Transcript Slide 1
Scientific Notation • Add and Subtract – make the powers the same, add the numbers and keep powers as they are. Scientific Notation • Multiply – multiply numbers and add exponents Scientific Notation • Multiply – multiply numbers and add exponents • Divide – multiply numbers and subtract exponents Significant figures All non-zero digits are significant 15, 699 (Five sig. figs) Significant figures Zeros to the left of the first non-zero digit are not significant (these are called leading zeros) 0.23 (Two sig figs) 0.00023 (Two sig. figs) Significant figures Zeros between non-zero digits are significant (these are called captive zeros) 7077 (Four sig. figs) 50.2 (Three sig. figs) Significant figures Zeros at the end of a number that includes a decimal point are significant (these are called trailing zeros) 50.020 (Five sig. figs) Significant figures For numbers with a zero (or zeros) at the end and no decimal point, it is impossible to know how many of the digits are significant. e.g. consider 100: Does this measurement have one, two or three sig. figs? Written in this fashion, there is no way to tell. We can get around this problem by using scientific notation; with scientific or exponential notation, the numbers written down are always significant 1.00 x102 (Three sig. figs) 1. x102 (One sig. fig.) Multiplication or Division The result of multiplication or division can contain only as many sig. figs as the least precisely known quantity in the calculation. 4.93 x 3.1 = 15.28 = 15 (Two sig. figs) 100.00 + 40 = 2.5 = 3 (One sig. fig) Addition or Subtraction The number of decimal places in the answer must be the number with the lowest precision in the group of numbers that are added or subtracted. 4.00 + 2.0 = 6.0 9.42 + 6.7 + 3.3 =19.4