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Significant Calculations And Scientific Notation

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1 Significant Calculations And Scientific Notation
Chapter 2 Significant Calculations And Scientific Notation

2 Significant Figures, continued
Section 3 Using Scientific Measurements Chapter 2 Significant Figures, continued Rounding

3 Chapter 2 Addition or Subtraction with Significant Figures
Section 3 Using Scientific Measurements Chapter 2 Addition or Subtraction with Significant Figures When adding or subtracting decimals, the answer must have the same number of digits to the right of the decimal point as there are in the measurement having the fewest digits to the right of the decimal point. Example: = 5.0 = 10.1

4 Addition or Subtraction with Significant Figures
For multiplication or division, the answer can have no more significant figures than are in the measurement with the fewest number of significant figures. Example: 2.00 x 1 = 2 2.01 x = 8.05

5 Significant Figures, continued
Section 3 Using Scientific Measurements Chapter 2 Significant Figures, continued Sample Problem E Carry out the following calculations. Express each answer to the correct number of significant figures. a m m b. 2.4 g/mL  mL

6 Significant Figures, continued
Section 3 Using Scientific Measurements Chapter 2 Significant Figures, continued Sample Problem E Solution a m m = 2.83 m There should be two digits to the right of the decimal point, to match 5.44 m. b. 2.4 g/mL  mL = 38 g There should be two significant figures in the answer, to match 2.4 g/mL.

7 Section 3 Using Scientific Measurements
Chapter 2

8 Scientific Notation, continued
Section 3 Using Scientific Measurements Chapter 2 Scientific Notation, continued In Scientific Notation, the coefficient is a number equal or larger than 1 but less than 10. Example: 3.5 may be a coefficient. 0.9 may not 90.3 may not

9 Scientific Notation, continued
Section 3 Using Scientific Measurements Chapter 2 Scientific Notation, continued Mathematical Operations Using Scientific Notation 1. Addition and subtraction —These operations can be performed only if the values have the same exponent (n factor). example: 4.2 × 104 kg × 103 kg or

10 Scientific Notation, continued
Section 3 Using Scientific Measurements Chapter 2 Scientific Notation, continued Mathematical Operations Using Scientific Notation 2. Multiplication —The M factors are multiplied, and the exponents are added. example: (5.23 × 106 µm)(7.1 × 10−2 µm) = (5.23 × 7.1)(106 × 10−2) = × 104 µm2 = 3.7 × 105 µm2

11 Scientific Notation, continued
Section 3 Using Scientific Measurements Chapter 2 Scientific Notation, continued Mathematical Operations Using Scientific Notation 3. Division — The M factors are divided, and the exponent of the denominator is subtracted from that of the numerator. example: = × 103 = 6.7  102 g/mol

12 Chapter 2 Direct Proportions
Section 3 Using Scientific Measurements Chapter 2 Direct Proportions Two quantities are directly proportional to each other if dividing one by the other gives a constant value. read as “y is proportional to x.”

13 Section 3 Using Scientific Measurements
Chapter 2 Direct Proportion

14 Chapter 2 Inverse Proportions
Section 3 Using Scientific Measurements Chapter 2 Inverse Proportions Two quantities are inversely proportional to each other if their product is constant. read as “y is proportional to 1 divided by x.”

15 Section 3 Using Scientific Measurements
Chapter 2 Inverse Proportion

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