SOCR EduMaterials Activities Discrete Distributions
From Socr
(Difference between revisions)
Line 26: | Line 26: | ||
* '''Exercise 4:''' Verify that your answers in exercise 3agree with the formulas we discussed in class, for example, <math> P(X=x)=(1-p)^{x-1}p </math>, <math> P(X > k)=(1-p)^k </math>, etc. Write all your answers in detail using those formulas. | * '''Exercise 4:''' Verify that your answers in exercise 3agree with the formulas we discussed in class, for example, <math> P(X=x)=(1-p)^{x-1}p </math>, <math> P(X > k)=(1-p)^k </math>, etc. Write all your answers in detail using those formulas. | ||
- | * '''Exercise 5:''' Let <math> X </math> follow the hypergeometric probability distribution with <math> N=52 </math>, <math> n=10 </math>, and number of | + | * '''Exercise 5:''' Let <math> X </math> follow the hypergeometric probability distribution with <math> N=52 </math>, <math> n=10 </math>, and number of "hot" items 13. Use SOCR to graph and print this distribution. |
Below you can see a snapshot of the distribution of <math> X \sim hypergeometric(N=100, n=15, r=30) </math> | Below you can see a snapshot of the distribution of <math> X \sim hypergeometric(N=100, n=15, r=30) </math> | ||
Line 33: | Line 33: | ||
* '''Exericise 7:''' Binomial approximation to hypergeometric: | * '''Exericise 7:''' Binomial approximation to hypergeometric: | ||
- | Let <math> X </math> follow the hypergeometric probability distribution with <math> N=1000, n=10 <\math> and number of | + | Let <math> X </math> follow the hypergeometric probability distribution with <math> N=1000, n=10 <\math> and number of "hot" items 50. Graph and print this distribution. |
* '''Exercise 8:''' Refer to exerciise 7. Use SOCR to compute the exact probability: <math> P(X=2) </math>. Approximate <math> P(X=2) </math> using the binomial distribution. Is the approximation good? Why? | * '''Exercise 8:''' Refer to exerciise 7. Use SOCR to compute the exact probability: <math> P(X=2) </math>. Approximate <math> P(X=2) </math> using the binomial distribution. Is the approximation good? Why? | ||
- | * '''Exercise 9:''' Do you think you can approximate well the hypergeometric probability distribution with <math> N=50, n=10 </math>, and number of | + | * '''Exercise 9:''' Do you think you can approximate well the hypergeometric probability distribution with <math> N=50, n=10 </math>, and number of "hot" items 40 using the binomial probability distribution? Explain. |
Revision as of 02:47, 22 October 2006
This is an activity to explore the Binomial, Geometric, and Hypergeometric Probability Distributions.
- Description: You can access the applets for the above distributions at http://www.socr.ucla.edu/htmls/SOCR_Distributions.html .
- Exercise 1: Use SOCR to graph and print the following distributions and answer the questions below. Also, comment on the shape of each one of these distributions:
a. , find P(X = 3), E(X), sd(X), and verify them with the formulas. b. , find . c. , find . d. , find P(X > 2).
Below you can see a snapshot of the distribution of
- Exercise 2: Use SOCR to graph and print the distribution of a geometric random variable with p = 0.2,p = 0.7. What is the shape of these distributions? What happens when p is large? What happens when p is small?
Below you can see a snapshot of the distribution of
- Exercise 3: Select the geometric probability distribution with p = 0.2. Use SOCR to compute the following:
a. P(X = 5) b. P(X > 3) c. d. P(X > 6) e. f. g. P(4 < X < 9)
- Exercise 4: Verify that your answers in exercise 3agree with the formulas we discussed in class, for example, P(X = x) = (1 − p)x − 1p, P(X > k) = (1 − p)k, etc. Write all your answers in detail using those formulas.
- Exercise 5: Let X follow the hypergeometric probability distribution with N = 52, n = 10, and number of "hot" items 13. Use SOCR to graph and print this distribution.
Below you can see a snapshot of the distribution of
- Exercise 6: Refer to exercise 5. Use SOCR to compute P(X = 5) and write down the formula that gives this answer.
- Exericise 7: Binomial approximation to hypergeometric:
Let X follow the hypergeometric probability distribution with Failed to parse (unknown function\math): N=1000, n=10 <\math> and number of "hot" items 50. Graph and print this distribution. * '''Exercise 8:''' Refer to exerciise 7. Use SOCR to compute the exact probability: <math> P(X=2) . Approximate P(X = 2) using the binomial distribution. Is the approximation good? Why?
- Exercise 9: Do you think you can approximate well the hypergeometric probability distribution with N = 50,n = 10, and number of "hot" items 40 using the binomial probability distribution? Explain.
- SOCR Home page: http://www.socr.ucla.edu
Translate this page: