KWL CHART WHAT DO YOU WANT TO KNOW? WHAT HAVE YOU LEARNED TODAY? WHAT DO YOU KNOW ABOUT THE TERMS “ACCURACY” AND “PRECISION”? WHAT DO YOU WANT TO KNOW? WHAT HAVE YOU LEARNED TODAY?

KWL STRATEGY K (what do you know W (what do L (what About Measurement) you want to have you know learned) about Measurement

CH. 2 Precision & Accuracy , % error, Metrics, Measurement & Significant Figures

Precision vs. Accuracy In the context of the scientific method, precision and accuracy have two distinctly different meanings. The accuracy of a measurement system is the degree of closeness of measurements of a quantity to its actual (true)value. The precision of a measurement system is the degree to which repeated measurements under unchanged conditions show the same results. See dartboard (p. 44) A measurement system can be accurate but not precise, precise but not accurate, neither, or both.

Visualizing the concept www.yorku.ca/psycho/en/pics_en/postscript_f1.gif

CALCULATING % ERROR % error = measured – accepted accepted X 100 p. 45 #1 practice problem Find the % error if a mass measurement is 17.7 grams when the correct mass is 21.2 grams.

Example 2 A liquid’s volume is measured in a beaker as 40 mL. It is then measured in a graduated cylinder as 45.5 mL. Find the % error.

P. 45 # 1—2

p. 60 #35—37

MEASUREMENT WARM UP 1. Based on the following data collected, comment on this person’s accuracy & precision: ***Volume in beaker trial 1= 30.0 mL Trial 2 = 31.0 Trial 3= 31. 5 ***Volume in cylinder = 45.5 mL 2. Calculate % error: A student measures mass as 50.9 grams. The instructor measures 55.9 grams.

WRITING ACTIVITY--ACTIVATOR Write a paragraph to your friend explaining to him or her the difference between accuracy vs. precision. Include an example using the dartboard analogy. (refer to p. 44 if needed)

IPAD ACTIVITY—Introduction to Metrics http://www.brookscole.com/math_d/sp ecial_features/ext/internet_activities/ matovina/metric ONLY COMPLETE 1—6 and #8 TODAY USE YOUR OWN NOTEBOOK PAPER

ACTIVATOR: Why is the metric system of measurement (which uses meters, liters, grams, etc.) preferred AND easier to use rather than the English system of measurement (which uses pounds, feet, etc.)?

ENGLISH SYSTEM UNITS: 1 foot. = 12 inches 1 pound = 16 ounces 1 cup = 8 ounces 1 yard = 3 feet 1 mile = 5280 feet

METRIC SYSTEM Also known as the SI based system (International System of Measurements) It is more preferred rather than the English system of measurements because it is based on units of 10. Measurement systems are all based on “standards” which are physical representations for each measurement unit. We will learn about the prefixes “Tera” through “pico”. (see chart)

METRIC QUANTITIES AND WHAT UNITS THEY ARE MEASURED IN: (see p METRIC QUANTITIES AND WHAT UNITS THEY ARE MEASURED IN: (see p. 34 in your textbook) Mass = gram Distance = meter Volume = liters or cubic meter Time = seconds Temperature = Kelvin Amount of a substance = mole Electric current = ampere Light intensity = candela Area = square meter Energy = joule

ADDING PREFIXES TO BASE UNITS 1 KILOmeter = ________________meters 1 CENTIgram = ______________________grams 1 millisecond = __________________seconds

THE METRIC LINE(STAIRCASE)

METRIC ACRONYM THE GREAT MIGHTY king henry died by drinking chocolate milk maybe not pasteurized

TELL WHAT EACH SYMBOL STANDS FOR: mg kL Mm mm um m

METRIC CONVERSIONS

ACTIVATOR: 3-2-1 Name 3 basic metric units. Name 2 prefixes AND give their symbol. Name 1 thing you know about a “standard” of measurement.

3 ways for measuring volume: 1. liquids—graduated cylinder (measures in mL) 2. rectangular shaped solids- use a ruler for length x width x height (measured in cubic cm or cm3 or cc) Irregular shaped solids—water displacement ***VOLUME—the amount of space something takes up

YOU TRY: 25 mL = ___________________cc (cm3) 25 cc = ________________________L

SUMMARIZER: Describe how you would take the volume of a glass of water, a rectangular block, and a marble. Also, tell what units that you would use to measure each.

WRITING ASSIGNMENT: (1-2 paragraphs) Discuss the differences between area & volume. Include in your discussion: ways they are measured, units which they are measured in, and tools used to measure them. Also, remember the different methods for measuring volume.

Warm up % ERROR/METRICS 1. A lab tech measures the boiling point of water to be 99.5 C. The true boiling pt of water is 100.0 C. Calculate the % error. (SHOW WORK!!) 2. 0.0075 g = ______________________ng 3. 3400 kg = ____________________Mg 4. 258 daL = _______________________mL 5. 534 L = __________________cm3

ACTIVATOR In a paragraph, describe how mass, volume, length, and temperature are measured.

LAB—UNCERTAINTY OF MEASUREMENT PART III #8 SHOW WORK FOR % ERROR Accepted values: Bottle = 7.095 grams Clamp = 75.069 grams Domino = 5.371 grams Stopper = 7.090 grams

METRIC WARMUP GIVE THE SYMBOL FOR EACH UNIT: 1. Micrometer 4. Megameter 2. Meter 5. millimeter 3. Kiloliter WHAT QUANTITY DO THESE UNITS MEASURE? 7. meter 10. gram 8. cc 11. Cm3 9. liter 12. Square meter PERFORM THESE METRIC CONVERSIONS: 13. 2.67 ng = _______________pg 14. 34000 m = ______________Mm 15. 50 cc =_______________mL 16. 3 L = __________________cm3

CONVERSIONS INVOLVING EXPONENTS This is done when BOTH units have the SAME exponent (squared to squared or cubed to cubed) Ex: 100 cm2 = _______________m2 cm to m is normally 2 spaces left, so multiply this 2 spaces x the exponent of 2 = total of 4 spaces left Ex: 0.0075 Mm3 = ________________km3 Mm to km is normally 3 spaces right, so multiply by exponent of 3 = 9 spaces right

FINAL METRIC WARMUP 1. 55 cc = ______L 2. 0.00035 Mm = _________m 3. 675 dL =____________kL 4. What do millimeters measure? 5. What do kilograms measure? 6. What do liters measure? 7. What do cubic millimeters measure? 8. What do square centimeters measure? 9. Which is larger: 250 cc or 0.5 L? 10. Find the area of a box measuring 5 cm by 8 cm. 11. Does milli make the base unit larger or smaller? 12. Find the volume of a rock that’s dropped in 25 mL of water and the level then rises to 38 mL.

BOOK PROBLEMS (% error, metrics, accuracy/precision) p. 59 #1, 4, 7, 8 ab, 9 ab, 16, 20, 21, 24, 25, 37 p. 63 #1, 3, 4, 6, 7, 8

ACTIVATOR Explain why error always exists in measurement.

Significant Figures Significant figures help scientists be able to do the same thing when taking measurements and doing calculations. SEE P. 46

Sig Fig Rules Digits from 1-9 are always significant. Zeros between two other significant digits are always significant Final zeros to the right of the decimal place are significant. Zeros used solely for spacing the decimal point (placeholders) are not significant (Unless specifically measured and noted with a line above the number).

HOW TO DETERMINE THE NUMBER OF SIG FIGS---p. 47 The letters "A" (decimal absent) and "P" (decimal present) correspond to the "Atlantic" and "Pacific" Oceans on a map. 

Now, imagine an arrow being drawn from the appropriate coast Now, imagine an arrow being drawn from the appropriate coast.  Once the arrow hits a NONZERO digit, this digit and all of the digits after it are significant.

Decimal Absent Example 1.  How many significant digits are shown in the number 20 400 ?  Well, there is no decimal, so we think of "A" for "Absent".  This means that we imagine an arrow coming in from the Atlantic ocean 20 400  this shows 3 significant numbers as you do not count numbers until you hit a significant digit Modified from http://www.fordhamprep.org/gcurran/sho/sho/lessons/lesson23.htm

Decimal Present Example 2.  How many significant digits are shown in the number 0.090 ?  Well, there is a decimal, so we think of "P" for "Present".  This means that we imagine an arrow coming in from the Pacific ocean. 0.090 This shows that the number has two significant digits after the non zero number is encountered Modified from http://www.fordhamprep.org/gcurran/sho/sho/lessons/lesson23.htm

NOW YOU TRY……. First decide if A or P?? HOW MANY SIG FIGS IN EACH? 3. 0.005 L 4. 23.92 sec 5. 40,060 kg 6. 2005 moles 7. 32.00 Kelvin 8. 43.090 Mm

TELL IF THE FOLLOWING ARE “ATLANTIC” OR “PACIFIC” AND THEN TELL HOW MANY SIG FIGS: 1. 0.0035 cm 7. 0.004 mg 2. 10.00 g 8. 549000 cm 3. 3400 m 9. 3000 g 4. 53.57 mm 10. 0.45670 nm 5. 40600 kg 11. 2734 km 6. 200.040 Mm 12. 5.070 sec

HOW TO MAKE ZEROS SIGNIFICANT WHEN THEY’RE NOT ALREADY You may ONLY do this to zeros in ATLANTIC numbers put a bar over the zero 2500—has 2 sig figs How to make 3 sig figs?? How to make 4 sig figs?? Put a decimal at the end (making it a pacific #) 2500 2500.

Problems involving Lines over zeros—1st decide if A or P?? TELL HOW MANY SIG FIGS IN EACH: (1ST DECIDE IF A or P) 1. 21.34 g 10. 51.200 g 2. 52.340 g 11. 6050 m 3. 28,007 L 12. 2000 L 4. 80.00 m 13. 40.50 cm 5. 0.0025 g 14. 0.192 m 6. 23,000 cm 15. 3000. L 7. 28, 875 mm 16. 30 mm 8. 505,100 g 17. 30,650 Mm 9. 0.050 L 18. 0.00500 g

ROUNDING TO A CERTAIN NUMBER OF SIG FIGS When trying to do this, move through the number from left to right. Ex: Round to 1 sig fig: 2300 0.0897 5.9

Round to 2 sig figs: 2895 0.0956 Round to 3 sig figs: 0.6

WARM UP TELL HOW MANY SIG FIGS ARE IN EACH--1st decide if A or P: 1. 0.00306 5. 3000. 9. 2.0 2. 0.003060 6. 43.06 3. 4300 7. 3.020 4. 4060 8. 5000 ROUND EACH TO 2 SIG FIGS: 1. 0.0357 4. 657 2. 2350 5. 0.0695 3. 90.34 6. 0.7 ROUND EACH TO 1 SIG FIG: 1. 369 3. 0.0078 2. 20.47 4. 379.5

Add/Substract with Sig Figs Round answer to the FEWEST DECIMAL PLACES that are in the problem 10.711 g 4 mL 5.75 cm +3.23 g -3.4 mL +2.976 cm

1. 13.941 = round to 2 dec. = 13.94 g 2. 0.6 = round to 0 dec. = 1 mL 3. 8.726 = round to 2 dec. = 8.73 cm

Multiply/Divide with Sig Figs Round answer to the FEWEST SIG FIGS that are in the problem 2.32 cm x 77.96 cm = 62.0 g / 2.000 mL = 1.805 m x 6.0 m =

1. 180.8672=round to 3 sig figs = 181 cm2 2. 31=round to 3 sig figs = 31.0 g/mL 3. 10.83= round to 2 sig figs = 11m2

SUMMARIZER 3-2-1 Give any 3 measurements and tell how many sig figs are in each. Describe the 2 different ways to round (add/subtract VS. Multiply/divide) Name 1 way to make zeros significant when they’re not to begin with.

HOMEWORK—SIG FIGS HANDOUT 1—34 EVEN

WARM UP 1. 5.0 m X 457 m= 2. 16.56 g + 13 g = 3. 5.60 g / 22.4 L = 4. 0.059 g / 0.03 L = 5. 14.26 cm - 4.9654 cm =

P. 50 #1—3 P. 57 #3—4

ACTIVATOR Why would someone want to put a measurement into scientific notation?

Reduces the number of zeros in really big or really small numbers

SCIENTIFIC NOTATION The number in front determines the number of sig figs Starting out, the decimal MUST be written to the right of the first nonzero number in order to be in correct scientific form; then, depending on the exponent, it can be moved left or right to convert to a regular number. 5.64 x 104 (correct form with 3 sig figs) 0.0035 x 102 (incorrect form) Why?? 340 x 103 (incorrect form) Why??

Other examples of Correct Form 6.023 x 1023  4 sig figs 6.67 x 10-11  3 sig figs 2.00 x 10-3  3 sig figs

In your calculator, 3.05 x 109 may appear: 3.05 EE 9 3.05 9

Converting from Scientific Notation to Regular Number (Standard Form) If the exponent is POSITIVE, move decimal that many places to the RIGHT. Ex: 3.450 x 103 ***Remember to keep SIG FIGS the same!! If the exponent is NEGATIVE, move decimal that many places to the LEFT. Ex: 6.090 x 10-3

YOU TRY: 1. 4.560 x 105 = 2. 3.9 x 10-3 = 3. 5.0 x 100 =

CONVERTING INTO SCIENTIFIC NOTATION: Remember that the decimal must be moved to the right of the first nonzero digit. Also, remember to keep SIG FIGS the same. If the number is greater than 1 to start with, use a positive exponent. Ex: 305,000 If the number is less than 1 to start with, use a negative exponent. Ex:0.004060

YOU TRY: 1. 456,000. = 2. 0.003400 = 3. 67000 =

SIG FIGS/SCIENTIFIC NOTATION HANDOUT SIG FIGS---EVEN (OPTIONAL) SCIENTIFIC NOTATION--EVEN

WARM UP PUT INTO SCIENTIFIC NOTATION: 1. 0.0060 2. 23500 PUT INTO STANDARD FORM (REGULAR NUMBER) 3. 3.50 X 102 4. 6.788 X 10-3

P. 57 #6 P. 60 #43—45

Accuracy, Metric, and Sig Figs p. 48 #1-2 p. 57 #1-3 p. 60 #29, 38 p. 31 #2 p. 42 #1-3 p. 59 #6-9, 16, 20, 21, 23, 25a, 38, 50, 51

WHAT TO STUDY FOR MEASUREMENT TEST 1. Qualitative vs. quantitative measurement 2. What’s the purpose of a standard in measurement 3. Basic units for length, time, volume, mass, and temp. 4. Metric prefix symbols, numerical meanings, and exponent meanings 5. Metric conversions (normal, cc = mL, and exponent ones) 6. Units for area and volume 7. 3 ways to measure volume 8. % error 9. Accuracy vs. precision 10. Mass vs. weight 11. Counting # of sig figs AND calculation rules for sig figs 12. Scientific notation into standard form (and vice-versa) 13. Vocabulary sheet 14. Reading metric tools 15. Measurement video ?s