A ratio compares the relationship between two values. It tells us how much there is of one thing compared to another.
If we want to describe the relationship between the number of blue dots and the number of green dots, we could say that there is $1$1 blue dot for every $3$3 green dots. We could also express this as a ratio, which we would write as $1:3$1:3.
It is important that both quantities are in the same units, otherwise we cannot compare them with a ratio. In the example above, we are comparing one blue dot to three green dots, so a single dot can be thought of as our unit.
We can make equivalent ratios written in the form $a:b$a:b by multiplying or dividing each value in the ratio by the same number to preserve the proportions.
A ratio is a simplified ratio if there is no equivalent ratio with smaller integer values. This is the same as saying that the two integers in the ratio have a greatest common factor of $1$1. We simplify ratios by dividing both sides of a ratio expression by a common factor. A simplified ratio uses only integers. A ratio that includes fractions or decimals is not yet fully simplified and can be increased or decreased by an appropriate multiple to simplify it.
A recipe for a salad dressing includes $20$20 ml of vinegar and $60$60 ml of olive oil.
a) Fill in the table shown below to make equivalent ratios for a larger amount of dressing.
Vinegar | to | Olive Oil |
---|---|---|
$20$20 | : | $60$60 |
$30$30 | : | $90$90 |
$40$40 | : | $\editable{}$ |
$\editable{}$ | : | $300$300 |
Think: What do you need to multiply one side of the ratio by to get the known value? Multiply both sides by this value to get an equivalent ratio.
Do:
Vinegar | to | Olive oil | Vinegar | to | Olive oil | |
$20$20 | : | $60$60 | $20$20 | : | $60$60 | |
$\times2$×2 | $\times2$×2 | $\times5$×5 | $\times5$×5 | |||
$40$40 | : | $\editable{}$ | $\editable{}$ | : | $300$300 |
So the completed table is:
Vinegar | to | Olive Oil |
---|---|---|
$20$20 | : | $60$60 |
$30$30 | : | $90$90 |
$40$40 | : | $120$120 |
$100$100 | : | $300$300 |
b) What is the simplified ratio of vinegar to olive oil in the dressing?
Think: What is the greatest common factor of $20$20 and $60$60? Divide both sides of the ratio by this number.
Do:Vinegar | to | Olive oil |
$20$20 | : | $60$60 |
$\div20$÷20 | $\div20$÷20 | |
$1$1 | : | $3$3 |
The simplified ratio of vinegar to olive oil is $1:3$1:3. A simplified ratio is great for simple recipes, this one tells us we need three times as much olive oil than vinegar. So rather than measuring in millilitres, if we have $1$1 tablespoon on vinegar we know we need to put $3$3 tablespoons of olive oil.
Write $30$30 to $70$70 as a fully simplified ratio.
We may also want to divide a quantity into a given ratio. This can be done using two main methods. The unitary method and the fraction method.
The unitary method is named for the key step in which we find one part (one unit) of the whole amount. From there we can find the value of any number of parts. The fraction method finds what fraction of the whole each side of the ratio is.
Unitary method
Fraction method
Amir and Keira shared $\$720$$720 in the ratio $4:5$4:5. How much did each person get?
Method 1. The unitary method
Think: There are $4+5=9$4+5=9 parts in total, so we can find one part by dividing $\$720$$720 by $9$9 parts to get $\$80$$80. We can now use the knowledge that Amir gets $4$4 parts and Keira gets $5$5 parts to find each share of the money.
Do:
Amir's share | $=$= | $4\times\$80$4×$80 |
$=$= | $\$320$$320 | |
Keira's share | $=$= | $5\times\$80$5×$80 |
$=$= | $\$400$$400 |
Reflect: The total of Amir's share and Keira's share should sum to the total amount:
$\$320+\$400=\$720$$320+$400=$720
Method 2. The fraction method
Since we know there are $9$9 parts in total, and Amir gets $4$4 parts and Keira gets $5$5 parts, then Amir will get $\frac{4}{9}$49 of the total and Keira will get $\frac{5}{9}$59 of the total.
Amir's share | $=$= | $\frac{4}{9}\times\$720$49×$720 |
$=$= | $\$320$$320 | |
Keira's share | $=$= | $\frac{5}{9}\times\$720$59×$720 |
$=$= | $\$400$$400 |
Notice that multiplying $720$720 by $\frac{5}{9}$59 is effectively the same as dividing it by $9$9 (the total number of parts) and then multiplying it by $5$5 (the number of parts we want to find).
A salad dressing is supposed to have a $5:16$5:16 ratio of vinegar to oil.
If there are $13$13 mL of vinegar, how many mL of oil should be added?
Round your answer to the nearest whole mL.
We can also use ratios to relate three quantities in the form $a:b:c$a:b:c.
This works using the same rules as before, however all three quantities must be multiplied or divided by the same number when simplifying or finding equivalent ratios.
A certain paint colour has a ratio of blue, yellow and red given by $2:3:6$2:3:6. If $20$20 ml of blue paint is added how much red paint will be added?
Think: We can consider just the relevant parts of the ratio for this question, the blue to red ratio will be $2:6$2:6.
Do: We can multiply both sides by $20$20 to find an equivalent ratio:
$2:6$2:6 | $=$= | $1:3$1:3 |
Simplifying the ratio |
$=$= | $20:60$20:60 |
Multiplying both sides by $20$20 |
|
Amount of red paint | $=$= | $60$60 mL |
|
Reflect: Notice that the ratio of just two parts can be simplified, however the original ratio can not be simplified as not all three parts can simplify.
A piece of rope is cut into three lengths in the ratio $3:4:8$3:4:8. The shortest length of rope is measured to be $18$18 m long.
Find the middle length of the rope.
Find the longest length of the rope.
Now calculate the total length of the rope.