Chapter 2 – Measurements & Calculations
Using Scientific Measurements Table of Contents Section Title 1 Scientific Method 2 Units of Measure 3 Using Scientific Measurements
Objectives (Section 1) Describe the purpose of the scientific method. Distinguish between qualitative and quantitative observations. Describe the differences between hypotheses, theories, and models.
The Scientific Method Science progresses through carefully planned investigation Scientific Method is a logical approach to solving problems by observing and collecting data, formulating hypotheses, testing hypotheses, and formulating theories that are supported by data.
Which chemical is the best penny cleaner? Which is a better penny cleaner? 1. Ketchup 2. Vinegar 3. Salt
Observing & Collecting Data Observing is the use of the senses to obtain information. data may be qualitative (descriptive) quantitative (numerical) A system is a specific portion of matter in a given region of space that has been selected for study during an experiment or observation.
Qualitative vs. Quantitative Data Which is a better penny cleaner? What is the length of this pen? Which is more subjective? Why? Which is considered more desirable for science? Why?
Formulating Hypotheses Scientists make generalizations based on the data. Scientists use generalizations about the data to formulate a hypothesis, or testable statement. Hypotheses are often “if-then” statements.
Testing Hypotheses Testing a hypothesis requires experimentation that provides data to support or refute a hypothesis or theory. Controls - experimental conditions that stay constant Variables - experimental conditions that change
Theorizing A model in science is more than a physical object; it is often an explanation of how phenomena occur and how data or events are related. visual, verbal, or mathematical example: atomic model of matter A theory is a broad generalization that explains a body of facts or phenomena. example: atomic theory
Scientific Method (Visually)
Algebra Review
Scientific Notation Pages Converting to Scientific Notation Move decimal to have one digit (non-zero) to the LEFT Example: 234 = 2.34 x 102 Example 2: 0.52 = 5.2 x 10-1 Decimal to the RIGHT = Negative exponent Decimal to the LEFT = Positive exponent Complete pp. 2 #1-5
Scientific Notation Pages (2) Converting from Scientific Notation Move decimal to a regular value Example: 4.92 x 102 = 492 Example 2: 5.2 x 10-4 = 0.00052 Positive exponent = MOVE decimal to the RIGHT Negative exponent = MOVE decimal to the LEFT Negative exponents = SMALLER than 1 Complete pp. 2 #1-5
Exponent Operations Use the calculator!! Don’t forget the parentheses Complete pp. 3 #1, 3, 5, & 7
Significant Figures & Operations Use the rules on page 4 + pp. 47 !! For add/subtract OR multiply/divide, use the rules on page 5 + pp. 49 !!
Significant Figures
Significant Figs & Operations
Section 2.2 – Units of Measurement
Lesson Starter Would you be breaking the speed limit in a 40 mi/hr zone if you were traveling at 60 km/hr? one kilometer = 0.62 miles
Lesson Starter Would you be breaking the speed limit in a 40 mi/hr zone if you were traveling at 60 km/hr? one kilometer = 0.62 miles 60 km/h = 37.2 mi/h You would not be speeding! km/h and mi/h measure the same quantity using different units
Objectives 2.2 Distinguish between a quantity, a unit, and a measurement standard. Name and use SI units for length, mass, time, volume, and density. Distinguish between mass and weight. Perform density calculations. Transform a statement of equality into conversion factor.
Measurement vs. Quantity Measurements represent quantities. A quantity is something that has magnitude, size, or amount. measurement quantity the teaspoon is a unit of measurement volume is a quantity Measurement = number + unit The choice of unit depends on the quantity being measured.
SI Measurement Scientists all over the world have agreed on a single measurement system called Le Système International d’Unités, abbreviated SI. SI has 7 base units Everything else is DERIVED from these 7 units Hence, called Derived SI unit
SI Base Units
7 Base Units L-MM-TT (Length, Mass, Mole, Time, Temp) Current (A) Luminous Intensity (cd)
SI Prefixes – Need to Know Symbol 10n Common Kilo k 103 Thousand hecto h 102 Hundred deca da 101 Ten 100 One or Unit deci d 10-1 Tenths centi c 10-2 Hundredth milli m 10-3 Thousandth
SI Prefixes - Extended
Converting SI Units Kilo hecto deca U deci centi milli Complete pages 6 & 7
Mass vs. Weight Mass is a measure of the quantity of matter. Kilogram (kg) Weight is a measure of the gravitational pull on matter. Newtons (Don’t need to know units now) Mass does not depend on gravity.
Length Matters Length is a measure of distance. Meter (m) Kilometer (km) – longer distances Centimeter (cm) – shorter distances
Derived SI Units Combine more than one SI unit into a new unit Called derived SI units since they are derived from the 7 SI units
Volume Volume is the amount of space occupied by an object. Cubic meters (m3) Cubic centimeter (cm3) is often used Liter (L) is a non-SI unit 1 L = 1000 cm3 1 mL = 1 cm3
Density Density is the ratio of mass to volume, or mass divided by volume. kg / m3 Can also use: g/mL = g/cm3
Conversion Factor Conversion factor is a ratio derived from the equality between two different units that can be used to convert from one unit to the other.
Accuracy & Precision Accuracy refers to the closeness of measurements to the correct or accepted value of the quantity measured. Precision refers to the closeness of a set of measurements of the same quantity made in the same way.
Accuracy & Precision
Percentage Error Percentage error is calculated by subtracting the accepted value from the experimental value, dividing the difference by the accepted value, and then multiplying by 100.
Percentage Error Problems A student measures the mass and volume of a substance and calculates its density as 1.40 g/mL. The correct, or accepted, value of the density is 1.30 g/mL. What is the percentage error of the student’s measurement? What is the percentage error for a mass measurement of 17.7g, given the correct value is 21.2g?
Percentage Error Problems
Section Review & HW Complete Section Review pp. 42 & pp. 57 Complete Practice Problems pp. 59 (#16 – 23)