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Scientific Notation & Significant Digits •Scientific notation is a quick way of writing very large or very small numbers. Example #1 Write 234 000 000 m/s in scientific notation. 2.34 x 108 m/s. •The decimal is moved until there is only one non-zero digit to the left. •To show that the decimal has moved 8 places to the left, a positive exponent of 8 has been given to the base 10. Example #2 Write 0.000 000 000 478 s in scientific notation. •4.78 x 10-10 s. •The decimal has been moved 10 places to the right. A negative exponent of 10 has been given to the base. Significant Digits • In any given number, some digits are significant, and some are not. To decide which digits are which a set of rules must be followed. •All non-zero digits are significant. (ie. 374 has three significant digits) •All leading zeros are not significant. (ie. 0.000 035 has 2 significant digits). •If there is no decimal point, all trailing zeros are not significant. (ie 125 000 has three significant digits). •All digits used in the coefficient of a number written in Scientific notation are significant. (ie. 3.500 x 103 has 4 significant digits). The number of significant digits in the answer to a problem should always equal the smallest number of significant digits in the given data. Example #3 State the number of significant digits in each of the following. a) 564 b) 2500 c) 3.0 d) 1.350 e) 0.005 f) 2.00 x 102 g) 250 001 h) 0.34 i) 0.00 304 0 Example #4 Round each of the following to 3 significant digits. a) 2.375 b) 6.7 c) 5 d) 2 e) 20 f) 200