Consider the observations taken on the continuous random variable Y given below. Graph the data using...

Consider the observations taken on the continuous random variable Y given below.

Graph the data using an appropriate plot. Comment on the key features of the graph.
Assess the normality of the data set. What do you conclude?
Compute the 5-number summary.
Treat the sample mean and sample standard deviation as if they are the true population mean and standard deviation. Find P (Y > 90).
Treat the sample mean and sample standard deviation as if they are the true population mean and standard deviation. With a sample size of n = 50, what is the sampling distribution of the sample average?
For a sample of size n = 50, find P(Y > 88.73).

Observation	y
1	87.08
2	89.61
3	85.22
4	83.32
5	84.82
6	83.62
7	92.42
8	88.35
9	87.13
10	85.25
11	89.61
12	86.71
13	83.28
14	94.99
15	87.79
16	92.85
17	84.81
18	84.35
19	89.09
20	90.66
21	91.34
22	91.80
23	85.62
24	86.88
25	86.40
26	90.11
27	88.93
28	86.29
29	90.68
30	85.04
31	85.28
32	85.71
33	92.89
34	91.16
35	87.45
36	84.90
37	91.95
38	93.79
39	89.28
40	90.75
41	85.39
42	90.27
43	86.13
44	85.13
45	82.04
46	89.52
47	87.20
48	87.35
49	86.70
50	93.00

Solutions

Expert Solution

Sol:

orchestra answered 1 year ago

Next > < Previous

Related Solutions

Consider the observations taken on the continuous random variable Y given below. Graph the data using...

Consider the observations taken on the continuous random variable Y given below. Graph the data using an appropriate plot. Comment on the key features of the graph. Assess the normality of the data set. What do you conclude? Compute the 5-number summary. Treat the sample mean and sample standard deviation as if they are the true population mean and standard deviation. Find P (Y > 90). Treat the sample mean and sample standard deviation as if they are the true...

Consider the observations taken on the continuous random variable Y given in the table. 1. Graph...

Consider the observations taken on the continuous random variable Y given in the table. 1. Graph the data using an appropriate plot. Comment on the key features of the graph. 2. Assess the normality of the data set. What do you conclude? 3. Compute the 5-number summary. 4. Treat the sample mean and sample standard deviation as if they are the true population mean and standard deviation. Find P(Y > 90). 5. Treat the sample mean and sample standard deviation...

Consider the observations taken on the continuous random variable Y given in this dataset. x/y 0...

Consider the observations taken on the continuous random variable Y given in this dataset. x/y 0 1 P(X=x) 0 0.72 0.08 0.80 1 0.08 0.12 0.20 P(Y=y) 0.80 0.20 1 1. Graph the data using an appropriate plot. 2. What are the key features of the graph? 3. Assess the normality of the data set. What can be concluded? 4. Compute the 5-number summary. Treat the sample mean and sample standard deviation as if they are the true population mean...

Consider the observations taken on the continuous random variable Y given in this dataset. x/y 0...

Consider the observations taken on the continuous random variable Y given in this dataset. x/y 0 1 P(X=x) 0 0.72 0.08 0.80 1 0.08 0.12 0.20 P(Y=y) 0.80 0.20 1 Graph the data using an appropriate plot. 2. What are the key features of the graph? 3. Assess the normality of the data set. What can be concluded? 4. Compute the 5-number summary. Treat the sample mean and sample standard deviation as if they are the true population mean and...

Consider the observations jointly taken on the binary random variables X and Y given in the...

Consider the observations jointly taken on the binary random variables X and Y given in the “Problem 1” worksheet in the Table. 1. Organize the data in a two-way table by counting the number of observations that fall within each of the following cells: {X = 0, Y = 0}, {X = 0, Y = 1}, {X = 1, Y = 0}, and {X = 1, Y = 1}. 2. Use observed cell counts found in part 1 to estimate...

The data resulting from a random sample of 5 observations are shown below. Y is the...

The data resulting from a random sample of 5 observations are shown below. Y is the dependent variable, and X1 and X2 are the independent variables. Observation Y X1 X2 1 87 95 11 2 86 94 11 3 84 94 11 4 83 93 12 5 84 93 12 Use Excel's Regression tool to answer the following questions. To copy the data set, highlight the table, press Ctrl-c, click on the Excel cell to which you want to copy,...

Random variable X is a continuous uniform (0,4) random variable and Y=X^(1/2). (Note: Y is always...

Random variable X is a continuous uniform (0,4) random variable and Y=X^(1/2). (Note: Y is always the positive root.) What is the P[X>=E[X]] ? What is the E[Y] ? what is the P[Y>=E[Y]]? what is the PFD of fY(y)?

The probability function of a random variable Y is given as follows. ?(? = ?) =...

The probability function of a random variable Y is given as follows. ?(? = ?) = { 0.20, ? = 48 // 0.45, ? = 15 /// 0.14, ? = 32 // 0.05, ? = 43 /// 0.16, ? = 54 /// 0, ?. ?. a) Find the range of the random variable Y. b) Find the expected value and standard deviation of Y. c) Let ? = ? 10 + 2.70, Find the expected value and variance of X

Determine whether the value is a discrete random variable, continuous random variable, or not a random...

Determine whether the value is a discrete random variable, continuous random variable, or not a random variable. a. The number of bald eagles in a countrynumber of bald eagles in a country b. The number of points scored during a basketball gamenumber of points scored during a basketball game c. The response to the survey question "Did you smoke in the last week question mark "response to the survey question "Did you smoke in the last week?" d. The number...

The probability density function of the continuous random variable X is given by fX (x) =...

The probability density function of the continuous random variable X is given by fX (x) = kx, (0 <= x <2) = k (4-x), (2 <= x <4) = 0, (otherwise) 1) Find the value of k 2)Find the mean of m 3)Find the Dispersion σ² 4)Find the value of Cumulative distribution function FX(x)

Subjects