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New Online Math Game – Continuum

January 31st, 2011 by Steven Pomeroy | No Comments | Filed in Fractals, Games, Golden Rectangle, Math Games, Math Geometry, Math Software, online math games




Continuum – Action Math Game!

math games - continuum

The new online math game is out, and I hope you will enjoy it!

For this game, I included several math aspects.  The most obvious one is the use of fractals for the backgrounds.  I think they add a level of depth to the play fields – and are really cool to look at!

Next, I made all the bricks in the game golden rectangles.  Well, as close as I could anyway, because I had to use integer units in the design.  The dimensions of the bricks are 41 x 25 pixels, giving a ratio of 1.64 width to height, which is just a tad more than the actual value of approximately 1.61803399.

Lastly, I made as targets in the game polygons, which contain interfering balls after the polygons are destroyed.

This game is a little more mainstream from the others I have made for Math Tricks, but I think it is the most enjoyable.  Here is a game-play screen shot:

continuum - online math game

Anyway, it is online, and you can play it here.  Please feel free to give me any comments and suggestions!

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The Golden Ratio and the Fibonacci Sequence

December 27th, 2009 by Steven Pomeroy | No Comments | Filed in Fibonacci Sequence, Golden Rectangle, Math Tricks




So you have seen already a few posts about the golden ratio, which is approximately equal to 1.618. Are there math tricks that will allow you to determine the value for the golden ratio?  Well, since the title of this post is “The Golden Ratio and the Fibonacci Sequence”, then you might have guessed that there is a way to determine the golden ratio with the Fibonacci Sequence.

What the heck is the Fibonacci Sequence?  True, I have not written a post on it yet – but you just wait because there is a LOT to say about it later on – a LOT!!  But for now, let me just give you the sequence:

0,1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144, 233, …

Do you see the pattern?  Each value, starting with the second “1″ in the sequence, is simply the sum of the preceding two values.  The general formuls for the Fibonacci sequence is:

F(n) = F(n – 1) + F(n – 2)

So how does this interesting sequence of numbers relate to the golden ratio?  Take any value in the sequence and divide it by the preceding value – what do you get?

For example:

34/21 = 1.619

Looks familiar, eh?

Try it again for a pair farther down the sequence:

233/144 = 1.61806

In fact, this manipulation of the Fibonacci series converges to the golden ratio.

Also, you can perform this manipulation using an “out of frame” Fibonacci series – that is, choose any two consecutive numbers, apply the general formula F(n) = F(n – 1) + F(n – 2) to get a new sequence, and then from the new sequence you will be able to determine an approximation for the golden ratio by following the same procedure as outlined above.  For example, starting with 887 and 888, we get the series:

887, 888, 1775, 2663, 4438, 7101, 11539, 18640, 30179 ,48819, 78998, 127817, 206815, 334632

Notice here that you do not get a very good approximation if you divide 888 by 887.  But as you move down the sequence, the value you obtain gets closer and closer to the golden ratio:

334632/206815 = 1.6180258

A superb example of math tricks in nature!

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