### Carnival time

"Math Teachers at Play" carnival #15 is posted at mathfuture.wikispaces.com/Math+teachers+at+play. Lots of interesting posts, once again. Go check it out!

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"Math Teachers at Play" carnival #15 is posted at mathfuture.wikispaces.com/Math+teachers+at+play. Lots of interesting posts, once again. Go check it out!

I was just sent a link to this site; all it is, is a handy one-page printable conversion chart for various US measures, metric measures, and US vs. metric measures. Includes even a comparative Fahrenheit vs. Celsius thermometer.

http://metricconversioncharts.org/

http://metricconversioncharts.org/

I got inspired by the blogpost Art School | Geometric Design with Islamic Art where Deborah shows how to make a neat **flower design with seven circles**, using a compass, and then coloring it using 2, 3, or 4 colors (or however many of your own). I think it ties in neatly with mathematics, and lets students practice drawing circles with a compass.

My girls loved the art/math project. Here are pictures they made:

Here are step-by-step instructions for the flower design:

1. Draw a line and a circle so that the circle's center point is on the line. Then mark the points where this circle intersects the line.

2. Use those points as center points, and draw two more circles. The radius is the same all the time, so make sure you don't change it on your compass!We used 5 cm as the radius, and that made the whole design fit neatly on a regular letter size paper.

3. Now note the two points marked in the picture. They will be used as center points in the next step.

4. Draw two more circle…

My girls loved the art/math project. Here are pictures they made:

Here are step-by-step instructions for the flower design:

1. Draw a line and a circle so that the circle's center point is on the line. Then mark the points where this circle intersects the line.

2. Use those points as center points, and draw two more circles. The radius is the same all the time, so make sure you don't change it on your compass!We used 5 cm as the radius, and that made the whole design fit neatly on a regular letter size paper.

3. Now note the two points marked in the picture. They will be used as center points in the next step.

4. Draw two more circle…

Someone asked me recently to make a post about logarithms. So here goes. I already answered the person in an email but I thought I could include some interesting history tidbits here, too.

Logarithms are simply the opposite operation of exponentation.

For example, from 23 = 8 we get log28 = 3, and we read it "base 2 logarithm of 8 equals 3".

So it's not difficult: if you understand how exponents work, logarithms have the same numbers, just in a little different places.

Just as in exponentiation, a logarithm has a base (2 in the above example). Remember that in 53, 5 is called the base and 3 is the exponent.

Other examples:

53 = 125 and log5125 = 3.

104 = 10,000 and log1010,000 = 4.

2x = 345 and log2345 = x.

As you can see from the last example above, you can use logarithms to solve equations where the*x* is the exponent:

4x = 1001

x = log41001.

Then you'd get the value of x from a calculator.

However, the base of the logarithm can be anything and most calculators only have two bu…

Logarithms are simply the opposite operation of exponentation.

For example, from 23 = 8 we get log28 = 3, and we read it "base 2 logarithm of 8 equals 3".

So it's not difficult: if you understand how exponents work, logarithms have the same numbers, just in a little different places.

Just as in exponentiation, a logarithm has a base (2 in the above example). Remember that in 53, 5 is called the base and 3 is the exponent.

Other examples:

53 = 125 and log5125 = 3.

104 = 10,000 and log1010,000 = 4.

2x = 345 and log2345 = x.

As you can see from the last example above, you can use logarithms to solve equations where the

4x = 1001

x = log41001.

Then you'd get the value of x from a calculator.

However, the base of the logarithm can be anything and most calculators only have two bu…