Chapter 1, Problem 4CA

(a)

To determine

To write: An equation that represents the no of cans bought by the person.

Answer to Problem 4CA

The equation for the cans is $132=24x+28\left(5-x\right)$ , the number of white cans is 2 and the number of blue cans is 3.

Explanation of Solution

Given:

The cost of white paint of one can is $\$24$ for dining room and the cost of blue paint of one can is $\$28$ for the living room. The total money spend on 5 cans is $\$132$ .

The requirement is to find an equation by the given numbers and symbols.

Consider $x$ as the number of white cans and $5-x$ as the number of blue cans.

Write an equation for the total cost of 5 cans by the provided information.

$132=24x+28\left(5-x\right)$

Now solve the equation for $x$ .

$\begin{array}{c}132=24x+28\left(5-x\right)\\ 132=24x+140-28x\\ 132-140=-4x\\ -8=-4x\end{array}$

Further simlify the above equation

  $\begin{array}{l}8=4x\\ x=\frac{8}{4}\\ x=2\end{array}$

Therefore, the number of white cans is 2 and the number of blue cans is 3.

Conclusion:

Thus, the equation for the cans is $132=24x+28\left(5-x\right)$ , the number of white cans is 2 and the number of blue cans is 3.

(b)

To determine

To find: The saved money if colors are switched for the dinning rom and living room.

Answer to Problem 4CA

The money saved by the person is $\$4$ .

Explanation of Solution

Calculation:

The colors are switched that means the cans of white paint is 3 and the cans of blue paint is 2.

There is need to find the cost of 3 white cans and 2 blue cans.

Substitute $x=3$ in the equation $132=24x+28\left(5-x\right)$ to find the cost of 3 white cans and 2 blue cans.

$\begin{array}{c}C=24\left(3\right)+28\left(5-3\right)\\ =24\left(3\right)+28\left(2\right)\\ =72+56\\ =128\end{array}$

The money spent by the person is $\$132$ and the money have to pay is $\$128$ if colors are switched.

Find the amount of saved money.

$\$132-\$128=\$4$

Therefore, the money saved by the person is $\$4$ .

Conclusion:

Thus, the money saved by the person is $\$4$ .