Solids, Liquids, Gases and Solutions by Lauren Koesy

Solids, Liquids, Gases and Solutions by Lauren Koesy https://padlet.com/lmkoesy/ic8me1z4whvm Made with no regrets, whatsoever en-us 2017-03-20 12:28:35 UTC 2025-09-24 03:38:49 UTC hello@padlet.com Main Concepts lmkoesy https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161143821 - Kinetic Molecular Theory:

Molecules are point masses (they have no volume)
Gas molecules exert no force on each other unless they collide
Collisions of molecules with each other or the walls of the container do not decrease the energy of the system
The molecules of a gas are in constant and random motion
the energy of an ideal gas is entirely kinetic.
https://www.khanacademy.org/test-prep/mcat/physical-processes/kinetic-molecular-theory-of-gas/v/kinetic-molecular-theory-of-gases

- Pressure and temperature, as well as volume and temperature, are directly proportional
- volume and pressure are inversely proportional
- conditions for ideal gases are high temperatures and low pressures
-Gas can be collected by displacement of water. When levels are equal the pressure of the trapped gas mixture equals atmospheric pressure

remember that there is a mixture of gas due to the water vapor

- Effusion and Diffusion both depend on the molar mass of the gas involved, but their rates are not equal. The ratios of their rates, however, are the same
- the rate of diffusion depends on the concentration gradient, the amount of surface area available for diffusion, and the distance the gas particles must travel
- All gases with the same temperature have the same KEavg. The difference comes from molar mass.

As the temperature increases, so does the velocity, and as the mass of an atom/molecule increases the velocity decreases

***Make sure to look at the key terms-- some of the main concepts are in the key terms quizlet

]]> 2017-03-20 12:39:22 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161143821 Formulas & Variables: shawd420 https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161144986 2017-03-20 12:43:01 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161144986 Main Concept: Intermolecular and Intramolecular forces lmkoesy https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161448438 - Intermolecular forces (IMF) exist between atoms and molecules of a substances, while intramolecular are those within a molecule

Dispersion Forces (aka London Dispersion Forces): Results from instantaneous dipoles and induced dipoles (temporary dipole moment due to momentary asymmetrical distribution of electrons); the weakest IMF, experienced by nonpolar molecules, so affected by size of molecules and shape.
Dipole – Dipole Forces: Attraction between the partial positive and partial negative sides of polar molecules
Hydrogen Bonding: A strong dipole-dipole interaction between molecules that contain an H-F, H-O, or H-N bond; the Strongest IMF

]]> 2017-03-21 11:37:34 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161448438 Key Terms and Definitions anna_c_n24 https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161448446 Some of terms are explained more throughout the padlet ]]> 2017-03-21 11:37:36 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161448446 Main Concept: Properties of Liquids lmkoesy https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161451474 -Viscosity: measure of a liquids resistance to flow

-Cohesive Forces: attractions between identical molecules; causes liquids to form drops

-Surface Tension: the energy required to increase the surface area of a liquid

-Adhesive Forces: IMFs of attraction between two different molecules

-Capillary Action: adhesion to surface is greater than cohesion within the liquid (ex. Porous materials, small tubes)

]]> 2017-03-21 11:49:16 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161451474 Review Videos lmkoesy https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161452539 Just some Crash Course videos to help review:
Ideal Gas Law: https://www.youtube.com/watch?v=BxUS1K7xu30&index=12&list=PL8dPuuaLjXtPHzzYuWy6fYEaX9mQQ8oGr
Real Gases: https://www.youtube.com/watch?v=GIPrsWuSkQc&index=14&list=PL8dPuuaLjXtPHzzYuWy6fYEaX9mQQ8oGr
Effusion, Diffusion and the Velocity of a Gas: https://www.youtube.com/watch?v=TLRZAFU_9Kg&list=PL8dPuuaLjXtPHzzYuWy6fYEaX9mQQ8oGr&index=16
Solutions: https://www.youtube.com/watch?v=9h2f1Bjr0p4&index=27&list=PL8dPuuaLjXtPHzzYuWy6fYEaX9mQQ8oGr
Doing Solids: https://www.youtube.com/watch?v=bzr-byiSXlA&index=33&list=PL8dPuuaLjXtPHzzYuWy6fYEaX9mQQ8oGr

]]> 2017-03-21 11:53:12 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161452539 Common Confusions farawir https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161455637 https://docs.google.com/document/d/1aG_H3PjhWLIAgbI2QtTnTi7Y16w0ux6KjlgFYNyeMR4/edit?usp=sharing]]> 2017-03-21 12:04:24 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161455637 Main Concept: Phase Changes lmkoesy https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161456296 -Vaporization: liquid to gas transition

△Hvap: enthalpy of vaporization, endothermic process

-Condensation: gas to liquid transition

When rate of vaporization = rate of condensation then vapor and liquid are in dynamic equilibrium

- Vapor Pressure: pressure exerted by the vapor in equilibrium with a liquid in a closed container at a given temperature

Stronger IMFs will impede vaporization and favor condensation resulting in lower vapor pressure, and vice versa

- Boiling Point: (of a liquid) the temperature at which its equilibrium vapor pressure is equal to the pressure exerted on the liquid by its gaseous surroundings (In an open container that pressure is atmospheric pressure)

Normal Boiling Point: boiling point at 1 atm

-Melting: solid to liquid transition

△Hfus: enthalpy of fusion, endothermic process

-Freezing: liquid to sold transition

Melting/Freezing Point: temperature at which the solid and liquid phases of a given substance are in equilibrium

-Sublimation: solid to gas transition (skips the liquid state)

Ex. Dry Ice (Solid CO2)
△Hsub: Enthalpy of sublimation

-Deposition: gas to sold transition (skips the liquid state)

Ex. Frost

]]> 2017-03-21 12:06:49 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161456296 Phase Diagrams lmkoesy https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161459765 -Triple Point: all three phases coexist. At pressures lower than the triple point substance cannot exist as a liquid, regardless of temp

Critical Point: any temperature past the critical point the substance is always a gas, regardless of pressure

Supercritical Fluid: intermediate between liquid and gas

]]> 2017-03-21 12:17:54 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161459765 Main Concepts: Solids lmkoesy https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161460839 -Crystalline Solids: atoms, ions, or molecules are arranged in a definite repeating pattern

Ionic Solids: composed of positive and negative ions held together by electrostatic attractions. Can identify them by high melting points, being hard and brittle, they shatter rather than bend, they do not conduct electricity as a solid, but do as an aqueous solutions
Metallic Solids: formed by metal atoms. Described as a uniform distribution of atomic nuclei with a ”sea” of delocalized electrons. They have high electrical and thermal conductivity and are malleable
Covalent Network Solids: atoms are held together by a network of covalent bonds (ex- Diamond, silicon dioxide (sand)). They are hard and Strong (Graphite is an exception) and have very high melting points - covalent bonds must be broken
Molecular Solids: composed of neutral molecules. Strengths of attractive forces vary widely depending on size and polarity

-Amorphous Solids: (noncrystalline solids) atoms, ions, or molecules are in random order. Occurs when a liquid freezes before its molecules become arranged

]]> 2017-03-21 12:21:32 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161460839 Solids Diagram lmkoesy https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161462995 2017-03-21 12:28:56 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161462995 Units of Concentration lmkoesy https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161463848 -Molarity: M = mol solute/L solution

-Mole Fraction: X = mol A/total moles

-Molality: m = mol solute/kg solvent

]]> 2017-03-21 12:32:07 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161463848 Colligative Properties lmkoesy https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161464269 -Colligative Properties: properties of a solution that depend on the number of solute molecules (solute concentration) but not the identity

Vapor Pressure Lowering: Introducing nonvolatile solutes results in a decrease in vapor pressure. Solutes take up space at surface, shifting equilibrium
Boiling Point Elevation: Adding nonvolatile solutes increases the boiling point temperature
Freezing Point Depression: Adding nonvolatile solutes lowers the freezing point (Ex. Salting the roads, antifreeze)
Osmotic Pressure: : opposing pressure required to prevent bulk transfer of solvent molecules through a semipermeable membrane

]]> 2017-03-21 12:33:35 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161464269 Answer Key farawir https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161464810 https://docs.google.com/document/d/16vs5L0DhJVa5sxIzc0WqlccW6itbRJ_n0iKjggx94j0/edit?usp=sharing ]]> 2017-03-21 12:35:28 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161464810 Practice Problems farawir https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161465144 https://docs.google.com/document/d/1eYjW5JEWvNHZtaPk1Kh6AHWn346Teht9iBaQTuaWLow/edit?usp=sharing]]> 2017-03-21 12:36:37 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161465144 Free Response Answers shawd420 https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161685423 Video: https://youtu.be/GAj3mE8YK10 ]]> 2017-03-22 00:34:50 UTC https://padlet.com/lmkoesy/ic8me1z4whvm/wish/161685423