1946628
Description
Flashcards by Andrea Smith, updated more than 1 year ago
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Created by Andrea Smith
almost 10 years ago
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| Question | Answer |
| Intermolecular Forces | Forces that exist between molecules |
| Intramolecular Forces | Forces that exist within molecules |
| Melting | Solid to liquid phase change |
| Boiling/Vaporization | Liquid to Gas phase change |
| Sublimation | Solid to gas phase change |
| Freezing | Liquid to solid phase change |
| Condensation | Gas to liquid phase change |
| De-sublimation | Gas to solid phase change |
| Molecular Solids | Solids held together by dispersion forces Likely to dissolve in most solvents |
| Metallic Solids | Positive nuclei of metal atoms held together by valence electrons |
| Network Solids | Solids held together by covalent bonds Not likely to dissolve in most solvents |
| Ionic Solids | Held together by electrical forces between molecules |
| Collodial Suspension | Molecules uniformly disperses throughout the medium Between solutions and mixtures Between different phases |
| Miscibility | If a solute with dissolve in a solvent |
| Solubility | How much a solute will dissolve in a solvent |
| Saturation Point | Point where no more solute can be dissolved in the solvent |
| Alloy Substitution | Replacement of one solid atom with another to maintain general lattice shape |
| Alloy Interstitial Placement | Introduction of new solid atom distorts normal lattice structure |
| Dynamic Equilibrium | Rate of gas escaping the liquid phase is equal to the rate of gas dissolving into the liquid phase In a closed system |
| Surfactants | Hydrophobic tail and hydrophilic head Keep like phases near each other Reduce surface tension of a liquid |
| Monolayers | One row of surfactants to separate phases |
| Micelles | Surfactants form circle to enclose one phase from another |
| Vesicles | Bilayer of surfactants |
| Colligative Properties | Properties that change based on the amount of solute present |
| Vapor Pressure Reduction | Number of available solvent molecules at the surface to escape to gas phase is reduced with the introduction of a solute |
| Freezing Point Depression | Fewer solvent molecules available to change into solid phase because of introduction of solute |
| Boiling Point Elevation | Fewer solvent molecules able to reach surface and change into gas phase because of introduction of solute |
| Osmotic Pressure | Pressure applied to a solution to prevent the flow of solvent across a semi-permeable membrane |
| Properties of Liquids | Surface tensions, capillary action, viscosity, vapor pressure |
| Simple Cubic Unit Cell | Repeating unit form a 3D shape to represent the solid |
| Body-Centred Cubic Cell | Repeating unit centred around a cell |
| Face-Centred Cubic | Repeating unit centred around a cell with faces sticking out of the sides |
| Ion-Dipole Forces | Between ion and permanent dipole eg, Ion dissolved in water |
| Hydrogen Bonding Forces | Slightly polar hydrogen attracted to a lone pair eg, Water and ethanol |
| Dipole-Dipole Forces | Mutual attraction of two dipoles eg, HCl & HCl |
| Ion-Induced Dipole | Ion induces a dipole in another molecule then it is attracted to it eg, Ca2+ and O2 |
| Dipole-Induced Dipole | Dipole induces a dipole in another molecule eg, HCl and Cl2 |
| Dispersion Forces | Shifts of electron cloud density induce momentary attractions eg, CH4 &CH4 |
| Intermolecular Forces - Strongest to Weakest | Ion-Dipole Hydrogen bonding Dipole-Dipole Ion-Induced Dipole Dipole-Induced Dipole Dispersion |
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