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Matter and Measurement Ch 1 Brown, LeMay The Basics (1.2 & 1.3) • States of Matter • • • • • Solid Liquid Gas Plasma Bose-Einstein Condensate (BEC) • Particle Spacing • Particle Movement • Energy Classification of Matter Classification of Matter Classification of Matter Classification of Matter Classification of Matter Classification of Matter Classification of Matter Classification of Matter Classification of Matter Properties and Changes of Matter Types of Properties • Physical Properties… • Can be observed without changing a substance into another substance. • Boiling point, density, mass, volume, etc. • Chemical Properties… • Can only be observed when a substance is changed into another substance. • Flammability, corrosiveness, reactivity with acid, etc. Types of Properties • Intensive Properties… • Are independent of the amount of the substance that is present. • Density, boiling point, color, etc. • Extensive Properties… • Depend upon the amount of the substance present. • Mass, volume, energy, etc. Separation of Mixtures Hand Separation • Separate a mixture like this… • …by using your hand! Filtration • In filtration solid substances are separated from liquids and solutions. What remains on the filter paper is called the “precipitate” and what passes through is called the “filtrate.” Separating Funnel Shake and let sit… Usually used to separate immiscible liquids, like oil and water mixture. Centrifuge Separates particles of different masses based on centrifugal force. Heavier particles settle at the bottom followed by the lighter particles on top. Place in centrifuge… Distillation • Distillation uses differences in the boiling points of substances to separate a homogeneous mixture into its components. Chromatography This technique separates substances on the basis of differences in solubility in a solvent S.I. – The Metric System (1.4) Uncertainty • Precision: how closely individual measurements agree with one another; the “fineness” of a measurement • Accuracy: how closely individual measurements agree with the “true” value • Significant Figures: for any measurement, all the digits that are “certain” plus one “uncertain” digit, an indication of precision Determining Significant Figures • 1. Any nonzero digit is significant. • 457 cm = 3SF 29cm = 2SF • 2. Any zero between nonzero digits is significant. • 1005 kg = 4SF 807 = 3SF • 3. Any zero in front of a number is not significant; it’s a placeholder. • 0.0026 Å = 2SF 0.41 Å = 2SF Anders Ångström (1814 – 1874) Determining Significant Figures • 4. Any zero at the “end” of a number & there is a decimal point in the number is significant. • 0.05000 K = 4SF 3000 K = 1SF 7000.K = 4SF • 5. For exact numbers (e.g. 4 beakers) & those used in conversion factors (e.g. 1 inch = 2.54 cm), there is no uncertainty in their measurement and are considered to have infinite significant figures. • For more practice: http://lectureonline.cl.msu.edu/~mmp.applist/sigfig/sig.htm Calculating with Sig Figs • 1. Addition & Subtraction: a sum or difference has the same number of decimal places as the measurement with the fewest decimal places. • 15.047 g + 4.12 g = ? 15.047 + 4.12 19.167 19.17g • 25,040 mL + 37,200 mL = ? 25,040 mL +37,200 mL 62,240 62,200mL or 6.22 × 104 mL Calculating with Sig Figs 2. Multiplication & Division: a product or quotient may be no more significant than the least significant measurement. Use the least significant figures. 3.000 × 4.00 = 12.0 (4SF) (3SF)= (3SF) 3. Logarithms: retain in the mantissa (the decimal part of the logarithm) the same number of Sig Figs there are in the original value. log (3.000 × 104) = 4.477121255 = 4.4771 log (3 × 104) = 4.477121255 = 4.5 Calculating with Sig Figs • 4. Series of Operations: keep all non-significant digits during any intermediate calculations, and round to the correct number of significant figures at the end. (4.5 + 3.50001) × 2.00 = (8.00001) × 2.00 = 16.0002 = 16 Rounding Rules for Significant Figures • 1. Look at the leftmost digit of the numbers you are removing, if it is less than 5, don’t round the last sig fig up. • Ex. 7.248 rounded to two SF would be 7.2 • 2. If the leftmost digit of the numbers you are removing is 5 or greater, round the last sif fig up. • Ex 4.735 rounded to three SF would be 4.74 Dimensional Analysis (1.6) • Is an aid when solving problems based on cancelling out the units you don’t need in favor of those you do need. • Uses conversion factors • Given unit × desired unit = desired unit given unit
