Chapter 3.2, Problem 44PPS

(a)

To determine

To graph: the system of inequalities to represent the situation.

Answer to Problem 44PPS

The region $R$ represents the shaded region where all inequalities are true.

Explanation of Solution

Given:

Team contains $10\text{ to }15$ players and there must be more girls than boys.

Concept used:

Graphing the inequalities, it will graph the ordinary linear functions just like it is done before. The difference is that a solution to the inequality is not the drawn line but the area of the coordinate plane that satisfy the inequality.

The boundary line is dashed for $<\text{or >}$ and solid line for $\le \text{or }\ge$ .

The difference is that a solution to the inequality is not the drawn line but area of the coordinate plane that satisfy the inequality.

The common area is the solution of inequality.

Calculation:

Expect $g$ be the number of girls and $b$ be the number of boys in the team.

Then, the combination of inequality to explain this situation is expressed as shown below.

  $\begin{array}{l}10\le g+b\le 15.\\ g>b.\\ g\ge 0.\\ b\ge 0.\end{array}$

Graph the inequalities as shown below:

Hence, the region $R$ represents the shaded region where all inequalities are true.

(b)

To determine

To find: the all possible combinations of boys and girls for the team.

Answer to Problem 44PPS

There is $40$ possible combination of boys and girls.

Explanation of Solution

Given:

Team contains $10\text{ to }15$ players and there must be more girls than boys.

Concept used:

The combination in general $n$ objects can be arranged in:

  $n\left(n-1\right)\left(n-2\right)$ ways.

A combination is a selection s of all part of a set of objects, without the regard to the order in which it is selected.

Calculation:

The possible combinations of boys and girls for the team are written as follows:

  $\begin{array}{l}\left(6,4\right),\left(6,5\right),\left(7,3\right),\left(7,4\right)\left(7,5\right),\left(7,6\right),\left(8,2\right),\left(8,3\right),\\ \left(8,4\right),\left(8,5\right),\left(8,6\right),\left(8,7\right),\left(9,1\right)\left(9,3\right),\left(9,4\right),\left(9,5\right),\\ \left(9,6\right),\left(10,0\right),\left(10,1\right),\left(10,2\right),\left(10,3\right),\left(10,4\right),\left(10,5\right),\\ \left(11,0\right),\left(11,1\right),\left(11,2\right),\left(11,3\right),\left(11,4\right),\left(12,0\right),\left(12,1\right),\\ \left(12,2\right),\left(12,3\right),\left(13,0\right),\left(13,1\right),\left(14,0\right),\left(14,1\right),\left(15,0\right).\end{array}$

Hence, there is $40$ possible combination of boys and girls.

(c)

To determine

To find: the reason for an infinite number of possibilities.

Answer to Problem 44PPS

There is not an infinite number of possibilities.

Explanation of Solution

Given:

Team contains $10\text{ to }15$ players and there must be more girls than boys.

Concept used:

If the given set is finite then there possible ways is also finites.

Calculation:

There is no infinite number of possibilities, because in a team there cant be fraction of players.

If the given set is finite then the possible ways is also finites.

Hence, there is not an infinite number of possibilities.