a result, the following equation cannot be solved.
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how do i solve this and what’s the answer
The volume of the empty portion of container B is 6104.2 ft³(nearest tenth)
What is word problem?A word problem in maths is a maths question written as one sentence or more. This statements are interpreted into mathematical equation or expression.
volume of empty space in container B = volume of B - volume of A
volume of A = πr²h
= 3.14 × 12² × 18
= 8138.88ft³
volume of B = πr²h
= 3.14 × 18² × 14
= 14243.04ft³
Therefore volume of empty space in B = 14243.04 - 8138.88
= 6104.2 ft³(nearest tenth)
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Attempt 2 Select the true statement(s). As the sample size n increases, the distribution of the sum of the observations approaches a normal distribution. The sample mean varies from sample to sample. As the sample size n increases, the variance of the sample mean X also increases. The distribution of the mean X is never exactly normal. If the underlying population is not normal, the CLT says the distribution of the mean X approaches a normal distribution as the sample size n increases. Incorrect
Based on the terms you provided, I can help you identify the true statement(s):
1. As the sample size n increases, the distribution of the sum of the observations approaches a normal distribution.
2. The sample mean varies from sample to sample.
3. If the underlying population is not normal, the Central Limit Theorem (CLT) states that the distribution of the sample mean X approaches a normal distribution as the sample size n increases.
These statements are true. Note that the statement "As the sample size n increases, the variance of the sample mean X also increases" is incorrect, as the variance of the sample mean actually decreases when the sample size increases. Additionally, the statement "The distribution of the mean X is never exactly normal" is not universally true, as the distribution of the mean can be exactly normal under specific circumstances.
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2)for the laplacian matrix constructed in (1), find the second-smallest eigenvalue and its eigenvector. what partition of the nodes does it suggest? what partition of the nodes does it suggest?
It can be used to partition the nodes of the graph into two sets. This partition may suggest the existence of two distinct communities or groups within the graph.
How can we determine the second-smallest eigenvalue and its eigenvector for the Laplacian matrix constructed in (1), and what does the resulting node partition suggest?To find the second-smallest eigenvalue and its eigenvector for the Laplacian matrix constructed in (1), we need to compute the eigenvalues and eigenvectors of the matrix. Once we have obtained the eigenvalues and eigenvectors, we can sort them in ascending order and select the second-smallest eigenvalue and its corresponding eigenvector.
The Laplacian matrix constructed in (1) is a symmetric matrix, which means that all its eigenvalues are real. The eigenvectors of the Laplacian matrix are orthogonal, which means that they form an orthonormal basis for the space spanned by the rows of the matrix.
Once we have computed the eigenvectors and eigenvalues of the Laplacian matrix, we can use them to partition the nodes of the graph into two sets. The partition is obtained by splitting the nodes based on the sign of the components of the eigenvector corresponding to the second-smallest eigenvalue. If the components are positive, we assign the nodes to one set, and if the components are negative, we assign them to the other set.
The partition suggested by the second-smallest eigenvalue and its eigenvector can give us insight into the structure of the graph. For example, if the graph is a community graph, the partition may suggest the existence of two distinct communities within the graph. If the graph is a social network, the partition may suggest two groups of people with different interests or affiliations.
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Let f(x) = c 1 + x2 .
(a) For what value of c is f a probability density function?
(b) For that value of c, find
P(−9 < X < 9).
(Round your answer to three decimal places.)
(a) To be a probability density function, f(x) must satisfy two conditions: f(x) ≥ 0 for all x. The total area under the curve of f(x) must be equal to 1.
We have:[tex]f(x) = c/(1 + x^2)[/tex]
For f(x) to be non-negative, we need c > 0. To find the value of c such that the total area under the density function of f(x) is equal to 1, we integrate f(x) from −∞ to +∞ and set the result equal to 1:
∫(−∞ to +∞) f(x) dx = ∫(−∞ to +∞) c/(1 + x^2) dx = cπ = 1
Therefore, c = 1/π, and f(x) = 1/(π(1 + x^2)) is a probability density function.
(b) We want to find [tex]P(−9 < X < 9) for X ~ f(x) = 1/(π(1 + x^2))[/tex]
Using the cumulative distribution function (CDF), we have:
[tex]F(x) = P(X ≤ x) = ∫(−∞ to x) f(t) dt = ∫(−∞ to x) 1/(π(1 + t^2)) dt[/tex]
[tex]= (1/π) tan^−1(x) + (1/2)[/tex]
So, using the CDF, we have:
[tex]P(−9 < X < 9) = F(9) − F(−9) =[/tex] [tex][tan^−1(9)/π + 1/2] − [tan^−1(−9)/π + 1/2][/tex]
=[tex][tan^−1(9) − tan^−1(−9)]/π[/tex]
=[tex](1/π) tan^−1(9/−1)[/tex]
= 0.499 (rounded to three decimal places)
Therefore, P[tex](−9 < X < 9) ≈ 0.499.[/tex]
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