Bottle Take Away
This site is based on the 10 green bottles rhyme, however you can display up to 21 bottles. It is excellent for children who are working on counting backwards and in particular 'one less' than a particular number.
5 Fat Sausages
This is a one less action rhyme which can be played to accompany the song. Alternatively the game can be played with 10 sausages. It could be used to predict subtraction to 10 when children are learning number bonds to 10.
Num Tanga Junior
Match the pairs which could be numerals, numbers as words, ten frames, base ten or fingers on hands. There are different levels the highest of which goes up to 20.
Ways to Make
Essentially a number bonds to 10 site the children need to find how many different ways they can put teddies in two houses. The site works well on an interactive whiteboard.
Dienes and Coins
Useful place value teaching resources for use on an interactive whiteboard. They cover hundreds, tens and ones and UK money. With some you will need to drag the Dienes blocks to represent the number you want. Please note the decimals section is faulty.
Alien Addition
A quick fire space invader type addition game. It is quite a challenge but will help you learn your number bonds to 20. Great for improving your mental maths skills.
Fruit Splat Addition
7 levels of addition sums to solve. The levels go up to adding two digit numbers with regrouping. Splat the fruit with the correct answers. Vary the speed to give yourself more time.
Math Limbo
A timed addition game where you solve the equations by adding two single digit numbers and choosing the answer or by choosing an equivalent addition. It can be used to speed up your mental arithmetic skills. Different levels.
100 Hunt
A simple game where you need to add 10 to other numbers on a hundred square. It is best displayed on full screen and would work well on an interactive whiteboard.
Fishy Times Tables
A clever interactive which demonstrates times tables up to 10 x 10. It is useful for showing the commutative law of multiplication which means you can multiply numbers in any order and the answer is the same.
