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Measurement Scientific Notation and the Metric System.

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Presentation on theme: "Measurement Scientific Notation and the Metric System."— Presentation transcript:

1 Measurement Scientific Notation and the Metric System

2 Theory vs. Law A theory is an accepted explanation of an observed phenomenon until repeated data and observation conflict with the theory A theory is a detailed explanation that helps scientists understand a phenomenon A law is a statement or mathematical equation that describes a basic fact or relationship found in the universe

3 Reliability in Measurement Precision same results again and again under the same conditions Accuracy Close to the accepted value Accepted Value = the correct answer

4 4 Accuracy vs. Precision

5 The Metric System The United States uses the States Customary system (USCS), but most other countries use the International System of Units or the metric system. The metric system uses a decimal system where all units are related by a factor of 10.

6 International System of Unit (SI Base Units) MassLengthTime Count, quantity Temperature Kilogram(kg) Meter (m) Second(s) Mole(mol) Kelvin(K)

7 Derived SI Units AreaVolumeForcePressureEnergy m2m2m2m2 m3m3m3m3NewtonPascalJoule

8 Metric Prefixes KiloHectoDeka Base Unit (m, g, L, sec, etc) decicentiMilli k10 3 h10 2 da10 1 10 0 d10 -1 c10 -2 m10 -3

9 Measurement to Scale

10 10 Density How heavy something is for its size. The ratio of mass to volume for a substance. D = M/V

11 Scientific Notation A number written as the product of two numbers. A coefficient (number between 1-9) A coefficient (number between 1-9) 10 raised to a power 10 raised to a power Useful for large numbers. For example 1g of hydrogen contains 602,000,000,000,000,000,000,000 atoms. For example 1g of hydrogen contains 602,000,000,000,000,000,000,000 atoms. That is 6.02 x 10 23 atoms. That is 6.02 x 10 23 atoms.

12 Converting to Scientific Notation Moving the decimal to the left gives a positive exponent. Example: 36,000= Example: 36,000= 3.6 x 10 4 3.6 x 10 4 Moving the decimal to the right gives a negative exponent. Example: 0.0081= Example: 0.0081= 8.1 x 10 -3

13 Try these on your own: 0.000137 = 3.2 x 10 5 = 1.72 x 10 -3 = 1.37 x 10 -4 320,0000.00172

14 Rules for Multiplication Multiply the coefficients and add the exponents. Example 1: (3.0 x 10 4 ) x (2.0 x 10 2 ) = Example 1: (3.0 x 10 4 ) x (2.0 x 10 2 ) = 6.0 x 10 6 Example 2: (4.0 x 10 -7 ) x (1.0 x 10 2 )= Example 2: (4.0 x 10 -7 ) x (1.0 x 10 2 )= 4.0 x 10 -5

15 Rules for Division Divide the coefficients and subtract the exponents. Example 1: (3.0 x 10 4 ) / (2.0 x 10 2 ) = Example 1: (3.0 x 10 4 ) / (2.0 x 10 2 ) = 1.5 x 10 2 Example 2: (8.0 x 10 -3 ) / (4.0 x 10 4 ) = Example 2: (8.0 x 10 -3 ) / (4.0 x 10 4 ) = 2.0 x 10 -7

16 Rules for Addition and Subtraction Before you add or subtract in scientific notation, the exponents must be the same. Example 1: 5.40 x 10 3 + 6.0 x 10 2 = Example 1: 5.40 x 10 3 + 6.0 x 10 2 = 54.0 x 10 2 + 6.0 x 10 2 = 54.0 x 10 2 + 6.0 x 10 2 = 60.0 x 10 2 = 6.0 x 10 3 60.0 x 10 2 = 6.0 x 10 3 Example 2:8.5 x 10 -2 – 3.0 x 10 -3 = Example 2:8.5 x 10 -2 – 3.0 x 10 -3 = 85 x 10 -3 - 3.0 x 10 -3 = 85 x 10 -3 - 3.0 x 10 -3 = 82 x 10 -3 = 8.2 x 10 -2 82 x 10 -3 = 8.2 x 10 -2

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