AP Chem review for test – Flashcards
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Unlock answers| Cr l Cr3+ ll NO3- l NO l H+ l Pt is read how? |
The two redox half reactions are taking place as follows:
Cr --> Cr3+ + 3e- 3e- + 4H+ + NO3- --> NO + 2H2O |
| anode is oxidation or reduction? |
| oxidation - Anode and Oxidation, vowels go with vowels |
| cathode is oxidation or reduction? |
| reduction - Cathode and Reduction, consonants go with each other |
| for ΔS, does a negative or positive sign tend toward order? |
| negative |
covalently bonded oxides bubbled into water make? (SO2 + H2O --> ?) |
acids (H2SO3) |
Ionically bonded oxides bubbled into water form what? (CaO + H2O --> ?) |
bases (Ca(OH)2) |
| a -ΔH means that the reaction is ____thermic and that heat is a ____________ in the equation |
exothermic, and product (a negative relationship produces an ex) |
| a polyatomic with 2 or more O for each H is a (strong/weak) acid? |
| strong |
| an acid with any halogen but F makes a (strong/weak) acid. |
| strong |
| HF is a (strong/weak) acid |
| weak |
| an acid with carbon is (strong/weak) |
| weak |
an acid with a difference of 1 between H and O is (strong/weak) (ex: H2SO3) |
| weak |
group I and II elements + OH- make ____ bases (Ca(OH)2) |
| strong |
| a base with a transition metal in it makes a ______ base |
| weak |
a base with N & H together is _______ (NH3) |
| weak |
| amphoteric/amphiprotic |
could act as an acid or a base (ex: HPO42-) |
| Le Chatelier's principle |
when something is introduced into a system, the reaction proceeds to use that something up ; can be used to explain the effect that temperature, concentration, or pressure changes have on a reaction |
| equilibrium is a(n) ____________ step |
| elementary |
| Intermediate |
produced and used up in a mechanism ; can't be used in rate law |
| catalyst |
| product and reactant, used to speed up a reaction |
| clausius-clapyeron equation |
ln(P1/P2) = (-ΔHvap/R)((1/T2)-(1/T1)) ln(k1/k2) = (-Ea/R)((1/T2)-(1/T1))
R=8.31 J/molxK |
| integrated rate laws |
zero order: [A] = -kt+[A]o first order: ln[A] = -kt+ln[A]o second order: 1/[A]=kt+(1/[A]o) |
| half-life equations |
zero order: [A]o/2k first order: .693/k second order: 1/[A]ok |
| what 4 things speed up a reaction? |
| addition of a catalyst, or the increase of heat, surface area, and concentration |
| osmotic pressure |
| in the case of two solutions of different concentrations separated by a semi-permeable membrane, it is the pressure of water on the membrane to equalize the concentrations |
| strong electrolyte |
| completely dissolves in water |
| weak electrolyte |
| partially dissociates in water |
| i |
| van't hoff factor, measures the ions produced - reactant ions |
| when ions are added, vapor pressure is __________, and the equation for the new vapor pressure is ___________ |
lowered Psoln=(mols of solvent/(mols solvent + (mols solute x i)))(Psolvent) |
| when ions are added to a solution, the boiling point is __________ |
| elevated |
| When ions are added to a solution, the freezing point is ___________ |
| lowered |
| when ions are added to a solution, osmotic pressure is _________________ |
| elevated |
| bond order |
| (bonding e- - antibonding e-)/2 |
| bond energy |
goes down as radius goes up low bond length means high BE triple;double;single BERP -; Bond Energy = Reactants - Products |
| formal charge |
0 is ideal if not ^, then most electronegative is -, while least is + each atom gets 2 per lone pair, and 1 per bond valence electrons - electrons controlled in the molecule ex: CF4 - each bond is :::F-C F: 7-7=0 C: 4-4=0 0(1) + 0(4)=0 |
| expanded octet |
large radii, low electronegativity, low zeff ex: Xe, Kr, I, Br, S, Se, P |
| incomplete octet |
| Be (4 valence e-), B (6 valence e-) |
| quantum numbers |
n - period # for s ; p orbitals, period-1 for d, -2 for f l - orbital, s=0, p=1, d=2, f=3 m - can be any number between -l and l (pick 0 to be safe) s - can be 1/2 or -1/2, doesn't matter which |
| Heisenberg uncertainty principle |
| the more we know about where a particle is right now, the less we know about how fast it's going and the direction that it's going, and vice versa |
| Aufbau principle |
must fill to next level before jumping to n=1 (all of 2s and 2p must be filled before going to 3s) |
| Hund's rule |
place 1 e- in each orbital before doubling up (this creates magnetic field in molecules with any unfilled orbitals) |
| isotope, isoelectronic, isomer |
isotope - same protons, different neutrons isoelectronic - different elements, same e- isomer - same formula, different structure |
| organic naming - single/double/triple bonds and 1-8 carbons in backbone |
-ane -; only single bonds in backbone -ene -; has a double bond in backbone -yne -; has a triple bond in backbone ; meth- one eth- two prop - three but - four pent - five hex - six hept - seven oct - eight |
| hydrogen bonds |
when hydrogen bonds to N,O,F only in a polar molecule form of IMF |
| network covalent |
strongest type of bond Si forms a network covalent |
| AX2 |
| linear, 180o |
| AX3 |
| trigonal planar, 120o |
| AX2E |
| bent, 120o |
| AX4 |
| tetrahedral, 109.5o |
| AX3E |
| trigonal pyramidal, 109.5o |
| AX2E2 |
| bent, 109.5o |
| AX5 |
| trigonal bipyramidal, 90o, 120o |
| AX4E |
| seesaw, 180o, 120o |
| AX3E2 |
| T-Shape, 180o, 90o |
| AX2E3 |
| linear, 180o |
| AX6 |
| octahedral, 90o |
| AX5E |
| square pyramidal, 90o |
| AX4E2 |
| square planar, 90o |
| AX7 |
| pentagonal bipyramidal, 90o, 72o |
| alcohol |
| -anol, OH is bonded to an outer backbone carbon |
| aldehyde |
| -anal, O is double bonded to an outer backbone carbon |
| ketone |
| -anone, O is double bonded to an inner backbone carbon |
| carboxylic acid |
| -anoic acid, O double bonded and OH bonded to the same end backbone carbon, called carboxyl group |
| oxidation numbers |
element is 0 Monatomic ion is same as charge F = -1 O = -2, except in peroxides = -1 H = +1 |
| state change ;G=? |
| ;G=0 |
colors: Cr MnO4- Fe Co Ni Cu Pb as solid |
Cr - orangeish MnO4- - purple Fe - orange Co - pink Ni - green Cu - blue Pb as solid - yellow |
| MnO4- reduced in acidic produces _________ |
| Mn2+ |
| MnO2 reduced in acidic produces _________ |
| Mn2+ |
| MnO4- reduced in neutral/basic produces _________ |
| MnO2(s) |
| Cr2O72- reduced in acidic produces _________ |
| Cr3+ |
| concentrated HNO3 reduced produces _________ |
| NO2 |
| dilute HNO3 reduced produces _________ |
| NO |
| hot, concentrated H2SO4 reduced produces _________ |
| SO2 |
metal-ic ions reduced produces _____________ (Fe3+) |
metal-ous ions (Fe2+) |
Free halogens reduced produces ______________ (I2) |
halide ions (I-) |
| Na2O2 reduced produces _____________ |
| NaOH |
| HClO4 reduced produces _________ |
| Cl- |
| H2O2 reduced produces _________ |
| H2O |
| C2O42- oxidized produces _________ |
| CO2 |
Halide ions oxidized produces _________ (I-) |
free halogens (I2) |
free metals oxidized produces _________ (Fe) |
metal ions (Fe2+) |
| SO3- or SO2 oxidized produces _________ |
| SO4- |
| NO2- oxidized produces _________ |
| NO3- |
| free halogens oxidized in a dilute, basic soln produces _________ |
hypohalite ions ; |
| free halogens oxidized in a concentrated basic soln produces _________ |
| halate ions |
metal-ous ions oxidized produces _________ (Fe2+) |
metal-ic ions (Fe3+) |
| H2O2 oxidized produces _________ |
| O2 |
Lewis Acid/Base combination (BF3 + NH3 --> ?) |
addition (BF3NH3) |
metallic oxides + P4O10 --> ? (CaO + P4O10 --> ?) |
metallic phosphates (Ca3(PO4)2) |
metallic oxides + CO2 --> ? (CaO + CO2 --> ?) |
metallic carbonates (CaCO3) |
metallic oxides + SO3 --> ? (CaO + SO3 --> ?) |
metallic sulfates (CaSO4) |
metals + gases --> ? (Na + O2 --> ?) |
ionic crystals (Na2O) |
metallic oxides + SO2 --> ? (CaO + SO2 --> ?) |
metallic sulfites (CaSO3) |
| H2O2--> ? |
| O2 + 2 H2O |
metallic carbonates --> ? (CaCO3 --> ?) |
metallic oxides + CO2 (CaO + CO2) |
metallic chlorates --> ? (NaClO3) |
metallic chlorides + O2 (NaCl + O2) |
| NH3 + limited O2 --> ? |
| NO + H2O |
| NH3 + excess O2 --> ? |
| NO2 + H2O |
metallic sulfides + O2 --> ? (CaS + O2 --> ?) |
metallic oxide + SO2 (CaO + SO2) |
| Ideal behavior is when pressure is _______ and temperature is ________ because ________________ |
| low pressure, high temperature, because particles don't come close enough for IMFs to form |
| Eocell = ? |
| Eoreduction - Eooxidation |
| voltaic/galvanic cell means ________________ |
| spontaneous |
| electrolytic cell means __________________ |
| nonspontaneous |
| concentration in a saturated solution is ________________ |
| independent of volume |
| solubility: NO3- |
| all nitrates are soluble |
| solubility: C2H3O2- |
| all acetates are soluble except AgC2H3O2 |
| solubility: ClO3- |
| All Chlorates are soluble |
| solubility: Cl- |
| all Chlorides are soluble except AgCl, Hg2Cl2, and PbCl2 |
| solubility: Br- |
| all bromides are soluble except AgBr, PbBr2, Hg2Br2, and HgBr2 |
| solubility: I- |
| all iodides are soluble except AgI, Hg2I2, HgI2, and PbI2 |
| solubility SO42- |
| all sulfates are soluble except BaSO4, PbSO4, Hg2SO4, CaSO4, Ag2SO4, and SrSO4, |
| solubility group IA elements and NH4+ |
| all are soluble |
| solubility CO32- |
| all carbonates are insoluble except those of the IA elements and NH4+ |
| solubility CrO42- |
| all chromates are insoluble except those of the IA elements, NH4+, CaCrO4, and SrCrO4 |
| solubility OH- |
| all hydroxides are insoluble except those of the IA elements, NH4+, Ba(OH)2, Sr(OH)2, and Ca(OH)2 |
| solubility PO43- |
| all phosphates are insoluble except those of the IA elements and NH4+ |
| solubility SO32- |
| All sulfites are insoluble except those of the IA elements and NH4+ |
| Solubility S2- |
| all sulfides are insoluble except those of the IA and IIA elements and NH4+ |
| end point of a titration |
| the point in a titration at which the indicator undergoes it's color change |
