Gen. Chem. for Health Science CH-84 – Flashcards
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| NO3- |
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| Nitrate |
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| NO2- |
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| Nitrite |
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| NH4+ |
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| Ammonium |
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| N3- |
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| Azide |
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| SO42- |
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| Sulfate |
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| HSO4- |
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| Bisulfate/hydrogen sulfate |
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| SO32- |
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| Sulfite |
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| HSO3- |
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| Bisulfite/ hydrogen sulfite |
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| S2O32- |
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| Thiosulfate |
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| PO43- |
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| Phosphate |
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| HPO42- |
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| Hydrogen phosphate |
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| H2PO4- |
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| Dihydrogen phosphate |
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| PO33- |
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| Phosphite |
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| CO32- |
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| Carbonate |
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| HCO3- |
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| Bicarbonate/hydrogen carbonate |
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| C2O42- |
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| Oxalate |
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| C2H3O2- |
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| Acetate |
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| CN- |
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| Cyanide |
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| ClO4- |
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| Perchlorate |
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| ClO3- |
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| Chlorate |
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| ClO2- |
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| Chlorite |
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| ClO- |
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| Hypochlorite |
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| H3O+ |
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| Hydronium |
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| OH- |
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| Hydroxide |
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| Kinetic Molecular Theory of Mater |
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| a set of five statements that are used to explain the physical behabior of the three states of matter (solid, liquid, and gas) |
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| Pressure |
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| Force/area |
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| Boyles Law |
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Pressure is inversly related to volume
P1V1=P2V2 P=K(1/V) PV=K |
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| Charles Law |
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Temperature is proportional to volume
V1/T1=V2/T2 |
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| Gay-Luccac's |
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Pressure with constant volume is directly proportional to temperature(kalvin). ; P1/T1=P2/T2 |
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| Combined Gas Law |
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An expression obtained by mathematically combining Boyle's and Charles Law
(P1*V1)/T1=(P2*V2)/T2 |
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| Ideal Gas Law |
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PV=nRT PV/nT=.0821 (atm*L/mol*K) |
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| Evaporation |
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| The process by which molecules escape from the liquid phase to the gas phase (kenetic energy) |
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| Enodthermic |
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| Requires the input (absorbtion) of heat |
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| Exothermic |
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| Requires heat to be given up (released) |
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| Vapor |
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| Gaseous molecules of a substance at a temperature and pressure at which we ordinarily would think of the substance as a liquid or solid |
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| Kenetic molecular Theory |
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| -Matter is ultimately composed of tiny particles that have definite and characteristic size that do not change -the particles are in constant, random motion and therefore possess kinetic energy -the particles interact with one antoher throught attractions and repulsions and therefore possess potential energy -the velocity of the particles increases as the temperature is increased -the particles in a system transfer energy to each other through elastic collisions |
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| Elastic collision |
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| bounce off each other and continue |
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| Inelastic collision |
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| masses glob together with no resulting movement |
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| Equilibrium state |
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| situation in which two opposite processes take plave at the same time |
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| vapor pressure |
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| the pressure exerted by a vapor aboe a liquid when the liquid and vapor are in equilibrium |
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| volatile substance |
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| Substance that readily evaporates at room temperature because of high vapor pressure ex) gasoline |
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| Intermolecular force in liquids |
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| is an attractive force that acts between a molecule and another molecule |
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| Dipole-Dipole |
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| intermolecular force that occures between POLAR molecules |
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| Hydrogen Bonds |
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| extra strong dipole-dipole interaction between a hydrogen atom covalently bonded to a small, very electronegative atom (F,O,or N) and have a lone pair of electrons on another small very electronegative atom |
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| London Forces |
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| are weak bonds due to temporary uneven electron distributions causing slightly negative or positive charges |
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| Solution |
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| Homogeneious combination of two or more substances in which each substance retains its ownchemical identity |
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| Solvent |
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| The component of a solution that is present in the greatest amount |
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| Solute |
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| is a solution component that is present in a smaller amount relative to that of the solvent |
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| Solubility |
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| the max amount of solute that will dissolve in a given amount of solvent |
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| Henery's Law |
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| S=k#(P)....k#--solubility=partial pressure |
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| Unsaturated solution |
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| is a solution in which less solute than the max amount possible is dissolved in the solution |
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| saturated solution |
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| contains the max amount of solute that can be dissolved under the conditions at which the solution exists |
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| super saturated solution |
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| contains more than the max amount of solute (possible in some situations) |
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| Diluted solution |
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| Contains a small amount of solute relative to the amoung that could be dissolved |
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| Aqueous solution |
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| solution where water is the solvent |
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| nonaqueous solution |
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| solution in which water is not the solvent |
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| Factors that affect the rate of solution |
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| -Subdivision: partivle size--increase surface area -Agitation: mixing or stirring -Temperature: high temps cause more collisions between molecules |
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| Concentration |
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| the amount of solute present in a specific amoung of solution |
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| % Mass |
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| (Mass of solute/Mass of solution)X 100 |
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| % volume |
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| (Volume of solute/volume of solution) X 100 |
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| Mass-Volume % |
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| (Mass of solute/ Volume of solution) X 100 |
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| Molarity |
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| Moles of solute/liter of solution |
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| Colligative properties |
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| Physical properties of a solution that depend only on the number (concentration) of solute partivles (molecules or ions) in a given quantity of solvent and not on their chemical identities |
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| Osmosis |
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| the passage of a solvent from a dilute solution (or pure solvent) through a semipermeable membrane into a more concentrated solution |
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| Osmotic pressure |
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| the amoung that must be applied to prevent the net flow of solvent through a semipermeable membrane from a solution of lower solute concentration to a solution of higher solute concentration |
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| Osmolarity |
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| product of its molarity and the number of partivles produced performula unit when the solute dissocrates Osmolarity=molarity X i---i=the number of particles |
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| Isotonic solution |
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| osmotic pressure is equal to that within the cell |
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| Hypotonic solution |
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| lower osmotic pressure than that within a cell |
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| Hypertonic solution |
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| higher osmotic pressure than that within a cell |
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| Dialysis |
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| the process whihc a semipermeable membrane permits the passage of solvent, dissolved ions, and small molecules but blocks the passage of large molecules |
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| Combustion Reactions |
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| reaction of a substance with oxygen (usually from air) that proceeds with the evolution of heat and usually with a flame CO2+H2O are products |
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| oxidation |
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| the process whereby a reactant in a chemical reaction gains one or more oxygen atoms, loses 1+ hydrogen, or loses 1+ electon |
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| Reduction |
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| the process whereby a reactant in a chemical reactions loses one or more oxygen atoms, gains 1+ hydrogen or electon |
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| Chemical equilibrium |
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| process wherein two opposing chemical reactions occur simultaneously at the same rate |
