Transcript Sig Figs
Sig Figs • Significant figure a digit that is reliably known. • Ex: 6.2 has 2 sig figs. The hundredth place is not reliably known and, thus, not reported. • The easiest way to determine sig figs in a number is to write the number in scientific notation. • 0.00620 = 6.20 x 10-3 • The trailing zero is reliably known, so it is SIGNIFICANT. • The number of significant figures is the number of digits when written in sci notation. Some Rules for Sig Figs • The number of sig figs does not equal the number of decimal places. • In whole numbers, trailing zeroes are not sig figs. Ex: 320,000 is 3.2 x 105 It has 2 sig figs. • Changing units may shift the decimal points but it doesn’t change the number of sig figs. • When multiplying/dividing (or taking roots), the number of sig figs in the answer should match the number of sig figs of the least precise number in the calculation. • When adding/subtracting, the number of sig figs in the answer should match the smallest amount of decimal places of any number in the calculation. • It’s fine to keep extra numbers around in the intermediate steps, but your final answer MUST be accurate in terms of significant figures. • Otherwise, you’ve performed magic and have something more accurate that we can verify. Example • The volume of a piece of Al is 4.44 x 10-4 m3. Given a density of 2.7 x103 kg/m3, what is the total mass of the piece of Al? (mass = density x volume) m= 4.44 x 10-4 m3 (2.7 x103 kg/m3) m= 1.199 kg m= 1.2 kg • If we have a second mass of Al, measured to be 6.47 kg, how much total Al do we have? ` 6.47 kg + 1.2 kg = 7.7 kg