The value of y varies exponentially with respect to I and the 1-unit percent change is 224% Which of the following is the 1-unit growth factor for y? O 324 01.24 O 124 O 3.24 O2.24

Answers

Answer 1

Therefore, the 1-unit growth factor for y is 3.24.

To calculate the 1-unit growth factor for y, we start with the given percent change. In this case, the percent change is 224%.

To convert this percent change to a decimal, we divide it by 100%. Thus, 224% divided by 100% equals 2.24.

Now, we add 1 to the decimal value. Adding 1 accounts for the original value of y and the 1-unit change.

So, the 1-unit growth factor for y is 3.24. This means that when y increases by 1 unit, it will be multiplied by 3.24.

To know more about growth factor,

https://brainly.com/question/24197919

#SPJ11


Related Questions

For one Midwest city, meteorologists believe the distribution of four-week summer rainfall is given as follows: 39% 32% 16% 13%

Answers

The expected value of the four-week summer rainfall in the Midwest city is 1.39 units. This value can be used to predict the rainfall for the city in the future.

In this case, we can calculate the expected rainfall using the formula. Expected value = (1 * probability of occurrence) + (2 * probability of occurrence) + (3 * probability of occurrence) + (4 * probability of occurrence). Meteorologists believe the distribution of four-week summer rainfall for one Midwest city is given as follows: 39% 32% 16% 13%.

Here, the expected value is given as:Expected value = (1 * 0.39) + (2 * 0.32) + (3 * 0.16) + (4 * 0.13).

Expected value = 1.39, which means the expected value of the four-week summer rainfall in the Midwest city is 1.39 units. This value can be used to predict the rainfall for the city in the future.

The expected value is not necessarily the actual value that will be observed, but it is the average value that can be expected over a long period of time.

To know more about Probability of occurrence visit-

brainly.com/question/24173730

#SPJ11

Plugging in the boundary values into this formula gives 0= X(0) = 0= X(2) = Which leads us to the eigenvalues A₁ = y where Yn = and eigenfunctions X₁ (1) = (Notation: Eigenfunctions should not inc

Answers

X₁(1) = 1/√2 Eigenfunctions should not include the constant "c".

We are to fill in the blanks of the given question, which is: Plugging in the boundary values into this formula gives 0= X(0) = 0= X(2) = Which leads us to the eigenvalues A₁ = y where Yn = and eigenfunctions X₁

(1) = (Notation: Eigenfunctions should not include the constant "c".

the following formula as:$$y''+λy=0$$

For the values of x = 0 and x = 2,

we have:$$0 = X(0)

               $$$$0 = X(2)$$

This leads us to the eigenvalues of A₁ = y where Yn = $$\sqrt\frac{2}{2-1}cos(\sqrt{λ}x)$$

We are to find the first eigenfunction, X₁.

Substituting A₁ into the expression for Yn, we have:$$Y₁(x) = \sqrt\frac{2}{2-1}cos(\sqrt{λ}x)

                                 = \sqrt{2}cos(\sqrt{λ}x)$$

To find X₁, we use the boundary conditions.

First we apply the left boundary value:$$0 = Y₁(0)

                  = \sqrt{2}cos(0)

                 = \sqrt{2}$$

Thus, X₁ = 1/√2.

The final answer is:X₁(1) = 1/√2Eigenfunctions should not include the constant "c".

Learn more about Eigenfunctions

brainly.com/question/2289152

#SPJ11

Find the absolute maximum and minimum values of the following function on the given interval. Then graph the function. Identify the points on the gr f(θ) = cos θ, -7x/6 ≤θ ≤0
Find the absolute maximum. Select the correct choice below and, if necessary, fill in the answer boxes to complete your choice. O A. The absolute maximum value .... occurs at θ = .... (Use a comma to separate answers as needed. Type exact answers, using π as needed.) O B. There is no absolute maximum.

Answers

The function is f(θ) = cos θ on the interval -7π/6 ≤ θ ≤ 0. The absolute maximum value of the function f(θ) = cos θ on the interval -7π/6 ≤ θ ≤ 0 is 1, and it occurs at θ = 0

The critical points occur where the derivative of the function is zero or undefined. Taking the derivative of f(θ) = cos θ, we have f'(θ) = -sin θ. Setting this equal to zero, we get -sin θ = 0, which implies θ = 0.

Next, we evaluate the function at the endpoints of the interval: θ = -7π/6 and θ = 0.

Calculating f(-7π/6), f(0), and f(θ = 0), we find that f(-7π/6) = -√3/2, f(0) = 1, and f(θ = 0) = 1.

Comparing the values, we see that the absolute maximum value occurs at θ = 0, where f(θ) = 1.

Therefore, the absolute maximum value of the function f(θ) = cos θ on the interval -7π/6 ≤ θ ≤ 0 is 1, and it occurs at θ = 0.


To learn more about absolute maximum click here: brainly.com/question/28767824

#SPJ11

You must present the procedure and the answer correct each question in a clear way.
Be f(x) = (x+1)/(x-2)y g(x) Determine the functions (f + g)(x), (f – g)(x), (f/g)(x), ( (x)
Be f(x)= x2 + x + 1y g(x) = x2 – 1.
Evaluate (fºg)(2),(gºf)(2)
Be f(x) = 1/(x-1)y g(x) = x2 + 1. Determine the functions fo g,gºf and its domains.

Answers

We are given two functions f(x) and g(x) and asked to determine the functions (f + g)(x), (f - g)(x), (f/g)(x), (f°g)(x), and (g°f)(x) for specific values of x.

In addition, for a different set of functions f(x) and g(x), we need to determine the functions f°g(x), g°f(x), and their domains.

For the functions f(x) = (x+1)/(x-2) and g(x):

(f + g)(x) = f(x) + g(x), where we add the two functions together.

(f - g)(x) = f(x) - g(x), where we subtract g(x) from f(x).

(f/g)(x) = f(x) / g(x), where we divide f(x) by g(x).

(f°g)(x) = f(g(x)), where we substitute g(x) into f(x).

(g°f)(x) = g(f(x)), where we substitute f(x) into g(x).

For the functions f(x) = x^2 + x + 1 and g(x) = x^2 - 1:

(f°g)(2) = f(g(2)), where we substitute 2 into g(x) and then substitute the result into f(x).

(g°f)(2) = g(f(2)), where we substitute 2 into f(x) and then substitute the result into g(x).

For the functions f(x) = 1/(x-1) and g(x) = x^2 + 1:

f o g = f(g(x)), where we substitute g(x) into f(x).

g o f = g(f(x)), where we substitute f(x) into g(x).

The domains of fo g and g o f need to be determined based on the domains of f(x) and g(x).

To know more about domains click here: brainly.com/question/30133157

#SPJ11

Show that UIT) is a cycle group. Flad al generators of the elle group (17). U(17): {

Answers

The group U(17), also known as the group of units modulo 17, is a cyclic group. It can be generated by a single element called a generator.

In the case of U(17), the generators can be determined by finding the elements that are coprime to 17.The group U(17) consists of the numbers coprime to 17, i.e., numbers that do not share any common factors with 17 other than 1. To show that U(17) is a cyclic group, we need to find the generators that can generate all the elements of the group.

Since 17 is a prime number, all numbers less than 17 will be coprime to 17 except for 1. Therefore, every element in U(17) except for 1 can serve as a generator. In this case, the generators of U(17) are {2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16}.

These generators can be used to generate all the elements of U(17) by raising them to different powers modulo 17. The cyclic property ensures that every element of U(17) can be reached by repeatedly applying the generators, and no other elements exist in the group. Therefore, U(17) is a cycle group.

To learn more about coprime.

Click here:brainly.com/question/30340748?

#SPJ11




Given u = (1,0,3) and v = (-1,5,1). (a) Find ||u || (b) Find (c) Find d(u,v) (d) Are u and v orthogonal? (A)Use the Euclidean Inner Product.

Answers

The norm of a vector can be found using the formula below:[tex]||v|| = sqrt(v1² + v2² + .... vn²)[/tex] Given u = (1,0,3)Therefore, ||u|| = sqrt. Similarly, for vector[tex]v = (-1,5,1)[/tex] Therefore,[tex]||v|| = sqrt((-1)² + 5² + 1²) = sqrt(27)[/tex] .

[tex]d(u, v) = ||u - v||Given u = (1,0,3)[/tex]  and [tex]v = (-1,5,1)[/tex] Therefore,[tex]d( u, v ) = ||u - v|| = sqrt((1 + 1)² + (-5)² + (3 - 1)²) = sqrt(42)[/tex] , Two vectors are orthogonal if their dot product is zero. The dot product of u and v can be found using the Euclidean Inner Product. Since the dot product of u and v is not equal to zero, u and v are not orthogonal.

To know more about vector visit:

https://brainly.com/question/24256726

#SPJ11

The Customer Satisfaction Team at ABC Company determined that 20% of customers experienced phone wait times longer than 5 minutes when calling their company. On a day when 220 customers call the company, what is the probability that less than 30 of the customers will experience wait times longer than 5 minutes? Multiple Choice
O 0.0094
O 0.0113
O 0.4927

Answers

The probability that less than 30 customers out of 220 will experience wait times longer than 5 minutes at ABC Company is 0.0094.

To find the probability, we can use the binomial distribution formula. Let's define "success" as a customer experiencing a wait time longer than 5 minutes. The probability of success, based on the given information, is 20% or 0.2. The number of trials is 220 (the number of customers calling the company).

We need to calculate the probability of less than 30 customers experiencing wait times longer than 5 minutes. This can be done by summing the probabilities of 0, 1, 2, ..., 29 customers experiencing wait times longer than 5 minutes.

Using the binomial distribution formula, we can calculate the probability as follows:

P(X < 30) = Σ (from k=0 to k=29) [ (220 choose k) * (0.2^k) * (0.8^(220-k)) ]

Using this formula, the probability of less than 30 customers experiencing wait times longer than 5 minutes is approximately 0.0094.

Therefore, the correct answer is: 0.0094 (option O).

Learn more about probability here:

brainly.com/question/32117953

#SPJ11

Let the joint p.m.f. of X and Y be defined by f(x, y) = 3x +9₁ 45 a) Find P(X - Y ≥ 1) b) Find the marginal pmf of Y. c) Find the conditional pmf of X given Y = 1. d) Find E(X|Y = 1). x=1,2,3y = 1,2

Answers

a) P(X - Y ≥ 1) = 60

b) Marginal pmf of Y: f_Y(y) = 48y + 3, where y = 1, 2

c) Conditional pmf of X given Y = 1: f_X|Y(x|1) = (3x + 9) / 57, where x = 1, 2, 3

d) E(X|Y = 1) = 1.21

a) To find P(X - Y ≥ 1), we need to sum up the joint probabilities for all pairs (x, y) that satisfy the condition X - Y ≥ 1.

The pairs that satisfy X - Y ≥ 1 are: (2, 1), (3, 1), (3, 2)

So, P(X - Y ≥ 1) = f(2, 1) + f(3, 1) + f(3, 2)

= 3(2) + 9(1) + 45(1)

= 6 + 9 + 45

= 60

b) The marginal pmf of Y can be found by summing up the joint probabilities for each value of Y.

Marginal pmf of Y:

f_Y(y) = f(1, y) + f(2, y) + f(3, y)

= 3(1) + 9(y) + 45(y)

= 3 + 9y + 45y

= 48y + 3

where y = 1, 2

c) The conditional pmf of X given Y = 1 is obtained by dividing the joint probabilities with the sum of joint probabilities for Y = 1.

Conditional pmf of X given Y = 1:

f_X|Y(x|1) = f(x, 1) / (f(1, 1) + f(2, 1) + f(3, 1))

= f(x, 1) / (3(1) + 9(1) + 45(1))

= f(x, 1) / 57

= (3x + 9(1)) / 57

= (3x + 9) / 57

where x = 1, 2, 3

d) To find E(X|Y = 1), we need to calculate the expected value of X when Y = 1 using the conditional pmf of X given Y = 1.

E(X|Y = 1) = ∑[x * f_X|Y(x|1)]

= (1 * f_X|Y(1|1)) + (2 * f_X|Y(2|1)) + (3 * f_X|Y(3|1))

= (1 * (3(1) + 9) / 57) + (2 * (3(2) + 9) / 57) + (3 * (3(3) + 9) / 57)

= (3 + 9) / 57 + (12 + 9) / 57 + (27 + 9) / 57

= 12 / 57 + 21 / 57 + 36 / 57

= 69 / 57

= 1.21

To learn more about probability visit : https://brainly.com/question/13604758

#SPJ11

You need to draw the correct distribution with corresponding critical values, state proper null and alternative hypothesis, and show the test statistic, p- value calculation (state whether it is "significant" or "not significant") , finally, a Decision Rule and Confidence Interval Analysis and coherent conclusion that answers the problem.
According to the American Time Use Survey, the typical American spends 154.8 minutes (2.58 hours) per day watching television. A survey of 50 Internet users results in a mean time watching television per day of 128.7 minutes, with a standard deviation of 46.5 minutes. Conduct the appropriate test to determine if Internet users spend less time watching television at the a = 0.05 level of significance. Source: Norman H. Nie and D. Sunshine Hillygus. "Where Does Internet Time Come From? A Reconnaissance." IT & Society, 1(2).

Answers

There is sufficient evidence to suggest that Internet users spend less time watching television compared to the typical American population.

1. Distribution: We will assume that the distribution of the sample mean follows a normal distribution due to the Central Limit Theorem.

2. Null Hypothesis (H0): The mean time spent watching television by Internet users is equal to or greater than 154.8 minutes per day.

  Alternative Hypothesis (Ha): The mean time spent watching television by Internet users is less than 154.8 minutes per day.

Here, the significance level (α): In this case, the

Now, The test statistic for a one-sample t-test is given by:

t = (sample mean - population mean) / (sample standard deviation / √(sample size))

In this case, X = 128.7 minutes, μ = 154.8 minutes, s = 46.5 minutes, and n = 50.

Plugging these values into the formula, we get:

t = (128.7 - 154.8) / (46.5 / √(50))

t ≈ -2.052

Now, the p-value for degree of freedom 49 is found to be 0.022.

Since the p-value (0.022) is less than the significance level (0.05), we reject the null hypothesis.

This indicates that there is sufficient evidence to suggest that Internet users spend less time watching television compared to the typical American population.

Learn more about Hypothesis Test here:

https://brainly.com/question/17099835

#SPJ4

Calculate the cross product assuming that UxV=<6, 8, 0>
Vx(U+V)

Answers

The value of the expression V × (U + V) after applying the cross product of the vector would be  < - 6, - 8, 0 >.

Given that;

The cross-product assumes that;

U × V = <6, 8, 0>

Now the expression to calculate the value,

V × (U + V)

= (V × U) + (V × V)

Since, V × V = 0

Hence we get;

= (V × U) + 0

= - (U × V)

= - < 6, 8, 0>

Multiplying - 1 in each term,

= < - 6, - 8, 0 >

Therefore, the solution of the expression V × (U + V) would be,

V × (U + V) = < - 6, - 8, 0 >

Learn more about the multiplication visit:

brainly.com/question/10873737

#SPJ12

Final answer:

Given the cross product UxV=<6, 8, 0>, the calculation of the cross product Vx(U+V) involves the distributive property of cross products. VxU is found to be <-6, -8, 0> and VxV is 0, therefore Vx(U+V) = <-6,-8,0>.

Explanation:

The question is asking for the calculation of the cross product Vx(U+V) given that UxV=<6, 8, 0>. In order to calculate the cross product Vx(U+V), we apply the distributive property of the cross product, which states that Vx(U+V) = VxU + VxV.

Given that UxV is <6, 8, 0>, VxU would be <-6, -8, 0>, according to the anticommutative property of cross products. VxV is 0, since the cross product of a vector with itself is always 0.

Therefore, Vx(U+V) = <-6, -8, 0> + <0, 0, 0> = <-6,-8,0>.

Learn more about Cross Product here:

https://brainly.com/question/33834864

#SPJ12

Doctoral Student Salaries Full-time Ph.D. students receive an average of $12,837 per year. If the average salaries are normally distributed with a standard deviation of $1500, find the probabilities. Use a TI-83 Plus/TI-84 Plus calculator and round the answer to at least four decimal places. Part: 0/2 Part 1 of 2 (a) The student makes more than $15,000. P(X> 15,000) -

Answers

The probability that a full-time Ph.D. student makes more than $15,000 per year, P(X > 15,000), can be determined using the standard normal distribution. By converting the given salary values into z-scores, we can calculate the corresponding area under the standard normal curve.

To calculate the probability, we need to standardize the value of $15,000 using the formula:

z = (X - μ) / σ

Where:

X is the given value ($15,000 in this case)

μ is the mean salary ($12,837)

σ is the standard deviation ($1500)

Substituting the values into the formula:

z = (15,000 - 12,837) / 1500 ≈ 1.43

Using the z-score, we can find the probability associated with the given value using the cumulative distribution function (CDF) or the standard normal distribution table.

Looking up the z-score of 1.43 in the standard normal distribution table, we find the corresponding probability is approximately 0.9236. This means that there is a 92.36% chance that a randomly selected full-time Ph.D. student will make less than $15,000 per year.

However, since we are interested in the probability of making more than $15,000, we can subtract the calculated probability from 1 to get the final answer:

P(X > 15,000) ≈ 1 - 0.9236 ≈ 0.0764

Therefore, the probability that a full-time Ph.D. student makes more than $15,000 per year is approximately 0.0764 or 7.64%.

To know more about the standard normal distribution refer here:

https://brainly.com/question/31788726#

#SPJ11

in airline is given permission to fly four new routes of its choice. The airline is considering 10 new routes three routes in Florida, four routes in California, and three routes in Texas. If the airline selects the four new routes are random from the 10 possibilities, determine the probability that one is in Florida, one is in California, and two are in Texas.

Answers

The probability that one route is in Florida, one in California, and two are in Texas is:

[tex]P(\text{Florida, California, Texas, Texas}) = \frac{36}{210} = \boxed{\frac{6}{35}}[/tex]

Let's consider the 4 routes that the airline is planning to fly out of the 10 possibilities selected at random.

Possible outcomes[tex]= ${10 \choose 4} = 210$[/tex]

To find the probability that one route is in Florida, one in California, and two in Texas, we must first determine how many ways there are to pick one route from Florida, one from California, and two from Texas.

We can then divide this number by the total number of possible outcomes.

Let's calculate the number of ways to pick one route from Florida, one from California, and two from Texas.

Number of ways to pick one route from Florida: [tex]{3 \choose 1} = 3[/tex]

Number of ways to pick one route from California: [tex]${4 \choose 1} = 4$[/tex]

Number of ways to pick two routes from Texas:

[tex]{3 \choose 2} = 3[/tex]

So the number of ways to pick one route from Florida, one from California, and two from Texas is:[tex]3 \cdot 4 \cdot 3 = 36[/tex]

Therefore, the probability that one route is in Florida, one in California, and two are in Texas is:

[tex]P(\text{Florida, California, Texas, Texas}) = \frac{36}{210} = \boxed{\frac{6}{35}}[/tex]

Know more about probability   here:

https://brainly.com/question/25839839

#SPJ11

Maximize and minimize p = 2x - y subject x + y23 x-y≤3 x-y2-3 x ≤ 11, y s 11. Minimum: P == (x, y) = Maximum: p= (x, y) = Need Help? Read It Watch It DETAILS WANEFM7 5.2.016. 0/6 Solve the LP problem. If no optimal solution exists, indicate v Maximize p = 2x + 3y subject to 0.5x+0.5y21 y≤4 x 20, y 20. P= (x, y) = 8. [-/2 Points] Need Help? Watch t

Answers

To find the maximum and minimum value of p = 2x - y subject to given constraints, we can use the Simplex Method.

Here are the steps:Step 1: Write the constraints in standard form:Maximize p = 2x - ysubject tox + y <= 23x - y <= 3x - y <= 2-3x <= 11, y <= 11

Step 2: Convert the inequality constraints into equality constraints by introducing slack variables (s1, s2, s3) and surplus variables (s4, s5):x + y + s1 = 23x - y + s2 = 3x - y - s3 = 2-3x + s4 = 11y + s5 = 11

Step 3: Write the augmented matrix:[1  -1  0  0  0  0 | 0][1   1   1   0  0  1 | 3][3  -1   0  1   0  0 | 2][-3  1   0  0   1  0 | 11][0   1   0  0   0  1 | 11][-2  -1   0  0   0  0 | 0]

Step 4: Use the Simplex Method to solve for the maximum and minimum value of p.The optimal solution is (x, y) = (5, 1) with maximum value of p = 9.The optimal solution is (x, y) = (2, 3) with minimum value of p = -4.

To know more about  Simplex Method.   visit:

https://brainly.com/question/32298193

#SPJ11

For the differential equation x(1-x²)³y" + (1-x²)²y' + 2(1+x)y=0 The point x = -1 is a. a regular singular point O b. a singular and ordinary point OC. an irregular singular point O d. None O e. an ordinary point

Answers

For the differential equation x(1-x²)³y" + (1-x²)²y' + 2(1+x)y=0 The point x = -1 is an irregular singular point, option c.

Starting with the given differential equation:

x(1-x²)³y" + (1-x²)²y' + 2(1+x)y = 0

We substitute x = -1 + t:

t(2+t)³y" + (2+t)²y' - 2ty = 0

Now, we substitute y = (x - (-1))^r:

t(2+t)³[r(r-1)(t^(r-2))] + (2+t)²[r(t^(r-1))] - 2t(x - (-1))^r = 0

Simplifying the equation, we get:

t(2+t)³[r(r-1)(t^(r-2))] + (2+t)²[r(t^(r-1))] - 2t(t^r) = 0

Now, let's equate the coefficients of like powers of t to zero:

Coefficient of t^(r-2): (2+t)³[r(r-1)] = 0

This equation gives us the indicial equation:

r(r-1) = 0

Solving the indicial equation, we find that the roots are r = 0 and r = 1.

Since the roots of the indicial equation are not distinct and their difference is not a positive integer, the correct nature of the point x = -1 is an irregular singular point (option C).

To learn more about differential equation: https://brainly.com/question/1164377

#SPJ11

Let the random variable X follow a normal distribution with p = 70 and o2 = 49. a. Find the probability that X is greater than 80. b. Find the probability that X is greater than 55 and less than 85. c. Find the probability that X is less than 75. d. The probability is 0.3 that X is greater than what number? e. The probability is 0.05 that X is in the symmetric interval about the mean between which two numbers?

Answers

a. The probability that X is greater than 80 can be obtained as shown below: Given, X ~ N(70, 49).We are required to find P(X > 80).Standardizing the normal distribution gives: Z = (X - μ)/σwhere μ is the mean and σ is the standard deviation.From this we have:

Z = (80 - 70)/7 = 10/7 ≈ 1.43Using the standard normal distribution table, P(Z > 1.43) ≈ 0.0764Therefore, P(X > 80) ≈ 0.0764b. The probability that X is greater than 55 and less than 85 can be obtained as shown below:We need to find P(55 < X < 85) = P(X < 85) - P(X < 55).Now, Z1 = (55 - 70)/7 = -2.14 and Z2 = (85 - 70)/7 = 2.14From the standard normal distribution table,

we have:P(Z < -2.14) ≈ 0.0158 and P(Z < 2.14) ≈ 0.9838Therefore, P(55 < X < 85) = P(X < 85) - P(X < 55)≈ 0.9838 - 0.0158 ≈ 0.968c. The probability that X is less than 75 can be obtained as shown below:P(X < 75) is required.Z = (X - μ)/σ = (75 - 70)/7 = 0.71From the standard normal distribution table, P(Z < 0.71) ≈ 0.7611

Therefore, P(X < 75) ≈ 0.7611d. The probability that X is greater than 80 is given by P(X > x) = 0.3We need to find the value of x.Z = (x - μ)/σ = (x - 70)/7From the standard normal distribution table, the value of Z that corresponds to 0.3 is approximately 0.52.

Therefore, (x - 70)/7 = 0.52 which implies that x ≈ 73.64. Thus, the probability is 0.3 that X is greater than about 73.64.e. T

To know more about greater visit:

https://brainly.com/question/31761155

#SPJ11

If the projection of b =3i+j--k onto a=i+2j is the vector C, which of the following is perpendicular to the vector b --c ?
a. j+k
b. 2i+j-k
c. 2i+j
d. i+2j
e. i+k

Answers

To find the vector that is perpendicular to the vector b - c, we need to find the cross product of b - c with another vector.

Given:

b = 3i + j - k

a = i + 2j

First, we need to find the vector C, which is the projection of b onto a. The projection of b onto a is given by:

C = (b · a / |a|^2) * a

Let's calculate the projection C:

C = (b · a / |a|^2) * a

C = ((3i + j - k) · (i + 2j)) / |i + 2j|^2 * (i + 2j)

C = ((3 + 2) * i + (1 + 4) * j + (-1 + 2) * k) / (1^2 + 2^2) * (i + 2j)

C = (5i + 5j + k) / 5 * (i + 2j)

C = i + j + 1/5 * k

Now, we can find the vector b - c:

b - c = (3i + j - k) - (i + j + 1/5 * k)

b - c = (2i) - (2/5 * k)

To find a vector that is perpendicular to b - c, we need a vector that is orthogonal to both 2i and -2/5 * k. From the given answer choices, we can see that the vector (2i + j - k) is perpendicular to both 2i and -2/5 * k.

Therefore, the correct answer is (b) 2i + j - k.

Know more about vector: brainly.com/question/24256726

#SPJ11

5. Let X1, X2,..., be a sequence of independent and identically distributed samples from the discrete uniform distribution over {1, 2,..., N}. Let Z := min{i > 1: X; = Xi+1}. Compute E[Z] and E [(ZN)2]. How can you obtain an unbiased estimator for N?

Answers

The value of E[Z] = 1, (ZN)²] = E[Z²] * N^2 = (N(N-1) + 1) * N² and  an unbiased estimator for N is z' = 1

To compute E[Z], we need to find the expected value of the minimum index i such that Xi = Xi+1, where Xi and Xi+1 are independent and identically distributed samples from the discrete uniform distribution over {1, 2, ..., N}.

For any given i, the probability that Xi = Xi+1 is 1/N, since there are N equally likely outcomes for each Xi and Xi+1. Therefore, the probability that the minimum index i such that Xi = Xi+1 is k is (1/N)^k-1 * (N-1)/N, where k ≥ 2.

The expected value of Z is then:

E[Z] = ∑(k=2 to infinity) k * (1/N)^k-1 * (N-1)/N

This is a geometric series with common ratio 1/N and first term (N-1)/N. Using the formula for the sum of an infinite geometric series, we have:

E[Z] = [(N-1)/N] * [1 / (1 - 1/N)] = [(N-1)/N] * [N / (N-1)] = 1

Therefore, E[Z] = 1.

To compute E[(ZN)²], we need to find the expected value of (ZN)².

E[(ZN)^2] = E[Z² * N²] = E[Z²] * N²

To find E[Z²], we can use the fact that Z is the minimum index i such that Xi = Xi+1. This means that Z follows a geometric distribution with parameter p = 1/N, where p is the probability of success (i.e., Xi = Xi+1). The variance of a geometric distribution with parameter p is (1-p)/p².

Therefore, the variance of Z is:

Var[Z] = (1 - 1/N) / (1/N)^2 = N(N-1)

And the expected value of Z² is:

E[Z^2] = Var[Z] + (E[Z])² = N(N-1) + 1

Finally, we have:

E[(ZN)^2] = E[Z^2] * N² = (N(N-1) + 1) * N²

To obtain an unbiased estimator for N, we can use the fact that E[Z] = 1. Let z' be an unbiased estimator for Z.

Since E[Z] = 1, we can write:

1 = E[z'] = P(z' = 1) * 1 + P(z' > 1) * E[z' | z' > 1]

Since z' is the minimum index i such that Xi = Xi+1, we have P(z' > 1) = P(X1 ≠ X2) = 1 - 1/N.

Substituting these values, we get:

1 = P(z' = 1) + (1 - 1/N) * E[z' | z' > 1]

Solving for P(z' = 1), we find:

P(z' = 1) = 1/N

Therefore, an unbiased estimator for N is z' = 1, where z' is the minimum index i such that Xi = Xi+1.

Learn more about unbiased estimator at https://brainly.com/question/32715633

#SPJ11

the angular position of an object that rotates about a fixed axis is given by θ(t) = θ0 e βt , where β = 4 s−1 , θ0 = 1.1 rad, and t is in seconds.

Answers

The angular position at t = 2 seconds would be approximately θ(2) ≈ 3279.06 radians .The angular position θ(t) of an object that rotates about a fixed axis is given by θ(t) = [tex]θ0[/tex]* [tex]e^(βt)[/tex], where β = 4[tex]s^(-1)[/tex], θ0 = 1.1 rad, and t is in seconds.

This equation represents an exponential growth or decay function, where θ0 is the initial angular position and β determines the rate of change. The value of β being positive indicates that the object is rotating in a counterclockwise direction. To determine the angular position at a specific time t, you would substitute the value of t into the equation. For example, if you want to find the angular position at t = 2 seconds, you would plug in t = 2:

θ(2) =[tex]θ0 * e^(β * 2)[/tex]

To evaluate this expression, you need to know the value of e (the base of the natural logarithm), which is approximately 2.71828. You can then calculate the angular position at t = 2 seconds using the given values:

θ(2) = 1.1 * [tex]e^(4 * 2)[/tex]

θ(2) = 1.1 * [tex]e^8[/tex]

The result will depend on the numerical value of [tex]e^8[/tex], which is approximately 2980.96. Therefore, the angular position at t = 2 seconds would be approximately:

θ(2) = 1.1 * 2980.96

θ(2) ≈ 3279.06 radians.

To know more about Angular position visit-

brainly.com/question/19670994

#SPJ11

A simple random sample consisting of 40 trials has a sample mean of 2.79 and sample standard deviation 0.29. a. Find a 95% confidence interval for the population mean, giving your answers in exact form or rounding to 4 decimal places. Confidence Interval: b. If you wanted a 99.9% confidence interval for this sample, would the confidence interval be wider or narrower? The confidence interval would be wider. The confidence interval would be narrower.

Answers

A 95% confidence interval for the population mean, based on the given sample, is calculated to be approximately (2.7167, 2.8633).

To calculate the 95% confidence interval for the population mean, we can use the formula:

Confidence Interval = sample mean ± (critical value) .(sample standard deviation / √n)

For a 95% confidence level, the critical value can be obtained from the standard normal distribution, which is approximately 1.96. Plugging in the values from the given information, we get:

Confidence Interval = 2.79 ± 1.96. (0.29 / √40) ≈ (2.7167, 2.8633)

This means that we are 95% confident that the true population mean falls within the range of 2.7167 to 2.8633.

If we wanted a 99.9% confidence interval, the critical value from the standard normal distribution would be larger than 1.96. As the confidence level increases, the critical value becomes larger, leading to a wider confidence interval. Therefore, the 99.9% confidence interval would be wider than the 95% confidence interval.

Learn more about confidence interval here:

https://brainly.com/question/32546207

#SPJ11

All holly plants are dioecious-a male plant must be planted within 30 to 40 feet of the female plants in order to yield berries. A home improvement store has 10 unmarked holly plants for sale, 4 of which are female. If a homeowner buys 6 plants at random, what is the probability that berries will be produced? Enter your answer as a fraction or a decimal rounded to 3 decimal places. P(at least 1 male and 1 female) = 0

Answers

The probability that berries will be produced is 92.86%.

What is the probability that berries will be produced?

A male plant must be planted within 30 to 40 feet of the female plants in order to yield berries.

The number of unmarked holly plant for sale = 10.

The number of female plants = 4.

The number of plants buys by homeowner = 6.

Now, we will find probability that the berries will be produced.

The probability of not getting any barrier is:

= 6C4/10C4

= 15/210

= 0.07142857142.

Probability that the berries will be produced:

= 1 -  probability of not getting any barrier

= 1 - 0.07142857142

= 0.92857142858

= 92.86%.

     

Read more about probability

brainly.com/question/24756209

#SPJ4

Felipe received a $1900 bonus. He decided to invest it in a 5-year certificate of deposit (CD) with an annual interest rate of 1.48% compounded quarterly. Answer the questions below. Do not round any intermediate computations, and round your final answers to the nearest cent. If necessary, refer to the list of financial formulas.
(a) Assuming no withdrawals are made, how much money is in Felipe's account ? after 5 years?
(b) How much interest is earned on Felipe's investment after 5 years?

Answers

(a) After 5 years, there will be approximately $2,049.71 in Felipe's account if no withdrawals are made.

(b) The interest earned on Felipe's investment after 5 years will be approximately $149.71.

To calculate the amount of money in Felipe's account after 5 years, we can use the formula for compound interest:

A = P(1 + r/n)^(nt),

where:

A = the final amount in the account,

P = the principal amount (initial investment),

r = the annual interest rate (as a decimal),

n = the number of times the interest is compounded per year,

t = the number of years.

In this case, Felipe's principal amount is $1900, the annual interest rate is 1.48% (or 0.0148 as a decimal), the interest is compounded quarterly (n = 4), and the investment period is 5 years (t = 5).

(a) Plugging in these values into the formula, we have:

A = $1900(1 + 0.0148/4)^(4*5) ≈ $2,049.71.

Therefore, after 5 years, there will be approximately $2,049.71 in Felipe's account if no withdrawals are made.

(b) To calculate the interest earned on Felipe's investment, we subtract the initial investment from the final amount:

Interest = A - P = $2,049.71 - $1900 ≈ $149.71.

Therefore, the interest earned on Felipe's investment after 5 years will be approximately $149.71.

to learn more about investment click here; brainly.com/question/15105766

#SPJ11

What is the appropriate measure of central tendency for parametric test: Mean Median Mode Range 0.25 points Save

Answers

For parametric test, the appropriate measure of central tendency is Mean.

Parametric tests are hypothesis tests that make assumptions about the distribution of the population. For example, normality and homoscedasticity are two common assumptions made by parametric tests. In contrast, nonparametric tests make no such assumptions about the underlying distribution of the population.

The mean is a popular and simple measure of central tendency. It is widely used in statistical analysis. It is a useful measure of central tendency in the following situations:

When data are interval or ratio in nature

When data are normally distributed

When there are no outliers

When the sample size is large and random

The following are the advantages of using mean:

It is easy to understand and calculate

It is not affected by extreme values or outliers

It can be used in parametric tests

It provides a precise estimate of the average value of the data

It is a stable measure of central tendency when the sample size is large

Learn more about Statistics: https://brainly.com/question/31538429

#SPJ11

A house was valued at $110,000 in the year 1987. The value appreciated to $155,000 by the year 2000 Use the compund interest formula S= P(1 + r)^t to answer the following questions A) What was the annual growth rate between 1987 and 2000? r = ____ Round the growth rate to 4 decimal places. B) What is the correct answer to part A written in percentage form? r= ___ %
C) Assume that the house value continues to grow by the same percentage. What will the value equal in the year 2003 ? value = $ ____ Round to the nearest thousand dolliars

Answers

A) The annual growth rate is 6.25%.

B) The annual growth rate in percentage form is 6.25%.

C) The value of the house in the year 2003 is $194,000.

Given data: A house was valued at $110,000 in the year 1987.

The value appreciated to $155,000 by the year 2000.

We need to find:

Annual growth rate and percentage form of annual growth rate.

Assuming the house value continues to grow by the same percentage, the value equal in the year 2003 is:

Solution:

A) We have been given the formula to calculate the compound interest:

S = [tex]P(1 + r)^{t}[/tex]

Here, P = 110000 (Initial value in 1987)

t = 13 years (2000 - 1987)

r = Annual growth rate

We have to find the value of r.

S = [tex]P(1 + r)^{t155000 }[/tex]

=[tex]110000(1 + r)^{12} (1 + r)^{13}[/tex]

= 1.409091r

=[tex](1.409091)^{(1/13)}[/tex] - 1r

= 0.0625

= 6.25% (rounded to 4 decimal places)

B) The annual growth rate in percentage form is 6.25%.

C) We can use the formula we used to find the annual growth rate to find the value in the year 2003:

S = [tex]P(1 + r)^{tS}[/tex]

= 155000[tex](1 + 0.0625)^{3S}[/tex]

= 193,891 (rounded to the nearest thousand dollars)

To know more about compound interest, visit:

https://brainly.com/question/26457073

#SPJ11

A college claims that the proportion, p, of students who commute more than fifteen miles to school is less than 25%. A researcher wants to test this. A random sample of 275 students at this college is selected, and it is found that 49 commute more than fifteen miles to school, Is there enough evidence to support the college's calm at the 0.01 level of significance? Perform a got-tailed test. Then complete the parts below. Carry your intermediate computations to three or more decimal places. (If necessary, consult a list of formulas) () State the nuil hypothesis Hy and the alternative hypothesis 0 P s IX 5 x 5 ? Find the value. (Round to three or more decimal places.) (0) Is there cough evidence to support the claim that the proportion of students who commute more than fifteen miles to school is less than 25%? Carry you... termediate р (a) State the null hypothesis H, and the alternative hypothesis H. X H :) de H :) D= (b) Determine the type of test statistic to use. (Choose one) DC (c) Find the value of the test statistic. (Round to three or more decimal places.) Х (d) Find the p-value. (Round to three or more decimal places.) (e) Is there enough evidence to support the claim that the proportion of students who commute more than fifteen miles to school is less than 25%? Yes O No

Answers

The calculated test statistic (-3.647) is smaller than the critical value (-2.33), leading to the rejection of the null hypothesis.

Based on the given information, the calculated test statistic is -3.647, which is smaller than the critical value of -2.33.

Therefore, there is enough evidence to reject the null hypothesis.

This suggests that the proportion of students who commute more than fifteen miles to school is indeed less than 25% at the 0.01 level of significance.

The test results indicate that there is significant evidence to support the claim made by the college.

The proportion of students who commute more than fifteen miles to school is found to be less than 25% at a significance level of 0.01.

The calculated test statistic (-3.647) is smaller than the critical value (-2.33), leading to the rejection of the null hypothesis.

Learn more about  critical value here :brainly.com/question/32607910
#SPJ11

the [crcl6] 3- ion has a maximum in its absorption spectrum at 735 nm. calculate the crystal field splitting energy (in kj>mol) for this ion

Answers

CFSE = (2.73 × 10-19 J) / (1000 J/mol)

= 2.73 × 10-22 kJ/mol

The crystal field splitting energy (CFSE) can be calculated from the wavelength of maximum absorption.

The energy of a photon of light is proportional to its frequency (ν) and inversely proportional to its wavelength (λ).ν = c / λ

where,ν = frequency,

λ = wavelength,

c = speed of light in vacuum

The relationship between frequency (ν) and energy (E) is given by:

E = hν

where,

E = energy of a photon of light,

h = Planck's constant

The absorption of light in transition metal complexes is due to the promotion of an electron from a lower energy orbital to a higher energy orbital.
Therefore, the energy of the photon of light absorbed (E) must be equal to the energy difference (ΔE) between the two orbitals.
ΔE = hc / λwhere,

ΔE = energy difference,

h = Planck's constant,

c = speed of light in vacuum,

λ = wavelength of maximum absorptionThe crystal field splitting energy (CFSE) is equal to the energy difference between the d orbitals of a transition metal ion that are split in energy due to the presence of ligands around the ion.
Therefore,CFSE = ΔE

where,ΔE = energy difference calculated above
Therefore, the crystal field splitting energy (CFSE) for the [CrCl6]3- ion is:

CFSE = ΔE

= hc / λ= (6.626 × 10-34 Js) × (2.998 × 108 m/s) / (735 × 10-9 m)

= 2.73 × 10-19 J
The value of the CFSE can be converted from joules to kilojoules per mole (kJ/mol).1 J = 1 kg m2 s-21 kJ/mol

= 1000 J/mol

Therefore,CFSE = (2.73 × 10-19 J) / (1000 J/mol)

= 2.73 × 10-22 kJ/mol

To know more about energy visit:

https://brainly.com/question/13881533

#SPJ11

1) Find the general solution of the following differential equation: dy = 20 + 2y dt Find the particular solution with the initial condition y(0) = 3. 3.
2) Find the general solution of the following differential equation: dy 1 - + y − 2 = 3t + t² where t ≥ 0 dt
3) Solve the following initial value problem: dy -y = e¯y (2t - 4) and y(5) = 0. dt

Answers

The given differential equation is dy/dt = 20 + 2y. We can solve this equation by separating variables. Rearranging the equation, we have:

dy/(20 + 2y) = dtIntegrating both sides with respect to their respective variables, we get:

∫(1/(20 + 2y))dy = ∫dt

Applying the natural logarithm, we obtain:

ln|20 + 2y| = t + C

where C is the constant of integration. Solving for y, we have:

|20 + 2y| = e^(t + C)

Considering the initial condition y(0) = 3, we can substitute the values and find the particular solution. When t = 0, y = 3:

|20 + 2(3)| = e^(0 + C)

|26| = e^C

Since the exponential function is always positive, we can remove the absolute value signs:

26 = e^C

Taking the natural logarithm of both sides, we get:

C = ln(26)

Substituting this value back into the general solution equation, we have:

|20 + 2y| = e^(t + ln(26))

The given differential equation is dy/(1 - y) + y - 2 = 3t + t². To solve this equation, we can first rearrange it:

dy/(1 - y) = (3t + t² - y + 2) dt

Next, we separate the variables:

dy/(1 - y) + y - 2 = (3t + t²) dt

Integrating both sides, we obtain:

ln|1 - y| + (1/2)y² - 2y = (3/2)t² + (1/3)t³ + C

where C is the constant of integration. This is the general solution to the differential equation.

The given initial value problem is dy/dt - y = e^(-y)(2t - 4) with the initial condition y(5) = 0. To solve this problem, we can use an integrating factor. The integrating factor is given by e^(-∫dt) = e^(-t) (since the coefficient of y is -1).

Multiplying both sides of the differential equation by the integrating factor, we have:

e^(-t)dy/dt - ye^(-t) = (2t - 4)e^(-t)

Using the product rule on the left-hand side, we can rewrite the equation as:

d/dt(ye^(-t)) = (2t - 4)e^(-t)

Integrating both sides, we get:

ye^(-t) = -2te^(-t) + 4e^(-t) + C

Considering the initial condition y(5) = 0, we can substitute t = 5 and y = 0:

0 = -10e^(-5) + 4e^(-5) + C

Simplifying, we find:

C = 6e^(-5)

Substituting this value back into the equation, we have:

ye^(-t) = -2te^(-t) + 4e^(-t) + 6e^(-5)

This is the solution to the given initial value problem.

Learn more about logarithm here: brainly.com/question/30226560

#SPJ11




4) Find an approximate value of y(1), if y(x) satisfies y' = y + x², y(0) = 1 a) Using five intervals b) Using 10 intervals c) Exact value after solving the equation.

Answers

The approximate value of y(1) using five intervals is 2.963648, using ten intervals is 2.963634, and the exact value is 1.718282.

a) Using five intervals:

To approximate the value of y(1) using five intervals, we can use the Euler's method. The step size, h, is given by (1 - 0) / 5 = 0.2. We start with the initial condition y(0) = 1 and compute the approximate values of y at each interval.

Using Euler's method:

At x = 0.2: y(0.2) ≈ y(0) + h(y'0) = 1 + 0.2(1 + 0²) = 1.2

At x = 0.4: y(0.4) ≈ y(0.2) + h(y'0.2) = 1.2 + 0.2(1.2 + 0.2²) = 1.464

At x = 0.6: y(0.6) ≈ y(0.4) + h(y'0.4) = 1.464 + 0.2(1.464 + 0.4²) = 1.8296

At x = 0.8: y(0.8) ≈ y(0.6) + h(y'0.6) = 1.8296 + 0.2(1.8296 + 0.6²) = 2.31936

At x = 1.0: y(1.0) ≈ y(0.8) + h(y'0.8) = 2.31936 + 0.2(2.31936 + 0.8²) = 2.963648

Therefore, the approximate value of y(1) using five intervals is 2.963648.

b) Using ten intervals:

Using the same approach with a step size of h = (1 - 0) / 10 = 0.1, we can calculate the approximate value of y(1) as 2.963634.

c) Exact value after solving the equation:

To find the exact value of y(1), we can solve the given differential equation y' = y + x² with the initial condition y(0) = 1. After solving, we obtain the exact value of y(1) as e - 1 ≈ 1.718282.

To know more about Euler's method, click here: brainly.com/question/30699690

#SPJ11

Use log4 2 = 0.5, log4 3 0.7925, and log4 5 1. 1610 to approximate the value of the given expression. Enter your answer to four decimal places. log4

Answers

The approximate value of log4 2 is 0.5.

What is the approximate value of log4 2 using the given logarithmic approximations?

The given expression is "log4 2".

Using the logarithmic properties, we can rewrite the expression as:

log4 2 = log4 (2^1)

Applying the property of logarithms, which states that log_b (a^c) = c ˣ log_b (a), we have:

log4 2 = 1 ˣ  log4 2

Now, we can use the given logarithmic approximations to find the value of log4 2:

log4 2 ≈ 1 ˣ  log4 2

      ≈ 1 ˣ  0.5 (using log4 2 = 0.5)

Therefore, the value of log4 2 is approximately 0.5.

Learn more about log4 2

brainly.com/question/387529

#SPJ11

A normal population has a mean of $76 and a standard deviation of $17. You select random samples of nine. what is the probability that the sampling error would be more than 1.5 hours?

Answers

The probability that the sampling error would be more than 1.5 hours, obtained from the z-score table is about 39.36%

What is a z-score?

A z-score is an indication or measure of the number of standard deviations, of a datapoint from the mean of a distribution.

The standard error of the mean = The population standard deviation ÷ (The square root of the sample size)

Therefore; The standard error = $17/√9 ≈ $5.67

The z-score for a value of 1.5 units above the can be found as follows;

z-score = (The value less the mean)/(The standard error)

Therefore; z-score ≈ (76 + 1.5 - 76)/5.67 ≈ 0.265

The z-score table indicates that the probability of obtaining a z-score  larger than 0.265 is; 1 - 0.60642 ≈ 0.3936

Therefore, the probability that the sampling error would be more than 1.5 hours is about 39.36%

Learn more on the z-score here: https://brainly.com/question/30235243

#SPJ4







Question 3 Find the particular solution of dx² using the method of undetermined coefficients. - 2 4 +5y = e-3x given that y(0) = 0 and y'(0) = 0 [15]

Answers

The particular solution to the given initial value problem is:

y = (-1/24)eˣ cos(√3x) + (1/8)eˣ sin(√3x) + (1/24)[tex]e^{-3x}[/tex]

The particular solution of the differential equation, we will use the method of undetermined coefficients.

The given differential equation is:

d²y/dx² - 2dy/dx + 4y + 5y = [tex]e^{-3x}[/tex]

To find the particular solution, we assume a particular form for y, which includes the terms present in the non-homogeneous equation. In this case, we assume y has the form:

[tex]y_{p}[/tex] = A

where A is a constant to be determined.

Taking the first and second derivatives of [tex]y_{p}[/tex]

[tex]y'_{p}[/tex] = -3A[tex]e^{-3x}[/tex]

[tex]y''_{p}[/tex] = 9A[tex]e^{-3x}[/tex]

Now, substitute [tex]y_{p}[/tex] and its derivatives into the original differential equation:

9A[tex]e^{-3x}\\[/tex] - 2(-3A)[tex]e^{-3x}[/tex] + 4(A[tex]e^{-3x}[/tex]) + 5(A[tex]e^{-3x}[/tex]) = [tex]e^{-3x}[/tex]

Simplifying the equation:

9A[tex]e^{-3x}[/tex] + 6A[tex]e^{-3x}[/tex] + 4A[tex]e^{-3x}[/tex] + 5A[tex]e^{-3x}[/tex] = [tex]e^{-3x}[/tex]

(24A)[tex]e^{-3x}[/tex] = [tex]e^{-3x}[/tex]

24A = 1

A = 1/24

Therefore, the particular solution  is:

[tex]y_{p}[/tex] = (1/24)[tex]e^{-3x}[/tex]

The complete solution, we need to consider the complementary solution, which is the solution to the homogeneous equation:

d²y/dx² - 2dy/dx + 4y + 5y = 0

The characteristic equation is:

r² - 2r + 4 = 0

Using the quadratic formula, we find two distinct complex roots: r = 1 ± i√3.

The complementary solution is:

[tex]y_{c}[/tex] = c₁eˣ cos(√3x) + c₂eˣ sin(√3x)

To find the complete solution, we add the particular and complementary solutions:

y = [tex]y_{c}[/tex] + [tex]y_{p}[/tex]

y = c₁eˣ cos(√3x) + c₂eˣ sin(√3x) + (1/24)[tex]e^{-3x}[/tex]

Finally, we use the initial conditions y(0) = 0 and y'(0) = 0 to determine the values of c₁ and c₂:

y(0) = c₁e⁰ cos(√3(0)) + c₂e⁰ sin(√3(0)) + (1/24)e⁰ = 0

c₁ + (1/24) = 0

c₁ = -1/24

y'(0) = -c₁e⁰ sin(√3(0)) + c₂e⁰ cos(√3(0)) + (1/24)(-3) = 0

c₂ - 1/8 = 0

c₂ = 1/8

Therefore, the particular solution to the given initial value problem is:

y = (-1/24)eˣ cos(√3x) + (1/8)eˣ sin(√3x) + (1/24)[tex]e^{-3x}[/tex]

To know more about particular solution click here :

https://brainly.com/question/31591549

#SPJ4

Other Questions
the nmda receptor is a(n) receptor that when it binds its neurotransmitter allows entry into the cell AutoAudio sells and installs automobile sound systems. AutoAudio has very popular CD changer that it sells. Annual demand for the changer is 520 units. Their supplier offers the following prices to AutoAudio:QuantityPrice Per Unit1-60 units$21061-120 units$200Over 120 units$180Carrying costs are 20% PER YEAR and ordering cost is $50 PER ORDER.a.What is the basic economic order quantity for each of the three price ranges?b.In what price range is the EOQ?c.Which order quantity will provide the lowest total cost? 9 Determine the amount of the Earned Income Credit in each of the following cases. Assume that the person or persons are eligible to take the credit. Use Table 9-3. Required: Calculate the credit usin given: n points in the rectilinear plane find: minimum dimeter disk containing all n points give a linear algorithm o(n) for the problem above. 1. An integral cooked 4 ways. Let R be the region in R bounded by the lines y = x + 1, y = 3r, and r=0. (a) Sketch the region R, labelling all points of interest. 1 mark (b) By integrating first with respect to x, then with respect to y find 3 marks R^e^x+ 2y dx dy. (Hint: You may need to split the region R in two.) (c) By instead integrating first with respect to y, then with respect to x find R^e^x+ 2y dx dy. Solve the following LP using M-method [10M] Maximize z=x + 5xSubject to 3x + 4x 6 x + 3x 2, X1, X, 0. Let A = {1, 2, 3, 4, 5, 6, 7, 8), let B = {2, 3, 5, 7, 11} and let C = {1, 3, 5, 7, 9). Select the elements in (ANB) UC from the list below: 0 1 02 03 04 0 5 06 D7 08 09 O 11 find the maclaurin series for the function. (use the table of power series for elementary functions.) f(x) = ln(1 x7) f(x) = [infinity] n = 1 Freud believed that all facets of personality arise from conflict between our impulses and the restraints against them. true or false? stion 12 (3 points) Eagle Corp. has an inventory turnover ratio of 6.7X. The industry average inventory turnover ratio is 8.9X. Based on this comparison, what can we most likely say about Eagle Corp? Determine the area under the standard normal curve (a) lies to the left of z = -3.49 (b) lies to the right of z = 3.11 (c) to the left of z = -1.68 or to the right of z = 3.05 (d) lies between z = -2.55 and z = 2.55 Calendar Inbox History Help MF Mostly survy 1 pint Hailey Corp paid $12,000 for one year of insurance on January 1. How much will Hailey record as an insurance expense on March 31st, adjustments are made at the end of each month? $1,000 O $2.000 $10.000 $3,000 2 1 Hailey Corp paid $12,000 for one year of insurance on January 1. How much will Hailey record as an insurance expense on 0 5:13 PM 5/27/2022 hil tod Dashboard Calendar jo to Hatory Help MY Mly sunny 2 Hailey Corp paid $12,000 for one year of insurance on January 1. How much will Hailey record as an insurance expense on March 31st, if no adjustments have been made in the last 3 months. (Note: Difference in last sentence) $1,000 13.000 $2.000 O $10.000 Submit de And $13 PM 1/27/2002 Answer in your own words.Scientists often refer to emission lines from aparticular atomic gas as "atomic fingerprints." Why is this termused? Why do two elements never have the same"fingerprint?" find the fourier series of the function f on the given interval. f(x) = 0, < x < 0 1, 0 x < put the verb in correct order. drive/you/it/me/can/speed/when/you/slowly?/nervous/makes Let the random variable Z follow a standard normal distribution. a. Find P(Z < 1.24) e. Find P(1.24 1.73) f. Find P(-1.64 - 1.16). Note: Make sure to practice finding the probabilities below using both the table for cumulative probabilities and Excel. Tip: Plot the density function and represent the probabilities as areas under the curve. a. P(Z < 1.24)= (Round to four decimal places as needed. The median of a continuous random variable X can be defined as the unique real number m that satisfies P(X m) = P(X < m) = 1/2. Find the median of the following random variables a. X~Uniform(a, b) b. Y ~ Exponential()c. W ~ N(, ^2) A market survey for a product was conducted on a sample of 600 people. The survey asked the respondents to rate the product from 1 to 5, noting score of at least 3 to be good. The survey results showed that 75 respondents gave the product a rating of 1, 99, gave a rating of 2, 133 gave a 3, 172 rated 4, and 121 gave a 5. Construct a 95% confidence interval for the proportion of good ratings. (b) Analysis of a random sample consisting of n = 20 specimens of cold-rolled to determine yield strengths resulted in a sample average strength of x, = 29.8 ksi. A second random sample of n = 25 two-sided galvanized steel specimens gave a sample average strength of x2 = 34.7 ksi. Assuming that the two yield- strength distributions are normal with o, 4.0 and =5.0. Does the data indicate that the corresponding true average yield strengths, and are different? Carry out a test at a = 0.01. What would be the likely decision if you test at a = 0.05 ? 3. (20 points) People arrive at a store at a Poisson rate = 3 per hour.a) What is the expected time until the 10th client arrives?b) What's the probability that the time elapsed between the 10th and 11th arrival exceeds 4 hours? c) If clients are male with probability 1/3, what is the expected number of females arriving from 91 to 11am?d) Given that at 7:30am (store opens at 8am) there was only one client in the store (one arrival), what is the probability that this client arrived after 7:20am?