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Scientific Notation

Scientific Notation. Unit 1, Concept 6. Materials. Scientific Notation POGIL printouts (3 teams work) Scientific Notation Practice worksheet (1 per student). Key Ideas. Rules of Significant figures Rules of 0’s Addition/subtraction Multiplication/division

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Scientific Notation

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  1. Scientific Notation Unit 1, Concept 6

  2. Materials • Scientific Notation POGIL printouts (3 teams work) • Scientific Notation Practice worksheet (1 per student)

  3. Key Ideas • Rules of Significant figures • Rules of 0’s • Addition/subtraction • Multiplication/division • CLO: I can do arithmetic operations and report the results to the correct number of significant figures using a POGIL activity and independent practice

  4. Do Now • Calculate the density of a silver statue with a mass of 105 g, and a volume of 10 cm3.

  5. Do Now • Calculate the density of a silver statue with a mass of 105 g, and a volume of 10 cm3. Density = mass/volume = 105 g/10 cm3 = 10.5 g/cm3

  6. Objective • I can do arithmetic operations and report the results to the correct number of significant figures using a POGIL activity and independent practice

  7. Homework • Complete the Significant Figures Practice Worksheet. Due Thursday/Friday

  8. Agenda • Do Now, Objective (7 min) • Accuracy and Precision (10 min) • Introduction to Significant Figures (10 min) • Team Activity: POGIL (40 min) • Significant Figures Review (15 min) • Exit Ticket (5 min)

  9. Agenda • Do Now, Objective (7 min) • Accuracy and Precision (10 min) • Introduction to Significant Figures • Team Activity: POGIL • Significant Figures Review • Exit Ticket

  10. Accuracy vs. Precision • Accuracy refers to how close a measured value is to the true value.  are you correct? • Precision refers to how close a series of measurements are to one another.  are your measurements the same every time?

  11. Accuracy vs. Precision

  12. Precise Instrumentation Less Precise More precise

  13. What makes one piece of lab equipment more precise than another? • A piece of lab equipment is more precise than another if it has smaller increments (spaces between numbers) (Ex: A graduated cylinder with 0.5 mL increments is more precise than a graduated cylinder with 1 mL increments)

  14. What makes one measurement of more precise than another? • A value with more digits (#’s) is more precise. (3.52 is more precise than 3.5)

  15. Accuracy and precision: the target example Accurate and precise

  16. Accuracy and precision: the target example Precise, but not accurate

  17. Accuracy and precision: the target example Neither accurate, nor precise

  18. Accuracy and precision: the target example Accurate, but not precise

  19. Agenda • Do Now, Objective (7 min) • Accuracy and Precision • Introduction to Significant Figures (10 min) • Team Activity: POGIL • Significant Figures Review • Exit Ticket

  20. Uncertainty and Significant Figures • Every measurement is an estimate of the actual value because every measurement contains a degree of uncertainty or error. • Error does not mean “mistake”. • Error (uncertainty) is the variance between individual measurements that happens when repeated measurements are made on the same sample or object.

  21. Uncertainty • Example:four students weighed a dime ($0.10) multiple times using different types of balances. The measurements in Set I contain two digits. The first digit (the one’s place) is called the reproducible digit and the second digit in the tenth’s place (0.1) is called the doubtful digit.

  22. Agenda • Do Now, Objective (7 min) • Accuracy and Precision • Introduction to Significant Figures • Partner Activity: POGIL (40 min) • Significant Figures Review • Exit Ticket

  23. Introduction to POGIL • Today we will be doing our first POGIL activity • You will be working in groups of 3 to facilitate your own learning around significant figures • In a POGIL activity, you will look at data to come to your own understanding of a concept • You and your group members will figure out the answers for yourselves, and be able to explain it to Ms. B!

  24. POGIL • POGIL Group Roles • Reader: you will read all information aloud • Facilitator: you will lead your group in discussion for each question/task • Recorder: you will write down all important information, and answers to questions

  25. POGIL: Significant Figures • Complete parts B, C, and D of your POGIL activity sheet • By the end of this activity you will understand • Uncertainty • Significant Figures • Rounding with Sig Figs • Calculations with Sig Figs

  26. Part B - Uncertainty • An increase in precision DECREASES uncertainty

  27. Part C – Significant Figures • Non-zero numbers are ALWAYS significant • Rules of Zeros • Zeros between non-zeros are ALWAYS significant • Zeros in the coefficient of scientific notation are ALWAYS significant • Zeros after a decimal point are ALWAYS significant • Trailing 0’s are not significant • Leading 0’s are not significant

  28. Part D – Rounding & Calculations with Significant Figures

  29. Rules of Significant Figures • When multiplying/dividing measurements, the answer must contain the same number of Sig Figs as the measurement with the least Sig Figs 108.4 mi/3.5 gal = 30.97142857 mpg = 31 mpg

  30. Rules of Significant Figures • When adding/subtracting measurements, the answer must contain the same number of decimal places as the starting measurement with the least amount of decimal places. 7.6 mL + 125 mL = 132.6 mL = 133 mL

  31. Agenda • Do Now, Objective (7 min) • Accuracy and Precision • Introduction to Significant Figures • Partner Activity: POGIL • Significant Figures Review • Exit Ticket (5 min)

  32. Exit Ticket • Complete the Exit Ticket at your desk, and hand it to Ms. Bergman as you leave class. • NO calculators!

  33. 45 Minute Version of Lesson • No POGIL

  34. Materials • Scientific Notation Practice worksheet (1 per student) • Exit Ticket (1 per student)

  35. Key Ideas • Rules of Significant figures • Rules of 0’s • Addition/subtraction • Multiplication/division • CLO: I can do arithmetic operations and report the results to the correct number of significant figures using a notes and independent practice

  36. Do Now • Calculate the density of a silver statue with a mass of 105 g, and a volume of 10 cm3.

  37. Do Now • Calculate the density of a silver statue with a mass of 105 g, and a volume of 10 cm3. Density = mass/volume = 105 g/10 cm3 = 10.5 g/cm3

  38. Objective • I can do arithmetic operations and report the results to the correct number of significant figures using notes andindependent practice

  39. Homework • Complete the Significant Figures Practice Worksheet. Due Thursday/Friday

  40. Agenda • Do Now, Objective (7 min) • Accuracy and Precision (7min) • Uncertainty (5 min) • Significant Figures (10 min) • Independent Practice (10 min) • Exit Ticket (3 min)

  41. Accuracy vs. Precision • Accuracy refers to how close a measured value is to the true value • Precision refers to how close a series of measurements are to one another.

  42. Accuracy vs. Precision

  43. Accuracy and precision: the target example Accurate and precise

  44. Accuracy and precision: the target example Precise, but not accurate

  45. Accuracy and precision: the target example Neither accurate, nor precise

  46. Accuracy and precision: the target example Accurate, but not precise

  47. Precise Instrumentation Less Precise • lab equipment is more precise when it has smaller increments (spaces between numbers) More precise (Ex: A graduated cylinder with 1mL increments is more precise than a graduated cylinder with 10 mL increments)

  48. Precise Measurements • Numbers with more digits (places) aremore precise. • 3.52 is more precise than 3.5 • 2.14 is more precise than 2.1

  49. Agenda • Do Now, Objective (7 min) • Accuracy and Precision (7min) • Uncertainty (5 min) • Significant Figures (10 min) • Independent Practice (10 min) • Exit Ticket (3 min)

  50. Uncertainty and Significant Figures • Measurements have uncertainty because you never know the EXACT value • Uncertainty is the variance between individual measurements that happens when repeated measurements are made on the same sample or object.

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