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SI (International/Metric System) of Units Universally accepted way to measure things Based off of the number 10 Conversions can be done easily.

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Presentation on theme: "SI (International/Metric System) of Units Universally accepted way to measure things Based off of the number 10 Conversions can be done easily."— Presentation transcript:

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3 SI (International/Metric System) of Units Universally accepted way to measure things Based off of the number 10 Conversions can be done easily

4 Length Defined as the straight line distance between two points. The Base SI unit of measurement for length is a meter (m). How do you measure length?

5 Mass A measure of the amount of matter in an object. SI units of measurement are grams (g). Mass remains constant no matter where an object is in the universe. We will be measuring mass with a triple beam balance.

6 Volume The measure of the amount of space an object takes up. SI units Liquids are measured in Liters (L) Solids are measured in centimeters cubed (cm3) Volume can be measured in a graduated cylinder.

7 Ladder Method

8 SI Prefixes kilo k thousand (10 3 ) 1,000 Hecto h hundred (10 2 ) Deca d Ten (10) deci dc tenth (10 -1 ).1 centi c hundreth (10 -2 ).01 mili m thousandth (10 -3 ).001 micro μ millionth (10 -6 ).000001 nano n billionth (10 -9 ).0000000001

9 Practice problems Solve the following: 2,564 kg = ______mg 326 L= _____ kL 4,789.6 g = _______mg 1,786.78 mm = _____m

10 Scientific Notation Definition: A way of expressing a value as the product of a number between 1 and 10 and a power of 10. For example, the number 1,000,000,000 can be written in scientific notation as 1.0 x 10 9. In other words, the exponent, 9, tells you that the decimal point is 9 places to the right of the 1. What is the value of a number that has the scientific notation of 7.6 x 10 -6 ?

11 Why Scientific Notation? How far do you think the earth is from the sun? What is the mass of an electron? (Negatively charged particle that moves around an atom) Big or Small, Scientific Notation Fixes it all!

12 Astronomical Unit Distance from the Earth to the sun 149,597,870,700 km

13 Mass of an electron.00000000000000000000000000000000000910938291 grams

14 Scientific Notation Makes it easier AU = 1.49 x 10 11 meters When we multiply a positive exponent, we move the decimal point to the right, that many place values. Mass of an electron= 9.1 x 10 -35 When we multiply by a negative exponent, we move the decimal point to the left, that many place values.

15 Multiplying Scientific Notation When you multiply, you multiply the coefficients and add the exponents. When you divide scientific notation you divide the coefficients and subtract the exponents. Needs to be between 1 and 10

16 Multiplying (1.6 x 10 7 ) x (2.1 x 10 6 ) (2.76 x 10 8 ) x (3.6 x 10 4 ) Division (7.2 x 10 6 ) / (8.4 x 10 4 ) (5.2 x 10 -4 ) / (7.2 x 10 -2 )

17 Accuracy vs. Precision of Measurement Low Accuracy High Precision High Accuracy Low Precision High Accuracy High Precision Accuracy: How close measurement is to the TRUE value. Precision: How close your measurements are to each other.

18 Significant Digits Measurement is only as accurate as the tool that makes the measurement. Significant digits shows level of accuracy in measurement. Significant digits can be applied to coefficients in scientific notation. Accurate to 0.01 gramsAccurate to 0.1 grams

19 Significant Digit Rules – Whole Numbers All non zeros are significant (4,223 has 4 sig. digits) Any zeros in between significant digits are significant. (4,003 has 4 sig. digits) Any zeros to the left of the decimal are not significant (4,000 has only 1 sig. digit) Zeros to the right of a decimal not followed by non-zeros are significant (4000.0 has 5 sig. digits).

20 Significant Digit Rules - Decimals Zeros to the right of a decimal are not significant if they come before non zero digits. (0.035 has 2 sig. digits) Zeros following the decimal after non- zero digits are significant (0.0350 has 3 sig. digits)

21 Significant Digits and Math Operations Addition and subtraction: Final Answer is only accurate to the number with the least number of decimal places. Ex: 13.214 + 234.6 + 7.0350 + 6.38 = 261.2290 234.6 has one decimal place, so we round to 261.2 Multiplication and Division: Final answer can only have the same number of significant digits as the number with the least number of significant digits. 16.235 × 0.217 × 5 = 17.614975 5 has only one significant digit, so we round to 20

22 How many Significant Digits? Questions Answers 1. 1,000 2. 1,000.0 3. 235,000 4. 55,555,555 5. 0.00001 6. 0.000010 7. 55.001 8. 55.0010 A. 1 B. 5 C. 3 D. 8 E. 1 F. 2 G. 5 H. 6

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