1️⃣ Row sum

Sum of every cell in a row = that row's probability

\(P(A \cap B) + P(A \cap \bar{B}) = P(A)\)

2️⃣ Column sum

Sum of every cell in a column = that column's probability

\(P(A \cap B) + P(\bar{A} \cap B) = P(B)\)

3️⃣ Grand total

Sum of all 4 inner cells = 1

Total row/column always sums to 1

4️⃣ Complement

\(P(A) + P(\bar{A}) = 1\)

\(P(B) + P(\bar{B}) = 1\)

\(P(M \cap \bar{P}) = P(M) - P(M \cap P) = 0.40 - 0.20 = 0.20\)

\(P(\bar{M} \cap P) = P(P) - P(M \cap P) = 0.50 - 0.20 = 0.30\)

\(P(\bar{P}) = 1 - P(P) = 1 - 0.50 = 0.50\)

\(P(\bar{M}) = 1 - P(M) = 1 - 0.40 = 0.60\)

\(P(\bar{M} \cap \bar{P}) = P(\bar{M}) - P(\bar{M} \cap P) = 0.60 - 0.30 = 0.30\)

Question 1: What is the probability that a student studies maths or physics (or both)?

\(P(M \cup P) = P(M) + P(P) - P(M \cap P) = 0.40 + 0.50 - 0.20 = 0.70\)

Or: sum of all cells except \(P(\bar{M} \cap \bar{P})\): \(1 - 0.30 = 0.70\)

Question 2: What is the probability that a student studies only maths (and not physics)?

\(P(M \cap \bar{P}) = 0.20\) (read directly from the table)

Question 3: What is the probability that a student studies neither subject?

\(P(\bar{M} \cap \bar{P}) = 0.30\) (read directly from the table)

Question 4: What is the probability that a student studies maths, given that they study physics?

\(P(M|P) = \frac{P(M \cap P)}{P(P)} = \frac{0.20}{0.50} = \frac{2}{5} = 0.40\)

Question 5: What is the probability that a student studies physics, given that they study maths?

\(P(P|M) = \frac{P(M \cap P)}{P(M)} = \frac{0.20}{0.40} = \frac{1}{2} = 0.50\)

Question 6: What is the probability that a student does not study physics, given that they do not study maths?

\(P(\bar{P}|\bar{M}) = \frac{P(\bar{M} \cap \bar{P})}{P(\bar{M})} = \frac{0.30}{0.60} = \frac{1}{2} = 0.50\)

\(P(M) \cdot P(P) = 0.40 \times 0.50 = 0.20\)

\(P(M \cap P) = 0.20\)

Since \(0.20 = 0.20\) ✓ → the events are independent!

Probability that a random student is a girl with glasses:

\(P(\text{girl} \cap \text{glasses}) = \frac{14}{30} = \frac{7}{15}\)

Probability that a student with glasses is a boy (conditional):

\(P(\text{boy}|\text{glasses}) = \frac{6}{20} = \frac{3}{10}\)

(6 boys with glasses out of 20 with glasses)

Probability that a random girl wears glasses:

\(P(\text{glasses}|\text{girl}) = \frac{14}{18} = \frac{7}{9}\)

(14 girls with glasses out of 18 girls)

1️⃣ Always draw a table

Even if not asked – it helps organise the data

2️⃣ Start with what is known

Fill in the given values first, then complete by subtraction

3️⃣ Check the sums

Rows and columns sum to their totals, and everything sums to 1

4️⃣ Conditional = divide

The required cell divided by the total of the condition