How does inTABS™ work?

To acquire behaviour, the student must engage in behaviour…learning by doing.” (B.F. Skinner, psychologist)

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inTABS™ ‘brings learning to life’ for instant mastery of the times table that lasts a life-time.

inTABS™ (shortened form of Interactive Tables) is a powerful kinaesthetic or multi-sensory learning system to achieve fast and effective results.

But how does it work [you mean show me the magic, Ed.]?

Interactive Learning

Uniquely, the answers to the equations are concealed which means the learner must interact with the book to reveal the answers. This interactive or kinaesthetic element creates powerful associations between the equations & the answers for memory and instant recall.

It works by using the established principles of Conditioning from psychology: through repeated interactions between the equations and answers, strong associations are formed (Classical Conditioning); which are positively reinforced or ‘rewarded’ when the child gets the answers right (Operant Conditioning).  Thus, the end result is a conditioned or automatic response when the equation alone is presented, i.e. instant recall! Seemingly simple but devastatingly effective.

Moreover, owing to the multi-sensory nature of learning involved (whereby they can visually map, see, touch, do etc.), the deeper level of processing means that not only will it work on gaining instant recall but also on retaining it over time.

In terms of Piaget’s Stages of Cognitive Development for children (the cornerstone of the Western educational model), the kinaesthetic nature of this book conforms to the Concrete Operational Stage (typically 7-11 years) whereby:

the child is now mature enough to use logical thought or operations (i.e. rules) but can only apply logic to physical objects (hence concrete operational)“.

Kinaesthetic learning is ideal for children (or adults) who benefit most from powerful interactive learning styles as opposed to the traditional rote learning methods used in schools which are not suitable for everyone. In the words of one of the most influential psychologists in the world, B. F. Skinner:

to learn, a student must engage in behaviour, and not just passively receive information.”

Kinaesthetic learning methods have been used with great success in Montessori schools.

Number Patterns

inTABS™ facilitates learning & detection of number patterns & symmetries using the unique shape coded patterns on the most recurring answers on the times table (12,24,36).

For example, ask the child to ‘find all the 12 answers’ on the grid: they will find that not only are all the 12 answers shape coded (hexagon) but also form an interesting ‘arc’ on the grid and the same again for 24(square) and 36(circle). This Facilitates an understanding of the relative relationships between numbers and their symmetries (3 x 4 is the same as 4 x 3 etc) as well as making learning fun, engaging and interesting. This is particularity useful for learners who engage more with patterns to make sense of things.

This can be also be turned into a fun game of ‘finding matching pairs‘ for children to learn symmetry: finding and lifting tabs to the equations that result in the same answer.

Traditional methods Vs.  inTABS™

You may be wondering what’s wrong with the traditional ‘finger tricks‘, ‘chanting the tables‘ or the ‘flash cards‘ methods that are widely used in schools (and in homes) and have been around in one form or another since the Victorian era? The simple answer is that they are not the same as instant recall which is key to not only to mastery of multiplication but to proficiency in maths (division, long multiplication, fractions, percentages, algebra etc). These antiquated methods rely upon tapping into a learned sequential methodology which is too slow: recall should be 2-3 seconds (under 2 seconds is excellent).

If we take the UK as an example: the simple truth is that if current/pre-existing methods worked, they wouldn’t have sunk to the bottom of the developed world for numeracy resulting in an innumeracy crisis in Britain (costing their economy over £20billion per year) with profoundly devastating outcomes for children’s futures (including twice as likely to be unemployed, general social deprivation and crime), arguably more so than the impact of illiteracy.

This is reinforced by Ofsted, the Schools Watchdog, findings concluding:

pupils without instant recall of the multiplication table struggle in maths”.  

Thus, the educational gap / inequality will continue to get worse, unless we do something about it. Now.

Computers Vs.  inTABS™

You may now reasonably ask, that’s all very well but my school (or home) has the latest technology/IT, so we’re OK, aren’t we? The short answer is no. Research shows that computers do not improve results in maths and if anything:

[OECD] think tank says frequent use of computers in schools is more likely to be associated with lower [maths] results“.


In summary, instant recall (knowing off by heart) of the times table is cardinal to proficiency in maths in the same way mastering the ABC is to literacy. This fundamental has to be ensured to enable progress in maths.  It’s perhaps best summed up in the words of the Ofsted Education Director:

“Without [instant recall] is like sending a plumber out to do a job without knowing how to use a spanner“ (Jean Humphrys, Ofsted’s education director).

Otherwise, the writing is clearly on the wall:

Primary schools which fail to teach times tables by heart are condemning children to a lifetime struggling with numbers, [Ofsted] inspectors have warned.” 

inTABS™ was scientifically, not to mention painstaking and lovingly, developed over 18 months to make a difference in the belief that all children can gain mastery of the times table if they are given the right tools.

In short, with inTABS™: Every Child Counts!

See the magic for yourself

This product has undergone rigorous testing with amazing results but don’t just take our word for it – put it to the test yourself:

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Ensure  >  Empower >  Enjoy 

Is Numeracy important?

What is the issue?

Low levels of numeracy are a long-term problem for the UK.

1. Numeracy skills have got worse, not better

Proportion of working age adults in England with skills levels equivalent to GCSE “C” grade or above

2. High numeracy is connected to better…

3. The UK risks becoming less competitive internationally

The scale and cost of the issue

The causal chain of poor numeracy

In the UK, socio-economic background influences a child’s achievement by 10% to 20%

30% wrongly assume that maths is a skill
you are born with, rather than a skill
that can be learnt

At school, children are often not prepared for using math in everyday life

Of 15-16 year olds doing GCSE math in the UK…

24% of 16-24 year olds achieving A*-C grade at GCSE reach the equivalent level in the Skills for Life assessment

1 in 4 adults in the UK believe school math did not prepare them well for math in everyday life

Among those aged 24+
numeracy skills decline with age

 But too few people take steps to improve their numeracy


Data sources:
Skills for Life 2011; PIAAC 2014; National Numeracy YouGov Survey 2014

When we say “low numeracy” we usually mean those below Level 2 on the UK adult qualifications scale.

Image credits:
Created by Christian Wad and Jack Curry from the Noun Project.

Article source: National Numeracy


Read full article here

Poor Numeracy: more than twice as likely to be unemployed


“People with poor numeracy skills are more than twice as likely to be unemployed”


Innumeracy costs the UK £20.2 Billion per year; 17 million adults (nearly half of the adult population) have numeracy at/below primary school level.

There is substantial evidence that low numeracy skills are associated with poor outcomes:

  • Employment
    People with poor numeracy skills are more than twice as likely to be unemployed
  • Wages
    Recent data by the OECD show a direct relationship between wage distribution and numeracy skills
  • Health
    In OECD and UK basic skills reports, the correlation between poor numeracy and poor health is clear; data from the British Cohort Studies have shown that there is also a link between depression and poor numeracy
  • Social, emotional and behavioural difficulties
    Children with these problems are more likely to struggle with numeracy, even taking into account factors such as home background and general ability
  • School exclusions
    Pupils beginning secondary school with very low numeracy skills but good literacy skills have an exclusion rate twice that of pupils starting secondary school with good numeracy skills
  • Truancy
    14-year-olds who have poor math skills at 11 are more than twice as likely to play truant
  • Crime
    A quarter of young people in custody have a numeracy level below that expected of a 7-year-old, and 65% of adult prisoners have numeracy skills at or below the level expected of an 11-year-old.

Poor numeracy is also a problem in its own right. It can affect people’s confidence and self-esteem. Research from a review of adult up-skilling in numeracy by the Department for Business, Innovation and Skills has demonstrated that improving numeracy directly contributes to growth in personal and social confidence

The digital age

The digital age presents us with more numerical data than ever before and puts a new premium on numeracy skills.

Computers can do the mathematical processing for us, but we need good numeracy in order to use them effectively – to enter the right data and decide whether the answer seems approximately right.

Right now around 90% of new graduate jobs require a high level of digital skills (Race Online 2012), and digital skills are built on numeracy.

(Article source: National Numeracy)


“Good numeracy is the best protection against unemployment, low wages and poor health.” (OECD)


Read the full article here