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Dimensional Analysis and Scientific Notation

Dimensional Analysis and Scientific Notation. Concept 3 Notes. Dimensional Analysis. Purpose : A technique of converting numbers into different units, without changing their value Useful when: Baking or cooking Traveling to foreign countries that use different units than us

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Dimensional Analysis and Scientific Notation

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  1. Dimensional Analysis and Scientific Notation Concept 3 Notes

  2. Dimensional Analysis • Purpose: A technique of converting numbers into different units, without changing their value • Useful when: • Baking or cooking • Traveling to foreign countries that use different units than us • Building or engineering • Done by multiplying given numbers by conversion factorsin order to get number into desired units

  3. Dimensional Analysis • Conversion factors: ratios of equivalent values (meaning they equal 1) • Used in dimensional analysis to alter the number without changing its value • Example #1: • How many hours are in a day? • 24 hours = 1 day, or… Both of these formats are useful when converting units with conversion factors 24 hours 1 day 1 day 24 hours or

  4. Dimensional Analysis • Conversion Factor Ex. #2: • 12 inches = 1 foot, or • Your turn! What would be the conversion factor for days in a week? • 7 days = 1 week, or 12 inches 1 foot 1 foot 12 inches or 7 days 1 week 1 week 7 days or

  5. Dimensional AnalysisSteps to apply this method in a real problem: • Write down the given (starting) number and unit. • Draw a “picket fence.” • Use chart to fill in appropriate conversion factors, making sure matching units are on opposite sides of fence to cancel out. • Multiply the top line across and the bottom line across. • Divide the top by the bottom.

  6. Dimensional AnalysisPutting it into Practice • Example #3: How many seconds are in one year? 60 min 60 s 24 hours 365 days 1 year 365 1 min 1 hour 1 year 1 day 1 31,536,000 s = 31, 536, 000 s = 1

  7. Dimensional AnalysisPutting it into Practice • Example #4: How many feet are in 250.4 cm? 1 ft 1 inch 250.4 cm = 2.54 cm 12 inches 250.4 ft 8.22 ft = 30.48

  8. Dimensional AnalysisUseful and common conversion factors:

  9. Practice Time! .951 • 3.6 L =_______ gallons • 600 g = _______ lbs • 100 cm = ________ yds 1.32 1.09

  10. Scientific Notation • Purpose: A technique used to rewrite very large or very small numbers into a format that is easier to use • Format: Just the digits with a decimal point after the first digit, followed by x 10 to the power which represents how many places the decimal was moved • Example: 50,500 = 5.05 x 104

  11. Scientific NotationSteps to apply this method in a real problem: Move decimal so that there is only 1 digit in front (to the left) of it. Rewrite the number as #.with a x 10 after. Add an exponent to the 10 to represent the number of places you moved the decimal. Make the exponent: + if you started with a big number (> 1) or - if you started with a small number (< 1)

  12. Scientific NotationPutting it into Practice • Example #5: Convert 101,000 into scientific notation. 101,000. Where decimal is now Where we want it to be for scientific notation 5 because we moved the decimal 5 places 1.01 x 10 5 + because we started with a large number 1.01 x 105

  13. Scientific NotationPutting it into Practice • Example #6: Convert 0.0098 into scientific notation. 0.0098 Where we want it to be for scientific notation Where decimal is now 3 because we moved the decimal 3 places 9.8 x 10 -3 - because we started with a small number 9.8 x 10-3

  14. Scientific NotationPutting it into Practice • Example #7: Convert 2.057 x 102 into standard notation. • (This just means take it out of scientific notation) 2 means we will move the decimal 2 times 2.057 x 102 + means we will make it a bigger number 205.7

  15. Scientific NotationPutting it into Practice • Example #8: Convert 3.1 x 10-4 into standard notation. • (This just means take it out of scientific notation) 4 means we will move the decimal 4 times 3.1 x 10-4 0 0 0 . - means we will make it a smaller number Fill in zeros in empty spaces .00031

  16. Practice Time! Place in scientific notation. • 354,000,000 = • 0.000096 = • 2.76 x 10-3 = • 4.011 x 104 = 3.54 x 108 9.6 x 10-5 Place in standard notation. .00276 40,110

  17. Rule for Multiplication When multiplying numbers written in scientific notation….. ….multiply the first factors and add the exponents. SampleProblem: Multiply (3.2 x 10-3) (2.1 x 105) Solution: Multiply 3.2 x 2.1. Add the exponents -3 + 5 Answer: 6.7 x 102

  18. Rule for Division Divide the numerator by the denominator. Subtract the exponent in the denominator from the exponent in the numerator. Sample Problem: Divide (6.4 x 106) by (1.7 x 102) Solution: Divide 6.4 by 1.7. Subtract the exponents 6 - 2 Answer: 3.8 x 104

  19. Rule for Addition and Subtraction To add or subtract numbers written in scientific notation, you must….express them with the same power of ten. Sample Problem: Add (5.8 x 103) and (2.16 x 104) Solution: Since the two numbers are not expressed as the same power of ten, one of the numbers will have to be rewritten in the same power of ten as the other. 5.8 x 103 = 0.58 x 104 so 0.58 x 104 + 2.16 x 104 = ? Answer: 2.74 x 104

  20. Practice Time! Multiply the following. Give answer in scientific notation 6 x 107 • (6 x 105) (1 x 102)= • (5 x 10-5) (2 x 10-6)= • (6 x 105)  (2 x 104) = • (8 x 103)  (2 x 10-5)= 1 x 10-10 Divide the following. Giveanswer in scientific notation 3 x 101 4 x 108

  21. Practice Time! ADD OR SUBTRACT EACH OF THE FOLLOWING NUMBERS. GIVE YOUR ANSWER IN SCIENTIFIC NOTATION • (6 x 104) + (3 x 104) = • (1.4 x 105) + (1.4 x 103) = • (6 x 10-5) - (3 x 10-5) = • (8 x 10-5) - (5 x 10-6) = 9 x 104 1.41 x 105 3 x 10-5 7.5 x 10-5

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