 In astronomy (and in life) we encounter things that cover many different size scales:  The width of a human hair  The distance to Boston  The.

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Presentation transcript:

 In astronomy (and in life) we encounter things that cover many different size scales:  The width of a human hair  The distance to Boston  The length of the Milky Way  The metric system provides a standard way of describing all of these…

Width of a human hair: m = 150 µm Distance to Boston: 4,000,000 m = 4000 km Length of Milky Way: 950,000,000,000,000,000,000 m = 950,000,000,000,000,000 km

 In astronomy, we also use other distance distance scales: › The Astronomical Unit (AU): distance between Earth and Sun › The Light Year: distance light travels in one year 100,000 light years

In the metric system, we can easily convert from one scale to another: The distance to the Moon is 384,000,000 m. What is it in kilometers? 1 km = 1000 m 384,000,000 m = 384,000 km

 Because unit conversions can be tricky, we can express units as a series of factors  For example, what is 73 mph in m/s?  WRITE THIS OUT EVERY TIME until you are comfortable with unit conversions

CHECK YOUR FREAKING UNITS Before submitting an answer, ask yourself: 1) Did I write the units? 2) Do the units make sense?

Exponents are really just a shorthand way of expressing a number: 5 4 = 5×5×5×5= 625 And the “square” of a number is just that number multiplied by itself: 3 2 = 3×3 =9

 Scientific Notation is another timesaver, this time a way of writing a number with lots of zeros: 950,000,000,000,000,000 km = 9.5 × km m = 150 µm = 1.5 × m

 All we have to do to express a long number in scientific notation is count how many times we move the decimal point to the first non-zero number, and write "x 10 __ ".  If we move the decimal point to the left, the blank is a positive number. If we move the decimal point to the right, it's a negative number.