SOCR EduMaterials Activities Explore Distributions

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This is an activity to explore the relations among some of the commonly used probability distributions.

  • Geometric probability distribution: Let's roll two dice until a sum of 10 is obtained. What s the probability that the first sum of 10 will occur after the 5th trial? The answer to this question is \( P(X>5)=(1-\frac{33}{36})^5=0.6472. \). This is equivalent to the event that no sum of 10 is observed on the first 5 trials (5 failures). Now, using SOCR we can obtain this probability easily by entering in the SOCR geometric distribution applet \( p=\frac{3}{36}=0.0833 \) and in the Right Cut-Off box 5. We can find the desire probability on the right corner of the applet. The figure below clearly displays this probability.
SOCR Activities ExploreDistributions Christou figure1.jpg


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. \( X \sim b(10,0.5) \), find \( P(X=3) \), \( E(X) \), \( sd(X) \), and verify them with the formulas discussed in class.
    • b. \( X \sim b(10,0.1) \), find \( P(1 \le X \le 3) \).
    • c. \( X \sim b(10,0.9) \), find \( P(5 < X < 8), \ P(X < 8), \ P(X \le 7), \ P(X \ge 9) \).
    • d. \( X \sim b(30,0.1) \), find \( P(X > 2) \).

Below you can see a snapshot of the distribution of \( X \sim b(20,0.3) \)


SOCR Activities Binomial Christou binomial.jpg


  • 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 \( X \sim geometric(0.4) \)


SOCR Activities Christou geometric.jpg


  • 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. \( P(X \le 5) \)
    • d. \( P(X > 6) \)
    • e. \( P(X \ge 8) \)
    • f. \( P(4 \le X \le 9) \)
    • g. \( P(4 < X < 9) \)
  • Exercise 4: Verify that your answers in exercise 3 agree with the formulas discussed in class, for example, \( P(X=x)=(1-p)^{x-1}p \), \( P(X > k)=(1-p)^k \), 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 \( X \sim hypergeometric(N=100, n=15, r=30) \)


SOCR Activities Christou hypergeometric.jpg


  • 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 \( N=1000, \ n=10 \) and number of "hot" items 50. Graph and print this distribution.
  • Exercise 8: Refer to exerciise 7. Use SOCR to compute the exact probability\[ P(X=2) \]. 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.





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