Numerical Ability Tests
The first type of numerical ability test covers basic arithmetic (addition, subtraction multiplication and division), number sequences and simple mathematics (percentages, powers, fractions, etc). This type of test can be categorized as a speed test and is used to determine your basic numeracy. Obviously you will not be allowed to use a calculator.
We recommend JobTestPrep’s practice numerical tests.
1. 139 + 235 =
2. 139 - 235 =
3. 5 x 16 =
4. 45 / 9 =
5. 15% of 300 =
6. ½ + ¼ x 3/4 =
These questions are directly applicable to many administrative and clerical jobs but can also appear as a component of graduate and managerial tests. The speed at which you can answer these questions is the critical measure, as most people could achieve a very high score given unlimited time in which to answer. You can therefore expect 25-35 questions in 20-30 minutes.
These questions require you to find the missing number in a sequence of numbers. This missing number may be at the beginning or middle but is usually at the end.
7. Find the next number in the series
4, 8, 16, 32, —
8. Find the next number in the series
4, 8, 12, 20, —
9. Find the missing number in the series
54, 49, — 39, 34
10. Find the first number in the series
— 19, 23, 29, 31,
These number sequences can be quite simple like the examples above. However, you will often see more complex questions where it is the interval between the numbers that is the key to the sequence
11. Find the next number in the series
3, 6, 11, 18 —
12. Find the next number in the series
48, 46, 42, 38, —
These number sequences usually consist of four visible numbers plus one missing number. This is because the test designer needs to produce a sequence into which only one number will fit. The need to avoid any ambiguity means that if the number sequence relies on a more complex pattern then there will need to be more visible numbers. For example;
13. Find the missing number in the series.
4, 3, 5, 9, 12, 17, —
14. Find the missing numbers in the series
5, 6, 7, 8, 10, 11, 14, —, —
15. Find the missing numbers in the series
1, —, 4, 7, 7, 8, 10, 9, —
7. B – The numbers double each time
8. A – Each number is the sum of the previous two numbers
9. B – The numbers decrease by 5 each time
10. D – The numbers are primes (divisible only by 1 and themselves)
11. C – The interval, beginning with 3, increases by 2 each time
12. B – The interval, beginning with 2, increases by 2 and is subtracted each time
13. D – Each number is the sum of the previous and the number 3 places to the left
14. C A – There are 2 simple interleaved sequences 5,7,10,14,19 and 6,8,11,15
15. A D – There are 2 simple interleaved sequences 1,4,7,10,13 and 6,7,8,9
To solve these number sequence questions efficiently, you should first check the relationship between the numbers themselves looking for some simple arithmetic relationship. Then look at the intervals between the numbers and see if there is a relationship there. If not, and particularly if there are more than 4 numbers visible, then there may be two number sequences interleaved.
You will occasionally find multiplication, division, or powers used in these sequences, but test designers tend to avoid them as these operations soon lead to large numbers which are difficult to work out without a calculator.
Letter of the Alphabet as Numbers
Another type of sequence question which appears in these tests involves the substitution of letters of the alphabet for numbers. For example A=1, B=2 etc. It may seem strange to consider these as numerical reasoning questions but they actually work in the same way once you have changed them back into numbers.
16. Find the next letter in the series
B, E, H, K, —
17. Find the next letter in the series
A, Z, B, Y, —
18. Find the next letter in the series
T, V, X, Z, —
16. iii – There are two letters missing between each one, so N is next
17. i – There are 2 interleaved sequences A,B,C and Z,Y, so C is next
18. ii – Miss a letter each time and ‘loop’ back, so B is next
Because arithmetic operations cannot be performed on letters there is less room for ambiguity in these questions. This means that interleaved sequences can be used with fewer visible letters than in questions that use numbers. Question 17 for example can use 2 interleaved sequences even though only four letters are visible. This would be very difficult to achieve with numbers.
It is implicit in these ‘alphabetic sequence’ questions that the sequence ‘loops’ back around and starts again. See question 18. It is important to recognize this as it is not usually stated explicitly – you are just expected to know it.
If you see more than one of these questions in a test then it is almost certainly worth taking the time to write out the letters of the alphabet with their ordinal numbers underneath. You can then treat these questions in a similar way to number sequence questions. This can save a lot of time overall and avoid simple mistakes.
Information is provided that requires you to interpret it and then apply the appropriate logic to answer the questions. Sometimes the questions are designed to approximate the type of reasoning required in the workplace. These data interpretation questions will often use very specific illustrations, for example the question may present financial data
or use information technology jargon. However, an understanding of these areas is not required to answer the question.
19. Below are the sales figures for 3 different types of network server over 3 months.
19a. In which month was the sales value highest?
19b. What is the unit cost of server type ZXC53?
19c. How many ZXC43 units could be expected to sell in April?
19d. Which server had its unit price changed in March?
20. Below are some figures for agricultural imports. Answer the following questions using the data provided. You may use a calculator for this question.
20a. Which month showed the largest total decrease in imports over the previous month?
20b. What percentage of rice was imported in April?
20c. What was the total cost of wheat imports in the 5 month period?
20a. B – April, 12 tons
20b. C - 21%, 30 tons out of a total of 141
20c. A - $27,456 made up of 176 tons at an average of $156/ton
See here for further example numerical reasoning questions.
Numerical ability tests can be divided into tests of simple numeracy, where you are told which arithmetic operations to apply, and numerical reasoning tests where you are presented with some data and questions but the methods required to answer the questions are not specified. In all cases you need to prepare by practicing your mental arithmetic until you are both quick and confident. Your score in the simple speed tests will be very much influenced by your ability to add, subtract, multiply and divide quickly and accurately.
Even though you will need to do fewer arithmetic operations in the reasoning tests, there is no point in working out how to arrive at the answer if you make a simple mistake when calculating it. Although you are allowed to use a calculator for some questions, you should make a habit of mentally estimating your answers as a way of checking them.
Numerical Reasoning questions assess your ability to use numbers in a logical and rational way. The questions require a basic level of education in order to successfully complete and are therefore measuring numerical ability rather than educational achievement. The questions measure your understanding of such things as number series, numerical transformations, the relationships between numbers and your ability to perform numerical calculation.
You may also be interested in:
Aptitude Tests Introduction, Question Types & Scoring, The Difference between Speed & Power Tests, Verbal Ability Tests, Numerical Ability Tests, Abstract Reasoning Tests, Spatial Ability Tests, Mechanical Aptitude Tests, Data Checking Tests, Work Sample Tests, Interpreting Aptitude Test Results, Different Types of Scoring Systems, Standard Scores, Percentiles & Norming and Using the Results to Make Selection Decisions.