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Scientific Notation & Significant Figures

Scientific Notation & Significant Figures. Scientific Notation. Why do we need it? It makes it much easier to write extremely large or extremely small numbers. Scientific Notation. What would you rather write? 602,200,000,000,000,000,000,000 Or 6.02 x 10 23. Scientific Notation.

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Scientific Notation & Significant Figures

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  1. Scientific Notation &Significant Figures

  2. Scientific Notation • Why do we need it? • It makes it much easier to write extremely large or extremely small numbers.

  3. Scientific Notation • What would you rather write? • 602,200,000,000,000,000,000,000 Or 6.02 x 1023

  4. Scientific Notation 6.02 x 1023 Writing the number like this means you will take the number 6.02 and multiply it by 10 twenty three times

  5. Scientific Notation Every time the decimal moves left or right one place it is divided or multiplied by ten.

  6. Scientific Notation 101= 10 103= 1,000 105= 100,000 10-1= 0.1 10-3 =0.01 10-5= 0.00001

  7. Scientific Notation 1. Move the decimal so that there is only one non zero number in front of it 5,050,000,000

  8. Scientific Notation 1. Move the decimal so that there is only one non zero number in front of it 5,050,000,000 5.050000000

  9. Scientific Notation • Move the decimal so that there is only one non zero number in front of it • Count how many places the decimal had to move 5.050000000 9

  10. Scientific Notation • Move the decimal so that there is only one non zero number in front of it • Count how many places the decimal had to move • This number now becomes the exponent in the scientific notation. If the decimal moved to the left the exponent is positive, if it moved to the right the exponent is negative. 5.05 x 109

  11. 5,050,000,000 Equals 5.05 x 109 They are the same number

  12. Try a really small number 0.0000000122 Write this number in scientific notation.

  13. Try a really small number 0.0000000122 1.22

  14. The decimal moved left how many spaces? 0.00000001.22 8 Write this number as the exponent. 1.22 x 10-8

  15. Significant Figures

  16. Sig Figs answer the question of “How many places should I round to?” or “How many decimals do I keep?”

  17. Accuracy – how close a measurement is to the true value of the quantity measured Precision – the exactness of a measurement

  18. The number of sig figs you keep in an answer totally depends on the precision and accuracy of the instruments you are using.

  19. Rules to find Sig Figs If the Number is not a zero it is significant If zeros are in between two non zero numbers it is significant Zeros before a non zero number are not significant. Zeros after non zero numbers are significant only if there is a decimal.

  20. 352 4505 0.00324 1240 130.0

  21. When Multiplying/Dividing keep the smallest number of sig figs in the answer. When Adding/Subtracting keep the smallest number of decimals in the answer.

  22. Dimensional Analysis

  23. Dimensional Analysis: A mathematical tool used to convert from one type of unit to another type of unit

  24. Situation:You need to change $50 dollars into nickels. How many nickels do you need ???

  25. We need a plan of attack! 1. Write down what we are given

  26. We need a plan of attack! 1. Write down what we are given 2. Find a common ratio $1 dollar = 20 nickels

  27. We need a plan of attack! 1.Write down what we are given 2. Find a common ratio $1 dollar = 20 nickels 3. Place the ratio in the chart so that unit that is in the given is on the bottom

  28. We need a plan of attack! 1.Write down what we are given 2. Find a common ratio $1 dollar = 20 nickels 3. Place the ratio in the chart so that unit that is in the given is on the bottom 4. Simplify!!!

  29. 1000 nickels Simplify means cancel out units and do the math. On top multiply on bottom divide

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