Presentation is loading. Please wait.

Presentation is loading. Please wait.

I. Units of Measurement (p )

Published byStephanie Walsh Modified over 11 years ago

Similar presentations

Presentation on theme: "I. Units of Measurement (p )"— Presentation transcript:

1 I. Units of Measurement (p. 33 - 39)
CH. 2 - MEASUREMENT I. Units of Measurement (p )

2 A. Number vs. Quantity Quantity - number + unit UNITS MATTER!!

3 B. SI Units Quantity Symbol Base Unit Abbrev. Length l meter m Mass m
kilogram kg Time t second s Temp T kelvin K Amount n mole mol

4 B. SI Units Prefix Symbol Factor mega- M 106 kilo- k 103 BASE UNIT ---
100 deci- d 10-1 centi- c 10-2 milli- m 10-3 micro- 10-6 nano- n 10-9 pico- p 10-12

5 M V D = C. Derived Units 1 cm3 = 1 mL 1 dm3 = 1 L
Combination of base units. Volume (m3 or cm3) length  length  length 1 cm3 = 1 mL 1 dm3 = 1 L D = M V Density (kg/m3 or g/cm3) mass per volume

6 D. Density Mass (g) Volume (cm3)

7 Problem-Solving Steps
1. Analyze 2. Plan 3. Compute 4. Evaluate

8 D. Density V = 825 cm3 M = DV D = 13.6 g/cm3 M = (13.6 g/cm3)(825cm3)
An object has a volume of 825 cm3 and a density of 13.6 g/cm3. Find its mass. GIVEN: V = 825 cm3 D = 13.6 g/cm3 M = ? WORK: M = DV M = (13.6 g/cm3)(825cm3) M = 11,200 g

9 D. Density D = 0.87 g/mL V = M V = ? M = 25 g V = 25 g 0.87 g/mL
A liquid has a density of 0.87 g/mL. What volume is occupied by 25 g of the liquid? GIVEN: D = 0.87 g/mL V = ? M = 25 g WORK: V = M D V = g 0.87 g/mL V = 29 mL

10 II. Using Measurements (p. 44 - 57)
CH. 2 - MEASUREMENT II. Using Measurements (p )

11 A. Accuracy vs. Precision
Accuracy - how close a measurement is to the accepted value Precision - how close a series of measurements are to each other ACCURATE = CORRECT PRECISE = CONSISTENT

12 B. Percent Error Indicates accuracy of a measurement your value
accepted value

13 B. Percent Error % error = 2.9 %
A student determines the density of a substance to be 1.40 g/mL. Find the % error if the accepted value of the density is 1.36 g/mL. % error = 2.9 %

14 C. Significant Figures Indicate precision of a measurement.
Recording Sig Figs Sig figs in a measurement include the known digits plus a final estimated digit 2.35 cm

15 C. Significant Figures Counting Sig Figs (Table 2-5, p.47)
Count all numbers EXCEPT: Leading zeros Trailing zeros without a decimal point -- 2,500

16 Counting Sig Fig Examples
C. Significant Figures Counting Sig Fig Examples 4 sig figs 3 sig figs 3. 5,280 3. 5,280 3 sig figs 2 sig figs

17 C. Significant Figures (13.91g/cm3)(23.3cm3) = 324.103g 324 g
Calculating with Sig Figs Multiply/Divide - The # with the fewest sig figs determines the # of sig figs in the answer. (13.91g/cm3)(23.3cm3) = g 4 SF 3 SF 3 SF 324 g

18 C. Significant Figures 3.75 mL + 4.1 mL 7.85 mL 3.75 mL + 4.1 mL
Calculating with Sig Figs (con’t) Add/Subtract - The # with the lowest decimal value determines the place of the last sig fig in the answer. 3.75 mL mL 7.85 mL 3.75 mL mL 7.85 mL 224 g + 130 g 354 g 224 g + 130 g 354 g  7.9 mL  350 g

19 C. Significant Figures Calculating with Sig Figs (con’t)
Exact Numbers do not limit the # of sig figs in the answer. Counting numbers: 12 students Exact conversions: 1 m = 100 cm “1” in any conversion: 1 in = 2.54 cm

20 C. Significant Figures Practice Problems 5. (15.30 g) ÷ (6.4 mL)
4 SF 2 SF = g/mL  2.4 g/mL 2 SF g g  18.1 g 18.06 g

21 D. Scientific Notation 65,000 kg  6.5 × 104 kg
Converting into Sci. Notation: Move decimal until there’s 1 digit to its left. Places moved = exponent. Large # (>1)  positive exponent Small # (<1)  negative exponent Only include sig figs.

22 D. Scientific Notation Practice Problems 7. 2,400,000 g 8. 0.00256 kg
9. 7  10-5 km  104 mm 2.4  106 g 2.56  10-3 kg km 62,000 mm

23 D. Scientific Notation Calculating with Sci. Notation
(5.44 × 107 g) ÷ (8.1 × 104 mol) = Type on your calculator: EXP EE EXP EE ENTER EXE 5.44 7 8.1 ÷ 4 = = 670 g/mol = 6.7 × 102 g/mol

24 Chemistry Binder Organization

25 III. Unit Conversions (p. 40 - 42)
CH. 2 - MEASUREMENT III. Unit Conversions (p )

26 A. SI Prefix Conversions
Symbol Factor mega- M 106 kilo- k 103 BASE UNIT --- 100 deci- d 10-1 move left move right centi- c 10-2 milli- m 10-3 micro- 10-6 nano- n 10-9 pico- p 10-12

27 M V D = C. Derived Units 1 cm3 = 1 mL 1 dm3 = 1 L
Combination of base units. Volume (m3 or cm3) length  length  length 1 cm3 = 1 mL 1 dm3 = 1 L D = M V Density (kg/m3 or g/cm3) mass per volume

28 D. Density Mass (g) Volume (cm3)

29 Problem-Solving Steps
1. Analyze 2. Plan 3. Compute 4. Evaluate

30 D. Density V = 825 cm3 M = DV D = 13.6 g/cm3 M = (13.6 g/cm3)(825cm3)
An object has a volume of 825 cm3 and a density of 13.6 g/cm3. Find its mass. GIVEN: V = 825 cm3 D = 13.6 g/cm3 M = ? WORK: M = DV M = (13.6 g/cm3)(825cm3) M = 11,200 g

31 D. Density D = 0.87 g/mL V = M V = ? M = 25 g V = 25 g 0.87 g/mL
A liquid has a density of 0.87 g/mL. What volume is occupied by 25 g of the liquid? GIVEN: D = 0.87 g/mL V = ? M = 25 g WORK: V = M D V = g 0.87 g/mL V = 29 mL

32 Homework P. 54 Practice problems 1 & 2

33 Conversion Factors Problems
Dimensional Analysis Conversion Factors Problems

34 B. Dimensional Analysis
A tool often used in science for converting units within a measurement system Conversion Factor A numerical factor by which a quantity expressed in one system of units may be converted to another system

35 B. Dimensional Analysis
The “Factor-Label” Method Units, or “labels” are canceled, or “factored” out

36 B. Dimensional Analysis
Steps: 1. Identify starting & ending units. 2. Line up conversion factors so units cancel. 3. Multiply all top numbers & divide by each bottom number. 4. Check units & answer.

37 B. Dimensional Analysis
Lining up conversion factors: = 1 1 in = 2.54 cm 2.54 cm cm 1 = 1 in = 2.54 cm 1 in in

38 B. Dimensional Analysis
How many milliliters are in 1.00 quart of milk? qt mL 1.00 qt 1 L 1.057 qt 1000 mL 1 L = 946 mL

39 B. Dimensional Analysis
You have 1.5 pounds of gold. Find its volume in cm3 if the density of gold is 19.3 g/cm3. lb cm3 1.5 lb 1 kg 2.2 lb 1000 g 1 kg 1 cm3 19.3 g = 35 cm3

40 B. Dimensional Analysis
How many liters of water would fill a container that measures 75.0 in3? in3 L 75.0 in3 (2.54 cm)3 (1 in)3 1 L 1000 cm3 = 1.23 L

41 B. Dimensional Analysis
5) Your European hairdresser wants to cut your hair 8.0 cm shorter. How many inches will he be cutting off? cm in 8.0 cm 1 in 2.54 cm = 3.2 in

42 B. Dimensional Analysis
6) Taft football needs 550 cm for a 1st down. How many yards is this? cm yd 550 cm 1 in 2.54 cm 1 ft 12 in 1 yd 3 ft = 6.0 yd

43 B. Dimensional Analysis
7) A piece of wire is 1.3 m long. How many 1.5-cm pieces can be cut from this wire? cm pieces 1.3 m 100 cm 1 m 1 piece 1.5 cm = 86 pieces

Download ppt "I. Units of Measurement (p )"

Similar presentations

CH. 2 - MEASUREMENT Units of Measurement.

CH. 2 - MEASUREMENT Units of Measurement.
Chapter 3 Measurement Accuracy vs Precision Percent Error

Chapter 3 Measurement Accuracy vs Precision Percent Error
Chapter 2 – Scientific Measurement

Chapter 2 – Scientific Measurement
I. Scientific Method. The Scientific Method A logical approach to solving problems or answering questions. Starts with observation- noting and recording.

I. Scientific Method. The Scientific Method A logical approach to solving problems or answering questions. Starts with observation- noting and recording.
Chapter 2: Measurement and Calculations… Section 2-1: Scientific Method (pg29-31) will not be explicitly covered but used throughout this entire class…

Chapter 2: Measurement and Calculations… Section 2-1: Scientific Method (pg29-31) will not be explicitly covered but used throughout this entire class…
Scientific Notation Converting into Sci. Notation: –Move decimal until there’s 1 digit to its left. Places moved = exponent. –Large # (>1)  positive.

Scientific Notation Converting into Sci. Notation: –Move decimal until there’s 1 digit to its left. Places moved = exponent. –Large # (>1)  positive.
I II III I. Using Measurements CH. 2 - MEASUREMENT.

I II III I. Using Measurements CH. 2 - MEASUREMENT.
Unit 2. Measurement This lesson is 8 days long.

Unit 2. Measurement This lesson is 8 days long.
I II III I. Using Measurements CH. 2 - MEASUREMENT.

I II III I. Using Measurements CH. 2 - MEASUREMENT.
Homework: Due Friday 9/4 Do 1-10 on a separate sheet of paper, include units. Do all problems on slide 25 as well.

Homework: Due Friday 9/4 Do 1-10 on a separate sheet of paper, include units. Do all problems on slide 25 as well.
I. Using Measurements (p )

I. Using Measurements (p )
Chapter 2: Measurement and Calculations… Section 2-1: Scientific Method (pg29-31) will not be explicitly covered but used throughout this entire class…

Chapter 2: Measurement and Calculations… Section 2-1: Scientific Method (pg29-31) will not be explicitly covered but used throughout this entire class…
I II III Units of Measurement Scientific Measurement.

I II III Units of Measurement Scientific Measurement.
I II III I. Using Measurements CH. 2 - MEASUREMENT.

I II III I. Using Measurements CH. 2 - MEASUREMENT.
CH. 1 - MEASUREMENT I. Units of Measurement. Scientific Method.

CH. 1 - MEASUREMENT I. Units of Measurement. Scientific Method.
I. Using Measurements MEASUREMENT IN SCIENCE. A. Accuracy vs. Precision Accuracy - how close a measurement is to the accepted value Precision - how close.

I. Using Measurements MEASUREMENT IN SCIENCE. A. Accuracy vs. Precision Accuracy - how close a measurement is to the accepted value Precision - how close.
Ch. 3, Scientific Measurement. Measurement Measurement: A quantity that has a number and a unit. Like 52 meters.

Ch. 3, Scientific Measurement. Measurement Measurement: A quantity that has a number and a unit. Like 52 meters.
I II III I. Using Measurements MEASUREMENT. A. Accuracy vs. Precision  Accuracy - how close a measurement is to the accepted value  Precision - how.

I II III I. Using Measurements MEASUREMENT. A. Accuracy vs. Precision  Accuracy - how close a measurement is to the accepted value  Precision - how.
Ch. 3, Scientific Measurement. Measurement : A quantity that has a and a. Like 52 meters.

Ch. 3, Scientific Measurement. Measurement : A quantity that has a and a. Like 52 meters.
I. Using Measurements (p )

I. Using Measurements (p )

Similar presentations

Ads by Google