What are examples of ratio questions?

For example, Charlie and David share some sweets in the ratio of 3:5 . This means that for every 3 sweets Charlie gets, David receives 5 sweets. Charlie and David share 40 sweets, how many sweets do they each get? We use the ratio to divide 40 sweets into 8 equal parts.

What are ratio examples?

A ratio is an ordered pair of numbers a and b, written a / b where b does not equal 0. A proportion is an equation in which two ratios are set equal to each other. For example, if there is 1 boy and 3 girls you could write the ratio as: 1 : 3 (for every one boy there are 3 girls)

What is a ratio in math year 10?

Ratio is a relationship between two or more quantities showing the number of times one is contained within the other(s) . Ratios are written in the form a : b , a:b, a:b, which is said “ a to b” where a and b are normally integers, fractions or decimals.

How to calculate ratio formula?

If you are comparing one data point (A) to another data point (B), your formula would be A/B . This means you are dividing information A by information B. For example, if A is five and B is 10, your ratio will be 5/10. Solve the equation. Divide data A by data B to find your ratio.

What is the trick to ratios?

Tip 1: In ratio, if both the antecedent and the consequent are multiplied or divided by the same number (except 0) then the ratio will remain the same . Tip 2:If a proportion is such as a:x::x:b then x is called the mean proportional or second proportional of a and b.

What is the formula for the ratio question?

The ratio of two numbers can be calculated using the ratio formula, p:q = p/q . Let us find the ratio of 81 and 108 using the ratio formula. We will first write the numbers in the form of p:q = p/q. Here 81: 108 = 81/ 108.

How to simplify a ratio?

Like fractions, ratios can often be simplified. To simplify a ratio, divide all parts of the ratio by their highest common factor . For example, the highest common factor of both parts of the ratio 4:2 is 2 , so 4:2=2:1 4 : 2 = 2 : 1 .

What are the applications of ratios in GCSE?

Use a ratio You may be given a ratio and asked to use the ratio to solve problems . For example, a purple paint in made by mixing red and blue paint in the ratio 2 : 3 2:3 2:3. Use the ratio to work out how many litres of red and blue paint are needed to make 40 litres of purple paint.

Sum. the parts of the ratio to get the total number of parts. Find the value of one part by dividing the amount by the total number of parts . Find the value of each share in the ratio by multiplying the number of parts in each share by the value of one part.

How do you ask a ratio question?

A ratio is a comparison of two values within a dataset. You might ask, “ What is the ratio of the number of boys to the number of girls in the dataset? ” This question can help you understand the relationship between two variables and how they might be related.

What is a ratio scale question example?

The common example of a ratio scale is length, duration, mass, money age , etc. For the purpose of marketing research, a ratio scale can be useful to evaluate sales, price, share, and a number of customers.

What is an example of a ratio word problem?

For example, if I were to make macaroni and cheese for a group of 6 people and I knew that a 12 cup of macaroni would feed one person, then I could multiply 6 times 12 to get 3 . Well, 3 to 6 is my ratio, and this ratio tells me that for every 3 cups of macaroni that I have, I can serve 6 people.

15 Ratio Questions And Practice Problems (KS3 & KS4): Harder GCSE Exam Style Questions Included (2024)

Ratio questions appear throughout KS3 and KS4 building on what students have learnt in primary school. Here we provide a range of ratio questions and practice problems of varying complexity to use with your own students in class or as inspiration for creating your own.

What is ratio?

Ratio is used to compare the size of different parts of a whole. For example, in a whole class of 30 students there are 10 girls and 20 boys. The ratio of girls:boys is 10:20 or 1:2. For every one girl there are two boys.

Uses of ratio

You might see ratios written on maps to show the scale of the map or telling you the currency exchange rate if you are going on holiday.

Ratio will be seen as a topic in its own right as well as appearing within other topics. An example of this might be the area of two shapes being in a given ratio or the angles of a shape being in a given ratio.

15 Ratio Questions And Practice Problems (KS3 & KS4): Harder GCSE Exam Style Questions Included (1)

Ratio in KS3 and KS4

In KS3, ratio questions will involve writing and simplifying ratios, using equivalent ratios, dividing quantities into a given ratio and will begin to look at solving problems involving ratio. In KS4 these skills are recapped and the focus will be more on problem solving questions using your knowledge of ratio.

Download this 15 Ratio Questions And Practice Problems (KS3 & KS4) Worksheet

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Proportion and ratio

Ratio often appears alongside proportion and the two topics are related. Whereas ratio compares the size of different parts of a whole, proportion compares the size of one part with the whole. Given a ratio, we can find a proportion and vice versa.

Take the example of a box containing 7 counters; 3 red counters and 4 blue counters:

The ratio of red counters:blue counters is 3:4.

For every 3 red counters there are four blue counters.

The proportion of red counters is \frac{3}{7} and the proportion of blue counters is \frac{4}{7}

3 out of every 7 counters are red and 4 out of every 7 counters are blue.

Direct proportion and inverse proportion

In KS4, we learn about direct proportion and inverse proportion. When two things are directly proportional to each other, one can be written as a multiple of the other and therefore they increase at a fixed ratio.

How to solve a ratio problem

When looking at a ratio problem, the key pieces of information that you need are what the ratio is, whether you have been given the whole amount or a part of the whole and what you are trying to work out.

If you have been given the whole amount you can follow these steps to answer the question:

Add together the parts of the ratio to find the total number of shares
Divide the total amount bythe total number of shares
Multiply by the number of shares required

If you have been been given a part of the whole you can follow these steps:

Identify which part you have been given and how many shares it is worth
Use equivalent ratios to find the other parts
Use the values you have to answer your problem

Ratio tables are another technique for solving ratio problems.

How to solve a proportion problem

As we have seen, ratio and proportion are strongly linked. If we are asked to find what proportion something is of a total, we need to identify the amount in question and the total amount. We can then write this as a fraction:

\[\frac{\text{amount in question}}{\text{total amount}}\]

Proportion problems can often be solved using scaling. To do this you can follow these steps:

Identify the values that you have been given which are proportional to each other
Use division to find an equivalent relationship
Use multiplication to find the required relationship

Real life ratio problems and proportion problems

Ratio is all around us. Let’s look at some examples of where we may see ratio and proportion:

Cooking ratio question

When making yoghurt, the ratio of starter yogurt to milk should be 1:9. I want to make 1000ml of yoghurt. How much milk should I use?

Here we know the full amount – 1000ml.

The ratio is 1:9 and we want to find the amount of milk.

Total number of shares = 1 + 9 = 10
Value of each share: 1000 ÷ 10 = 100
The milk is 9 shares so 9 × 100 = 900

I need to use 900ml of milk.

Maps ratio question

The scale on a map is 1:10000. What distance would 3.5cm on the map represent in real life?

Here we know one part is 3.5. We can use equivalent ratios to find the other part.

The distance in real life would be 35000cm or 350m.

Speed proportion question

I travelled 60 miles in 2 hours. Assuming my speed doesn’t change, how far will I travel in 3 hours?

This is a proportion question.

I travelled 60 miles in 2 hours.
Dividing by 2, I travelled 30 miles in one hour
Multiplying by 3, I would travel 90 miles in 3 hours

15 Ratio Questions And Practice Problems (KS3 & KS4): Harder GCSE Exam Style Questions Included (6)

KS2 ratio questions

Ratio is introduced in KS2. Writing and simplifying ratios is explored and the idea of dividing quantities in a given ratio is introduced using word problems such as the question below, before being linked with the mathematical notation of ratio.

Example KS2 worded question

Richard has a bag of 30 sweets. Richard shares the sweets with a friend. For every 3 sweets Richard eats, he gives his friend 2 sweets. How many sweets do they each eat?

KS3 ratio questions

In KS3 ratio questions ask you to write and simplify a ratio, to divide quantities into a given ratio and to solve problems using equivalent ratios.

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Ratio questions year 7

1. In Lucy’s class there are 12 boys and 18 girls. Write the ratio of girls:boys in its simplest form.

12:30

3:2

18:12

2:3

The question asks for the ratio girls:boys so girls must be first and boys second. It also asks for the answer in its simplest form.

2. Gertie has two grandchildren, Jasmine, aged 2, and Holly, aged 4. Gertie divides £30 between them in the ratio of their ages. How much do they each get?

Jasmine £15, Holly £15

Jasmine £15, Holly £7.50

Jasmine £10, Holly £20

Jasmine £2, Holly £4

£30 is the whole amount.

Gertie divides £30 in the ratio 2:4.

The total number of shares is 2 + 4 = 6.

Each share is worth £30 ÷ 6 = £5.

Jasmine gets 2 shares, 2 x £5 = £10.

Holly gets 4 shares, 4 x £5 = £20.

Ratio questions year 8

3. The ratio of men:women working in a company is 3:5. What proportion of the employees are women?

\frac{3}{5}

\frac{3}{8}

\frac{5}{8}

\frac{5}{3}

Ratio questions year 9

5. The angles in a triangle are in the ratio 3:4:5. Work out the size of each angle.

30^{\circ} , 40^{\circ} and 50^{\circ}

22.5^{\circ}, 30^{\circ} and 37.5^{\circ}

60^{\circ} , 60^{\circ} and 60^{\circ}

45^{\circ} , 60^{\circ} and 75^{\circ}

The angles in a triangle add up to 180 ^{\circ} . Therefore 180 ^{\circ} is the whole and we need to divide 180 ^{\circ} in the ratio 3:4:5.

The total number of shares is 3 + 4 + 5 = 12.

Each share is worth 180 ÷ 12 = 15 ^{\circ} .

3 shares is 3 x 15 = 45 ^{\circ} .

4 shares is 4 x 15 = 60 ^{\circ} .

5 shares is 5 x 15 = 75 ^{\circ} .

6. Paint Pro makes pink paint by mixing red paint and white paint in the ratio 3:4.

Colour Co makes pink paint by mixing red paint and white paint in the ratio 5:7.

Which company uses a higher proportion of red paint in their mixture?

They are the same

Paint Pro

Colour Co

It is impossible to tell

The proportion of red paint for Paint Pro is \frac{3}{7}

The proportion of red paint for Colour Co is \frac{5}{12}

We can compare fractions by putting them over a common denominator using equivalent fractions

\frac{3}{7} = \frac{36}{84} \hspace{3cm} \frac{5}{12}=\frac{35}{84}

\frac{3}{7} is a bigger fraction so Paint Pro uses a higher proportion of red paint.

KS4 ratio questions

In KS4 we apply the knowledge that we have of ratios to solve different problems. Ratio is an important topic in all exam boards, including Edexcel, AQA and OCR. Ratio questions can be linked with many different topics, for example similar shapes and probability, as well as appearing as problems in their own right.

Read more: Question Level Analysis Of Edexcel Maths Past Papers (Foundation)

Ratio GCSE exam questions foundation

7. The students in Ellie’s class walk, cycle or drive to school in the ratio 2:1:4. If 8 students walk, how many students are there in Ellie’s class altogether?

We have been given one part so we can work this out using equivalent ratios.

The total number of students is 8 + 4 + 16 = 28

Ratio GCSE exam questions higher

11. The ratio of milk chocolates:white chocolates in a box is 5:2. The ratio of milk chocolates:dark chocolates in the same box is 4:1.

If I choose one chocolate at random, what is the probability that that chocolate will be a milk chocolate?

\frac{53}{35}

\frac{9}{12}

\frac{2}{5}

\frac{20}{33}

To find the probability, we need to find the fraction of chocolates that are milk chocolates. We can look at this using equivalent ratios.

To make the ratios comparable, we need to make the number of shares of milk chocolate the same in both ratios. Since 20 is the LCM of 4 and 5 we will make them both into 20 parts.

We can now say that milk:white:dark is 20:8:5. The proportion of milk chocolates is \frac{20}{33} so the probability of choosing a milk chocolate is \frac{20}{33} .

12. In a school the ratio of girls:boys is 2:3.

25% of the girls have school dinners.

30% of the boys have school dinners.

What is the total percentage of students at the school who have school dinners?

55\%

28\%

5\%

140\%

In this question you are not given the number of students so it is best to think about it using percentages, starting with 100%.

100% in the ratio 2:3 is 40%:60% so 40% of the students are girls and 60% are boys.

25% of 40% is 10%.

30% of 60% is 18%.

The total percentage of students who have school dinners is 10 + 18 = 28%.

13. For the cuboid below, a:b = 3:1 and a:c = 1:2.

Find an expression for the volume of the cuboid in terms of a.

\frac{2}{3}a^{3}

\frac{1}{3}a^{3}

3a^{3}

6a^{3}

If a:b = 3:1 then b=\frac{1}{3}a

If a:c = 1:2 then c=2a.

\begin{aligned}\text{Volume of a cuboid } &= \text { length } \times \text{ width }\times \text { height }\\&= 2a \times \frac{1}{3}a \times a\\&=\frac{2}{3}a^{3}\end{aligned}

Difficult ratio GCSE questions

14. Bill and Ben win some money in their local lottery. They share the money in the ratio 3:4. Ben decides to give £40 to his sister. The amount that Bill and Ben have is now in the ratio 6:7.

Calculate the total amount of money won by Bill and Ben.

£560

£70

£140

£600

Initially the ratio was 3:4 so Bill got £3a and Ben got £4a. Ben then gave away £40 so he had £(4a-40).

The new ratio is 3a:4a-40 and this is equal to the ratio 6:7.

Since 3a:4a-40 is equivalent to 6:7, 7 lots of 3a must be equal to 6 lots of 4a-40.

\begin{aligned}\\ 7 \times 3a &= 6 \times (4a-40)\\\\21a&=24a-240\\\\3a&=240\\\\a&=80\end{aligned}

The initial amounts were 3a:4a. a is 80 so Bill received £240 and Ben received £320.

The total amount won was £560.

15. On a farm the ratio of pigs:goats is 4:1. The ratio of pigs:piglets is 1:6 and the ratio of gots:kids is 1:2.

What fraction of the animals on the farm are babies?

\frac{1}{8}

\frac{2}{8}

\frac{86}{105}

\frac{55}{80}

The easiest way to solve this is to think about fractions.

\\ \frac{4}{5} of the animals are pigs, \frac{1}{5} of the animals are goats.

\frac{1}{7} of the pigs are adult pigs, so \frac{1}{7} of \frac{4}{5} is \frac{1}{7} \times \frac{4}{5} = \frac{4}{35}

\frac{6}{7} of the pigs are piglets, so \frac{6}{7} of \frac{4}{5} is \frac{6}{7} \times \frac{4}{5} = \frac{24}{35}

\frac{1}{3} of the goats are adult goats, so \frac{1}{3} of \frac{1}{5} is \frac{1}{3} \times \frac{1}{5} = \frac{1}{15}

\frac{2}{3} of the goats are kids, so \frac{2}{3} of \frac{1}{5} is \frac{2}{3} \times \frac{1}{5} = \frac{2}{15}

The total fraction of baby animals is \frac{24}{35} + \frac{2}{15} = \frac{72}{105} +\frac{14}{105} = \frac{86}{105}

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