Matter and Measurements AP Chemistry

Matter and Measurements AP Chemistry
Topic 1 Matter and Measurements AP Chemistry

How to be Successful in AP Chemistry
Memorize strategies not equations! Study a lot! Work ALL the problems. Self-evaluate after test results. Make use of Tutorial. Start a Study Group Wolpa/Advanced Placement Chemistry

Chapter 1: Matter and Measurement
Overview: The Study of Chemistry Classifications of Matter Properties of Matter Units of Measurement Uncertainty in Measurement Dimensional Analysis Basic Math Concepts Wolpa/Advanced Placement Chemistry

Wolpa/Advanced Placement Chemistry
The study of matter and the changes it undergoes Wolpa/Advanced Placement Chemistry

Matter Anything that has mass and occupies space Characterized by physical and chemical properties Law of the Conservation of Mass - matter is neither created nor destroyed in chemical reactions Wolpa/Advanced Placement Chemistry

Element An element is a pure substance composed of one type of atom. An atom is the smallest particle of an element that retains the chemical properties of the element. An element is the most basic form of matter under ordinary circumstances Simplest chemical substance Only a few elements are found in their free state (nitrogen, oxygen, gold, etc.) Wolpa/Advanced Placement Chemistry

Elements and the Periodic Table
Each element is represented by a name and a symbol. (Periods/groups - alkali metals, alkaline earth metals, halogens, noble gases) The first letter is always capitalized the second (and third) are never capitalized. Wolpa/Advanced Placement Chemistry

Compound A unique substance composed of two or more elements that are chemically combined (i.e. joined intimately, not just mixed together) Pure compounds have definite compositions and properties Require complex chemical procedures to separate into simpler substances (elements) Compounds include water, table salt, sugar, etc Wolpa/Advanced Placement Chemistry

Properties of Substances
Elements and Compounds are pure substances. Properties describe the particular characteristics of a substance Pure substances have definite composition and definite, unchanging properties Physical properties - can be observed without changing the substance Chemical properties - require that the substance change into another Wolpa/Advanced Placement Chemistry

Physical States The three physical states are solid, liquid and gas solids - have a definite shape and volume liquid - have a definite volume but not a definite shape gas - neither a definite volume or shape A substance exists in a particular physical state under defined conditions Wolpa/Advanced Placement Chemistry

Phase Changes Melting point or freezing point temperature at which a substance changes from solid to liquid Boiling point or condensation point temperature at which a substance changes from liquid to gas Wolpa/Advanced Placement Chemistry

Density ratio of the mass of a substance to the volume of that mass usually measure in g/mL for solids and liquids; g/L for gases also a conversion factor relating the mass of a substance to it’s volume Specific gravity is the ratio of the mass of a substance to the mass of an equal volume of water Wolpa/Advanced Placement Chemistry

What’s happening? Wolpa/Advanced Placement Chemistry

Density Calculation Equation d=m/V Example: If an object has a mass of 15.0 g and a volume of 10cm3 what’s the objects density? d = 15.0 g/ 10.0 cm3 = 1.50 g/cm3 Wolpa/Advanced Placement Chemistry

Temperature and its Measurement
Temperature - measure of the intensity of the heat of a substance Thermometer - device to measure temperature Kelvin - K - SI unit of temperature Celsius - °C - commonly used unit Fahrenheit - °F - only used in USA Wolpa/Advanced Placement Chemistry

The Kelvin scale The idea of negative temperatures is a problem for any mathematical treatment of temperature dependent properties. It was found that a practical minimum temperature did exist (absolute zero) which has a value of °C This is defined as 0 K (no degree sign) The Kelvin degree is the same size as the Celsius degree (K = °C ) Wolpa/Advanced Placement Chemistry

Temperature Scale Comparison
Wolpa/Advanced Placement Chemistry

Chemical Properties Chemical properties - involve how a substance changes into another Sometimes quite difficult to determine Some examples are burning (as opposed to boiling) and color changes Wolpa/Advanced Placement Chemistry

A mixture is a combination of two or more substances in which the substances retain their distinct identities. Homogenous mixture – composition of the mixture is the same throughout. Heterogeneous mixture – composition is not uniform throughout. ? Wolpa/Advanced Placement Chemistry

Mixtures Combinations of two or more substances Can be separated by exploiting different physical properties (filtration, distillation, crystallization, chromatography) Have chemical and physical properties that are different from the substances that make them up The percentages by mass of the components of a mixture can be varied continuously Wolpa/Advanced Placement Chemistry

Heterogeneous Vs. Homogeneous Mixtures

Physical means can be used to separate a mixture into its pure components. Wolpa/Advanced Placement Chemistry

Physical means can be used to separate a mixture into its pure components. (Mechanical process) distillation magnet filtration Wolpa/Advanced Placement Chemistry

Physical Change: the composition of the substance remains the same but the state changes. Wolpa/Advanced Placement Chemistry

Chemical Change: a new substance is formed.

Physical Properties: Identifying properties of a substance.
Density Solubility Color Melting/Boiling Point Crystalline Shape Malleability, Ductility, Conductivity, Luster Etc. Wolpa/Advanced Placement Chemistry

Extensive and Intensive Properties
An extensive property of a material depends upon how much matter is is being considered. mass length volume An intensive property of a material does not depend upon how much matter is is being considered. density malleability color Wolpa/Advanced Placement Chemistry 1.6

Solutions A type of homogeneous mixture Usually involves a liquid phase, but can be solid-solid, liquid-liquid, solid-liquid, etc. The pure substances can be in different phases but form a homogeneous mixture (table salt and water, for example) Wolpa/Advanced Placement Chemistry

Measurements and Units
Measurement - determines the quantity, dimensions or extent of something 1.Consist of two parts a. a numerical quantity (1.23) b. a specific unit (meters) Unit - a definite quantity adapted to as a standard of measurement Wolpa/Advanced Placement Chemistry

Features of Measured Quantities
When we measure a number, there are physical constraints to the measurement Instruments and scientists are not perfect, so the measurement is not perfect (i. e., it has error) The error in the measurement is related to the accuracy and the precision of the measurement Wolpa/Advanced Placement Chemistry

Accuracy and Precision
Accuracy – how close the measurement is to the “true” value (of course we have to know what the “true” value is) Precision – is a measure of how closely individual measurements agree with one another. Wolpa/Advanced Placement Chemistry

Example: Accuracy and Precision

Equations for Precision and Accuracy
Absolute Error % AE = (True value-Avg Value) X 100 True Value Wolpa/Advanced Placement Chemistry

AP Chemistry Exam Hint:
You must be within 1 sig fig – it does not need to be perfect, but sig figs DO count! Significant Figures Any digit that is not zero is significant 1.234 kg significant figures Zeros between nonzero digits are significant 6006 m significant figures Zeros to the left of the first nonzero digit are not significant 0.08 L significant figure One or more final zeros to the right of the decimal point are significant 2.00 mg significant figures g 3 significant figures sig figs Wolpa/Advanced Placement Chemistry

Counting Significant Figures
Atlantic / Pacific Method a. Absent Decimal- Start on “atlantic” side of number & cross out all zeroes until 1st nonzero digit is reached, remaining digits are significant b. Present decimal- start on the “pacific” side of the number & cross out all zeros until the 1st nonzero digit Is reached, remaining digits are significant Wolpa/Advanced Placement Chemistry

2. Examples: Wolpa/Advanced Placement Chemistry

How many significant figures are in each of the following measurements? 24 mL 2 significant figures 3001 g 4 significant figures m3 3 significant figures 6.400 x 104 molecules 4 significant figures 560 kg 2 significant figures Wolpa/Advanced Placement Chemistry

Significant Figures Addition or Subtraction The answer cannot be more accurate than any of the original numbers. 89.332 1.1 + 90.432 one significant figure after decimal point round off to 90.4 3.70 0.7867 two significant figures after decimal point round off to 0.79 370 Number is rounded to “tens” place 78.67 round off to 80 Wolpa/Advanced Placement Chemistry

Significant Figures Multiplication or Division The number of significant figures in the result is set by the original number that has the smallest number of significant figures 4.51 x = = 16.5 3 sig figs round to 3 sig figs 6.8 ÷ = = 0.061 2 sig figs round to 2 sig figs Wolpa/Advanced Placement Chemistry

Significant Figures Exact Numbers Numbers from definitions or numbers of objects are considered to have an infinite number of significant figures The average of three measured lengths; 6.64, 6.68 and 6.70? 3 = = 6.67 = 7 Because 3 is an exact number Wolpa/Advanced Placement Chemistry

Scientific notation format

Scientific notation and significant figures
1. When using scientific notation the base must be written with the correct number of significant digits 2. All zeroes are significant when using scientific notation Wolpa/Advanced Placement Chemistry

Measurement of mass, length and volume
In the United States, we use a fairly awkward system of measurement for most things - the English system Scientists use the metric and SI systems of units for the measurement of physical quantities This system using standard units based on very precisely known properties of matter and light Prefixes are used in from of the units to indicate powers of ten Wolpa/Advanced Placement Chemistry

SI Units Measurement Unit Symbol Mass Kilogram kg Length Meter M Time Second s Temperature Kelvin K Quantity Mole mol Energy Joule J Pressure Pascal Pa Wolpa/Advanced Placement Chemistry

SI Prefixes Prefix Symbol Power tera- T 1012 deci- d 10-1 giga- G 109 centi- c 10-2 mega- M 106 milli- m 10-3 kilo- k 103 micro-  10-6 hecto- h 102 nano- n 10-9 deca- da 101 pico- p 10-12 Wolpa/Advanced Placement Chemistry

. Base Units Mass - the quantity of matter that a sample contains Note that weight is a measure of the attraction of gravity for a sample and it varies depending on the distance of the mass to a planet or moon Scientists often speak imprecisely of the “weight” of an amount of substance. They really mean mass. Wolpa/Advanced Placement Chemistry

Basic SI units/Derived units
Used to generate new Units Volume - space a given quantity of matter occupies Volume - expressed in terms of length - m3 m3 - an inconveniently large volume, so we use liter (L; one cubic decimeter) We often use a mL (1 cubic centimeter) for more manageable amounts of matter Wolpa/Advanced Placement Chemistry

Converting between units
The standard method to convert between two different units is the factor-label or dimensional analysis method Dimensional analysis converts a measurement in one unit to another by the use of a conversion factor Conversion factors are developed from relationships between units Wolpa/Advanced Placement Chemistry

The speed of sound in air is about 343 m/s. What is this speed in miles per hour? meters to miles seconds to hours 1 mi = 1609 m 1 min = 60 s 1 hour = 60 min 343 m s x 1 mi 1609 m 60 s 1 min x 60 min 1 hour x = 767 mi hour Wolpa/Advanced Placement Chemistry

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