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General Chemistry. 2 nd Semester review. 1 mol = 1 mol = 1 mol = . How many molecules are in 7.25 mol of carbon dioxide? How many moles are in 1.62 x 10 23 atoms of argon?. How many moles are in 83.2 g of H 2 SO 4 ? What is the mass in grams of 1.5 mol of NaCl ?.
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General Chemistry 2nd Semester review
1 mol = • 1 mol = • 1 mol =
How many molecules are in 7.25 mol of carbon dioxide? • How many moles are in 1.62 x 1023 atoms of argon?
How many moles are in 83.2 g of H2SO4? • What is the mass in grams of 1.5 mol of NaCl?
What is the volume of 1.50 mol of nitrogen at STP? • How many moles are in 75.3 L of water vapor at STP?
How many atoms are in a 44.3 g piece of iron? • What is the volume of 5.24 x 1022 molecules of iodine?
What is the volume of 68.4 g of F2 gas at STP? • How many molecules are in 0.75 L of nitrogen gas at STP?
Calculating percent composition • Find the total molar mass of each element in the compound. • Find the molar mass of the entire compound. • Divide the total molar mass of each element by the molar mass of the compound then multiply by 100 • Check that all your percentages add up to 100
Calculating empirical formula • Change % to g (assume 100 g of compound so 30% = 30 g) • Convert each element from g to moles • Divide each mole amount by the smallest number from step 2 • Change to a whole number = subscript in empirical formula
Assumptions of the Kinetic Molecular Theory • Gasses consist of small particles that take up little volume relative to the volume of empty space around them • Gas molecules are very far apart and therefore don’t experience attractive or repulsive forces.
Gas particles move in constant, random straight lines until they collide with other particles or with the walls of the container • Collisions are elastic -
The energy of gas particles is determined by the particle’s mass and velocity • KE =
Intermolecular forces • Inter- means between or among • Intermolecular forces can hold together identical particles or two different types of particles • Weaker than intramolecular forces (bonds)
Dispersion Forces • Weak forces that result from temporary shifts in the density of electrons in electron clouds
Exist between all particles • Weak for small particles • Get stronger as the number of electrons involved increases • F2 • Cl2 • Br2 • I2
Dipole-dipole forces • Attraction between oppositely charged regions of polar molecules • Polar molecule = • Neighboring polar molecules orient themselves so that oppositely charged regions align
Hydrogen Bonds • Dipole-dipole attraction that occurs between molecules containing a hydrogen atom bonded to a flourine, oxygen, or nitrogen atom
Viscosity - measure of the resistance of a liquid to flow • Attractive forces – stronger intermolecular forces = higher viscosity • Particle size – larger molecules = higher viscosity • Temperature – lower temperature = higher viscosity
9.4 Phase changes • Matter changes phases when energy is added or removed
Phase changes that require energy • Melting • Heat flows from an object at a higher temperature to an object at a lower temperature • Ice absorbs heat which does not raise temperature but is used to break hydrogen bonds • When hydrogen bonds are broken molecules can move further apart into the liquid phase
Vaporization – process by which liquid changes to vapor • Vapor – gaseous state of a substance that is normally liquid at room temperature • Evaporation – when vaporization occurs only at the surface of a liquid • Vapor pressure – the pressure exerted by a vapor over a liquid
Sublimation – changing from solid to gas without becoming a liquid • Dry ice • Moth balls • Solid air fresheners
Phase changes that release energy • Freezing • Heat flows out of warmer object into cooler object • Molecules slow down & become less likely to flow past one another • Intermolecular forces cause the molecules to become fixed into set positions • Freezing point – temperature in which a liquid becomes a solid
Condensation – process by which a gas or vapor becomes a liquid • Deposition – substance changes from gas or vapor to solid without first becoming a liquid • frost
Phase Diagrams • Temperature and pressure both effect the phase of a substance • Have opposite effects • Phase diagram – graph of pressure vs temperature that shows which phase a substance will be in under different conditions.
Triple point = point at which all three phases exist at the same time
Gas Laws: • Remember for all gas laws T must be in K • K = C + 273 • Back of periodic table
A balloon contains 30.0 L of air at 100.0 kPa. What did the volume change to that caused the pressure to decrease to 25 kPa? • P1 = • V1 = • P2 = • V2 =
A balloon at 27 oC has a volume of 4.0 L. What happens to the volume of the gas when it is heated to 57 oC?
The gas in an aerosol can has a pressure of 100 kPa at a temperature of 27 oC. What is the new pressure if the temperature is raised to 927 oC?
A balloon has a volume of 20.0 L, a pressure of 150 kPa, and a temp of 40oC. What is the new volume when the gas is at 101.3 kPa and 0oC?
A container with a volume of 20.0 L of N2 gas reaches a pressure of 20,000 kPa at 300 K. How many moles of N2 gas does the container hold?
Heterogeneous mixtures • Suspensions – • Particle size:
Colloids – • Particle size: • Brownian motion: • Tyndall effect:
Homogeneous Mixtures • Solutions • Solute • Solvent • Can be solid, liquid, or gas
Soluble - • Insoluble - • Miscible - • Immiscible -
Molarity (M) • What is the molarity of a solution containing 3 moles of solute in 1.5 L of solution?
What is the molarity of 155 mL of solution containing 1.55 g dissolved KBr?
Diluting molar solutions: • What volume of 2.00M CaCl2 stock solution would you use to make 0.50L of 0.300M CaCl2 solution?
Colligative Properties of Solutions • Colligative properties depend on number of solute particles in a solution • Boiling point elevation • Freezing point depression
Acids and Bases • Acids produce H+ ions which react with water to form hydronium (H3O+) ions • Bases produce OH- ions
Macroscopic properties of acids and bases • Taste and feel • Acids taste sour (lemon juice, vinegar) • Bases taste bitter • Bases are slippery (soap)
Litmus test and other color changes • Indicators change colors in the presence of an acid or a base • Litmus: acid = red, base = blue
Acids & bases are electrolytes • Substance that dissolve in pure water to form ions & conduct electricity • Not all acids & bases conduct electricity equally well • Strong acids & bases conduct electricity better than weak acids & bases
Strengths of Acids and Bases • Strong acids and bases ionize completely while weak acids and bases ionize only partially