Difference between revisions of "2S2122 Activity 1.1"

Instructions

• Answer the following problems individually and truthfully.
• Be sure to show your solutions and please box your final answers.
• Please write your complete name, student number, and section on the upper left corner of your answer sheet. No name, student number, and section, no grade.
• Save your answers in pdf file type with the filename format "section_lastname_firstname_studentnumber.pdf" all in small caps. For example: "abc_wayne_bruce_201101474.pdf".
• Submit your files in the respective submission bin in UVLE. Be sure to submit in the correct class!
• Have fun doing these exercises :) even though it may seem boring.
• You only have two weeks to work on the activities. We will post the hard deadline on UVLE.

Grading Rubrics

• If you have a good solution and a correct answer, you get full points.
• If you have a good solution but the answer is not boxed (or highlighted), you get a 5% deduction of the total points for that problem.
• If you have a good solution but the answer is wrong, you get a 20% deduction of the total points for that problem.
• If your solution is somewhat OK but incomplete. You only get 40% of the total problem.
• If you have a bad solution but with a correct answer. That sounds suspicious. You get 0% for that problem. A bad solution may be:
  • You just wrote the given.
  • You just dumped equations but no explanation to where they are used.
  • You attempted to put a messy flow to distract us. That's definitely bad.
• No attempt at all means no points at all.

Problem 1 (2 pts.)

Three fair coins are tossed successively.

(a) Write down the sample space. (0.1 pts)

(b) What are the events for when the first coin is a head? Let this be event ${\displaystyle E}$. (0.15 pts)

(c) What are the events for when the second coin is a tail? Let this be event ${\displaystyle F}$. (0.15 pts)

(d) Calculate ${\displaystyle P(E\cup F)}$. (0.4 pts)

(e) Calculate ${\displaystyle P(E\cap F)}$. (0.4 pts)

(f) Calculate ${\displaystyle P({\bar {E}})}$. (0.4 pts)

(g) Calculate ${\displaystyle P({\bar {F}})}$. (0.4 pts)

Problem 2 (2 pts.)

Two events ${\displaystyle A}$ and ${\displaystyle B}$ are such that ${\displaystyle P(A)=0.45}$, ${\displaystyle P(B)=0.22}$, and ${\displaystyle P(A\cup B)=0.53}$. Find ${\displaystyle P({\bar {A}}\cup {\bar {B}})}$. (2 pts)

Problem 3 (2 pts.)

In a factory producing IC chips, the total quantity of defective items found in a given week is ${\displaystyle 14\%}$. It is suspected that the majority of these come from two machines, ${\displaystyle X}$ and ${\displaystyle Y}$. An inspection shows that ${\displaystyle 8\%}$ of the output from ${\displaystyle X}$ and ${\displaystyle 4\%}$ of the output from ${\displaystyle Y}$ is defective. Furthermore, ${\displaystyle 11\%}$ of the overall output came from ${\displaystyle X}$ and ${\displaystyle 23\%}$ from ${\displaystyle Y}$. An IC chip is chosen at random and found out to be defective. What is the probability that it came from either ${\displaystyle X}$ or ${\displaystyle Y}$? (*Hint*: Read very carefully.) (2 pts.)

Problem 4 (2 pts.)

In eight tosses of a fair coin, find the probability that heads will come up:

(a) Exactly three times. (0.5 pts.)

(b) At least three times. (0.75 pts.)

(c) At most three times. (0.75 pts.)

Problem 5 (2 pts.)

Prove the following:

(a) Given some random variable ${\displaystyle X}$ and some constant ${\displaystyle c}$, show that ${\displaystyle {\textrm {Var}}(X+c)={\textrm {Var}}(X)}$. (1 pts.)

(b) Given some two independent random variables ${\displaystyle X}$ and ${\displaystyle Y}$, show that ${\displaystyle {\textrm {Var}}(X-Y)={\textrm {Var}}(X+Y)}$. (1 pts.)