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Ratios | Mathematics for GCSE/IGCSE - Year 11 PDF Download

What is a ratio?

  • A ratio is a method of comparing one part of a whole to another
  • A ratio can be represented as a fraction (of the whole)
  • Ratios are commonly used when illustrating how things are divided or in situations involving scale factors
  • For instance, if a pizza is divided into 8 slices and shared in the ratio 6:2, it implies that person A gets 6 slices, and person B gets 2 slices

How do I simplify a ratio or find an equivalent ratio?

  • When we talk about ratios, we are essentially comparing two quantities. For instance, if we have a pizza cut into 8 slices and they are shared in the ratio 6:2, we are comparing the amounts received by two individuals.
  • It's important to understand that ratios can be simplified. For example, the ratio 6:2 can also be expressed as 3:1 by dividing both sides of the ratio by 2. This simplification does not change the relative amounts each person receives.
  • Simplifying ratios is akin to simplifying fractions. Just like 1/2 is equivalent to 2/4, the ratio 6:2 is equivalent to 3:1. The key is to ensure that the ratio's proportions remain the same.
  • When determining an equivalent ratio, it involves either multiplying or dividing both sides of the ratio by the same number.
  • For example, consider a giant pizza cut into 800 slices. Person A might get 600 slices, while Person B would receive 200 slices. In this scenario, both sides of the ratio have been scaled by a factor of 100.
  • Scaling ratios is a flexible process. It allows us to maintain proportionality, such as ensuring that Person A consistently receives three times the amount that Person B receives.
  • Scaling ratios is akin to finding equivalent fractions or simplifying them. However, it's crucial to note that a ratio like 1:4 is not the same as 1/4.

How do I use a ratio to find a fraction?

  • Ratios can be used to calculate a fraction of a total amount. 
  • For instance, if 8 pizza slices are shared in the ratio 6:2, Person A would receive 6 out of 8 slices, which is 6/8 or 3/4 of the pizza.
  • Similarly, Person B would get 2 out of 8 slices, which is 2/8 or 1/4 of the pizza. 
  • These fractions can be converted to percentages if necessary.

Working with Ratios

How do I share an amount into a ratio?

  • If we have $200 to divide between individuals A and B in the ratio 5:3
  • This ratio translates to a total of 8 parts, with A receiving 5 parts and B receiving 3 parts
  • To split $200 into 8 parts, each part is valued at $25 ($200 ÷ 8 = $25)
  • Illustrating this division with a simple diagram can aid understanding:
    Ratios | Mathematics for GCSE/IGCSE - Year 11
  • Person A gets 5 parts, each valued at $25, totaling $125 for person A (5 × 25 = $125)
  • Person B gets 3 parts, each valued at $25, totaling $75 for person B (3 × 25 = $75)
  • Ensure that the sum of the amounts for each person equals the total amount: $125 + $75 = $200

What do I do when given the difference in a ratio problem?

  • When faced with a scenario involving ratios, rather than being provided with the total quantity, you might be given the discrepancy between two separate shares.
  • For instance, consider a situation in a parking lot where the ratio of blue cars to silver cars is 3:5, with the added information that there are 12 more silver cars than blue cars.
  • Some students find it helpful to show this in a simple diagram
    Ratios | Mathematics for GCSE/IGCSE - Year 11
  • The difference in the number of parts of the ratio is 2 (5 – 3 = 2)
    Ratios | Mathematics for GCSE/IGCSE - Year 11
  • The difference in the number of cars is 12
    Ratios | Mathematics for GCSE/IGCSE - Year 11
  • This means that 2 parts = 12 cars
  • We can simplify this to 1 part = 6 cars (by dividing both sides by 2)
    Ratios | Mathematics for GCSE/IGCSE - Year 11
  • Now that we know how much 1 part is worth, we can find how many cars of each colour there are, and the total number of cars
    Ratios | Mathematics for GCSE/IGCSE - Year 11
    • 3 parts are blue
      3 × 6 = 18 blue cars
    • 5 parts are silver
      5 × 6 = 30 silver cars
    • 8 parts in total
      8 × 6 = 48 cars in total

Given one part of a ratio, how can I find the other part?

  • Instead of being provided with the total quantity to be divided, you might be given the value of one side of the ratio.
  • For instance, consider a fruit drink prepared by blending concentrate with water in the ratio 2:3. We aim to determine the volume of water required to be added to 5 litres of concentrate.
  • Some students find it helpful to show this in a simple diagram
    Ratios | Mathematics for GCSE/IGCSE - Year 11
  • We are told that there are 5 litres of concentrate, and it must be mixed in the ratio 2:3
  • This means that the two parts on the left, are equivalent to 5 litres
    Ratios | Mathematics for GCSE/IGCSE - Year 11
  • This means that 1 part must be equal to 2.5 litres (5 ÷ 2 = 2.5)
    Ratios | Mathematics for GCSE/IGCSE - Year 11
  • Now that we know how much 1 part is worth, we can find how many litres of water are required, and the total amount of fruit drink produced
    Ratios | Mathematics for GCSE/IGCSE - Year 11
    3 parts are water3 × 2.5 = 7.5 litres of water
    5 parts in total
    5 × 2.5 = 12.5 litres of fruit drink produced in total

How do I combine two ratios to make a 3-part ratio?

  • Consider a scenario where you are presented with two distinct ratios that interconnect, forming a 3-part ratio.
  • Imagine a farm housing a total of 85 animals.
    • Ratio of cows to sheep: 2:3
    • Ratio of sheep to pigs: 6:7
    • Objective: Determine the quantity of each animal on the farm.
    • Directly distributing 85 animals based on the ratios 2:3 or 6:7 isn't feasible as these ratios do not encompass all the animals independently.
      • It's necessary to establish a consolidated, 3-part ratio illustrating the proportional shares of all animals collectively.
      • Key Insight: Leveraging the common entity, sheep, in both ratios as a connecting link.
        • Given C:S = 2:3 and S:P = 6:7, scale the C:S ratio by 2 to standardize both ratios concerning 6 sheep.
        • Resulting in C:S = 4:6 and S:P = 6:7, which can be amalgamated into a comprehensive ratio, C:S:P = 4:6:7.
      • Allocation of Animals
        • Utilize the unified ratio 4:6:7 to apportion the 85 animals accordingly.
        • With a total of 17 parts (4 + 6 + 7 = 17) in the ratio, each part corresponds to 5 animals (85 ÷ 17 = 5).
        • Consequently, there are 20 cows (4 x 5), 30 sheep (6 x 5), and 35 pigs (7 x 5) on the farm.

Question for Ratios
Try yourself:
When dividing a pizza into 8 slices and sharing in the ratio 6:2, how many slices does person A receive?
View Solution

The document Ratios | Mathematics for GCSE/IGCSE - Year 11 is a part of the Year 11 Course Mathematics for GCSE/IGCSE.
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FAQs on Ratios - Mathematics for GCSE/IGCSE - Year 11

1. What is a ratio?
Ans. A ratio is a comparison of two quantities that shows how many times one quantity is contained within another. It is typically written in the form of a fraction or with a colon between the two numbers.
2. How are ratios used in mathematics?
Ans. Ratios are used in mathematics to compare quantities, make predictions, solve problems involving proportions, and understand relationships between different values.
3. Can ratios be simplified?
Ans. Yes, ratios can be simplified by dividing both numbers by their greatest common factor to obtain an equivalent ratio with smaller numbers.
4. What is the difference between a ratio and a proportion?
Ans. A ratio compares two quantities, while a proportion is an equation that states two ratios are equal. In other words, a proportion is a statement that two ratios are equivalent.
5. How can ratios be used in everyday life?
Ans. Ratios can be used in everyday life to compare prices, calculate ingredients in a recipe, determine distances on a map, and analyze financial statements, among other applications.
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