Chapter 10.1, Problem 45E

Solution

(a).

To calculate: The probability that none shows any preferences.

The probability that shows any preferences is $2.7\%.$

Given information:

By the age of $1$ , many infants display a tendency to favor one hand over the other. About $60\%$ favor their right hands, about $10\%$ favor their left hands, and the rest show no preference yet. Suppose you observe $3$ unrelated year-old infants at a day care center.

Calculation:

The chance of no preference is $30\%$ for one kid, and there are $3$ children, so it's ${(0.3)}^3$ .

  $\left(0.3\right)\left(0.3\right)\left(0.3\right)=0.027$

Multiply by $100$ to make it a percentage:

  $\left(0.027\right)100=2.7\%$

Hence, the probability that shows any preferences is $2.7\%.$

(b).

To calculate: The probability that all show a preference for one hand or the other.

The probability that all show a preference for one hand or the other is $34.3\%.$

Given information:

By the age of $1$ , many infants display a tendency to favor one hand over the other. About $60\%$ favor their right hands, about $10\%$ favor their left hands, and the rest show no preference yet. Suppose you observe $3$ unrelated year-old infants at a day care center.

Calculation:

All $3$ have to show a preference for a hand, so you add the chance of left hand $\left(10\%\right)$ to the chance of right hand $\left(60\%\right)$ to get $0.7$ :

  $\left(0.6+0.1\right)=0.7$

The $70\%$ chance is for each kid, so you raise it to the $3\text{rd}$ power because there's $3$ kids.

  ${(0.7)}^3=0.343$

Hence, the probability that all show a preference for one hand or the other is $34.3\%.$

(c).

To calculate: The probability that all show a preference for the same hand.

The probability that all show a preference for the same hand is $21.7\%.$

Given information:

By the age of $1$ , many infants display a tendency to favor one hand over the other. About $60\%$ favor their right hands, about $10\%$ favor their left hands, and the rest show no preference yet. Suppose you observe $3$ unrelated year-old infants at a day care center.

Calculation:

Let $R=$ favor right hand

  $L=$ favor left hand

  $\begin{array}{l}P\left(R\right)=60\%=0.6\\ P\left(L\right)=10\%=0.1\end{array}$

We all people show a preference for the same hand, then all people show a preference for the right hand or all people show a preference for the left hand.

Since the three observed year-old infants are unrelated, it is safe to assume that the favoring of hands does not depend on the preference of other people and thus the events are independent.

Use the multiplication rule for independent events:

  $P(A\cap B)=P(A \text{ and } B)=P(A)\times P(B)$

  $\begin{array}{l}P(\text{All} R)=P(R)\times P(R)\times P(R)\\ =0.6\times 0.6\times 0.6\\ =0.63\\ =0.216\\ P(\text{All }L)\text{}=P(L)\times P(L)\times P(L)\\ =0.1\times 0.1\times 0.1\\ =0.13\\ =0.001\text{}\end{array}$

Since it is not possible that all people show a preference for both the right hand and a preference for the left hand, the events "All  $R$ " and "All  $L$ " are mutually exclusive (as they can't occur at the same time).

Use the addition rule for disjoint or mutually exclusive events:

  $P(A\cup B)=P(A \text{or} B)=P(A)+P(B)$

  $\begin{array}{l}P(\text{All R or all L})\text{}=P(\text{All R})+P(\text{All L})\\ =0.216+0.001\\ =0.217\\ =21.7\%\text{}\end{array}$

Hence, the probability that all show a preference for the same hand is $21.7\%.$