CHEM%1310% Sample%Final%Exam% 1.%Antimony,%Sb,%has%two%stable%isotopes.%Given%that%43.8%%of%natural%antimony%is%
CHEM%1310% Sample%Final%Exam% 1.%Antimony,%Sb,%has%two%stable%isotopes.%Given%that%43.8%%of%natural%antimony%is% 123Sb%with%the%experimentally%determined%mass%122.904%amu,%what%is%the%other% stable%isotope?% % % % A)%120Sb% % B)%121Sb% % C)%122Sb% % D)%123Sb% % E)%124Sb% % 2.%%What%is%the%chemical%formula%for%the%compound%containing%the%iron(III)%cation% and%the%sulfate%anion?% % % A)%Fe3SO4% % B)%FeS% % C)%Fe3(SO4)2% % D)%Fe2(SO4)3% % E)%Fe2S3% % 3.%%A%given%isotope%contains%92%protons,%146%neutrons,%and%86%electrons.%%What%is%the% chemical%symbol%for%this%isotope?% % 6+ % A)% 238 92 U % % B)% 146 92 U % 178 % C)% 86 Rn % 6+ %€ D)% 238 86 Rn % %€ E)% 146 U 6+ % %€ 4.%%A%laboratory%analysis%of%an%unknown%solid%determined%the%following%mass% € percent%composition:% € % Ca%=%54.09%% % H%=%2.72%% % O%=%43.19%% % What%is%the%empirical%formula%for%the%solid?% % % A)%Ca(OH)2% % B)%Ca27O22H% % C)%CaOH% % D)%Ca0.337O0.675H0.668% % E)%Ca4(OH)8% % % % CHEM%1310% Sample%Final%Exam% % 5.%What%is%the%formula%of%the%organic%molecule%below?% % % % % A)%C3H6O3% % B)%C3H2O3% % C)%CH2O% % D)%C3H3O6% % E)%CHO2% % % 6.%%What%is%the%solid%produced%when%K3PO4%reacts%with%Ca(NO3)2?% % % A)%KNO3% % B)%Ca3(PO4)2% % C)%Ca2+% % D)%NO3\% % E)%K% % % 7.%%How%many%moles%of%carbon%are%there%in%650.5%grams%of%glucose,%C6H12O6?% % % A)%2.17%x%1024% % B)%3.61% % C)%0.277% % D)%21.7% % E)%1.30%x%1025% % 8.%Five%liters%(5.00\L)%of%an%aqueous%solution%is%prepared%by%complete%dissolution%of% 40.00%g%of%FeCl2%.%What%is%the%chloride%ion%(Cl%\)%concentration%of%this%solution?%The% molar%mass%of%FeCl2%is%126.75%g/mol.% % % A)%0.0631%M" % B)%0.0315%M" % C)%0.0876%M" % E)%0.0438%M" % E)%0.126%M" CHEM%1310% Sample%Final%Exam% 9.%%How%much%C2H2%can%be%produced%when%100.%g%of%H2O%reacts%with%100.g%of%CaC2% according%to%the%reaction%below?% CaC2(s)%+%2H2O(l)%%%%Ca(OH)2(aq)%+%C2H2(g)% % % A)%72.25%g% % B)%40.62%g% % C)%144.5%g% % D)%31.63%g% % E)%112.9%g% % 10.%%If%the%percent%yield%of%the%reaction%is%74.2%%when%24.0%g%of%NaHCO3%is%heated,% then%how%much%Na2CO3%is%formed?% Molar%masses:%%NaHCO3%=%84.01%g/mol;%Na2CO3%=%105.99%g/mol;%CO2%=%44.01%g/mol;% H2O%=%18.01%g/mol% % % A)%15.1%g% % B)%11.2%g% % C)%22.3%g% % D)%26.4%g% % E)%30.3%g% % 11.%What%is%the%partial%pressure%of%CO%in%a%container%that%holds%5.0%moles%CO(g),%3.0% moles%of%N2(g),%and%1.0%mole%of%H2(g)%and%has%a%total%pressure%of%1.05%atm?% % % % A)%0.42%atm% % B)%0.53%atm% % C)%0.58%atm% % D)%0.47%atm% % E)%There%is%not%enough%information%to%answer%this%question.% % 12.%An%ideal%gas%differs%from%a%real%gas%in%that%the%molecules%of%an%ideal%gas_________.% % % A)%have%an%average%molecular%mass.% % B)%have%no%kinetic%energy.% % C)%have%a%molecular%weight%of%zero.% % D)%have%no%attraction%for%one%another.% % E)%take%up%a%significant%amount%of%volume%in%comparison%to%the%volume%of%the% % sample.% CHEM%1310% Sample%Final%Exam% 13.%The%graph%below%represents%the%gases%He,%Ar,%N2,%and%CH4%all%at%the%same% temperature.%%Which%statement%regarding%this%graph%is%true?% % % A)%Curve%3%represents%N2.% B)%Curve%1%represents%N2% C)%Curve%4%represents%Ar.% D)%Curve%2%represents%He.% E)%Curve%3%represents%CH4.% % % 14.%A%newly%discovered%substance%in%the%gas%phase%has%density%of%2.39%g/L%at%25.0oC% and%0.941%atm.%%What%is%the%molar%mass%of%the%substance?% % % A)%16.1%g/mol% % B)%62.1%g/mol% % C)%5.21%g/mol% % D)%0.0919%g/mol% % E)%This%problem%cannot%be%solved%without%the%volume%of%sample.% % % 15.%What%mass%of%P4(s)%is%required%to%completely%consume%25.0%L%of%H2(g)%at%27.0oC% and%0.976%atm%in%the%presence%of%excess%oxygen?%The%molar%mass%of%P4%is%%%%%%%%%%%%%% 123.88%g/mol.%%The%molar%mass%of%H2%is%2.02%g/mol.% % P4(s)%+%6H2(g)%+%8O2(g)%%%%4H3PO4(s)% % % A)%0.202%g% % B)%20.5%g% % C)%1.21%g% % D)%123%g% % E)%246%g% % % % % CHEM%1310% Sample%Final%Exam% 16.%How%many%unpaired%electrons%are%in%a%ground%state%vanadium%(V)%atom?% % A)%0%%%%%%%%%%% % B)%1%%%%%%%%%%% % C)%3%%%%%%%%%%% % D)%4%%%%%%%%%%% % E)%5% % 17.%Which%of%the%following%has%the%largest%atomic%or%ionic%radius?% % % A)%S2\%%%%% % B)%Cl%%%%%% % C)%Cl\% % D)%K+%%%%%% E)%S% % 18.%Which%set%of%quantum%numbers%could%correspond%to%a%4d\orbital?% % % A)% n%=%4,%l%=%4,%ml%=%+3%% % B)% n%=%4,%l%=%2,%ml%=%+4%% % n%=%4,%l%=%3,%ml%=%−3%% C)% % D)% n%=%4,%l%=%2,%ml%=%+1%% % % % 19.%For%a%hydrogen%atom,%which%transition%correlates%to%the%longest%wavelength%of% light%absorbed?% % % A)%n%=%1%to%n%=%2% % B)%n%=%3%to%n%=%4% % C)%n%=%1%to%n%=%3% % D)%n%=%2%to%n%=%5% % E)%n%=%2%to%n%=%3% % 20.%%A%0.500%Joule%laser%pulse%with%780.0%nm%wavelength%contains%how%many% photons?% % % A)%1.96%x%1018%photons% % B)%2.55%x%10\19%photons% % C)%9.67%x%1038%photons% % D)%1.96%x%1027%photons% % E)%1.27%x%10\19%photons% % % % % CHEM%1310% Sample%Final%Exam% 21.%How many lone pairs of electrons are found on the central atom in the Lewis structure of the compound ICl3? A) 2 B) 3 C) 4 D) 8 E) 11 22. The%hybrid%orbitals%used%in%carbons%2%and%4,%respectively,%in%the%molecule%below% are:% % % % A)% B)% C)% D)% E)% sp3%and%sp%% sp2%and%sp%% sp3%and%sp3%% sp2%and%s2%% spd"and%sp%% % % % 23.%Which%bond%is%the%most%polar?% % % A)%C—H%% % B)%C—C% % C)%C—S% % D)%C—O% % E)%C—N% % 24.%What%is%the%electron%group%arrangement%(electron%geometry)%of%AsF3?% % A)%tetrahedral% B)%trigonal%planar% C)%trigonal%pyramidal% D)%bent%(V\shaped%or%angular)% % E)%trigonal%bipyramidal% % % CHEM%1310% Sample%Final%Exam% % 25.%Which%molecule%can%form%intermolecular%hydrogen%bonds%(with%other%molecules% of%itself)?%% % % A)%NH2CH2COOH%%%%% % B)%SiH4%%%%%% % C)%CH3COCH3%%%%% % D)%CH2F2%% % E)%CH3Cl% % % 26.%What%is%a%p\type%semi\conductor?% % A)% One%with%excess%electrons%in%the%valence%band%(valence%electron%rich).%% B)% One%with%excess%electrons%in%the%conduction%band%(conduction%electron%rich).%% C)% One%with%a%less\than\full%valence%band%(valence%electron%deficient).% D)% One%with%a%less\than\full%conduction%band%(conduction%electron%deficient).%% E)% One%with%electrons%positively%in%the%conduction%band%(conduction%positive%electrons).%% % % 27.%Which%statement%regarding%the%image%is%true?% % % % A)%It%is%a%body%centered%cubic%unit%cell,%and%there%are%9%atoms%per%cell.% B)%It%is%a%face%centered%cubic%unit%cell,%and%there%are%2%atoms%per%cell.% C)%It%is%a%simple%cubic%unit%cell,%and%there%is%one%atom%per%cell.% D)%It%is%a%body%centered%cubic%unit%cell,%and%there%are%2%atoms%per%cell.% E)%It%is%a%face%centered%cubic%unit%cell,%and%there%are%two%atoms%per%cell.% % % % % % % % 28.%Rank%the%boiling%points%from%highest%to%lowest%for:% CH3OH,%CH3CH3,%CH2O% % % A)%CH3OH%>%CH3CH3%>%CH2O% % B)%CH2O%>%CH3OH%>%CH3CH3% % C)%CH3CH3%>%CH3OH%>%CH2O% % D)%CH3OH%>%CH2O%>%CH3CH3% % E)%CH2O%>%CH3CH3%>%CH3OH% CHEM%1310% Sample%Final%Exam% % 29.%When some TNT detonates, the volume of gas increases from 10.0 L to 90.0 L at a constant pressure of 1.00 atm. Additionally, 90 kJ of energy is released as heat. What is ΔE for this process? ( 1 L•atm = 101.325 J) % % A)%%\98.1%kJ%%%%%% % B)%%−81.9%kJ%%%%%% % C)%%−8.1%%kJ%%%%%% % D)%%+81.9%kJ%%%%%% % E)%%+98.1 kJ% % 30.%%You%hold%a%gram%of%aluminum%in%one%hand%and%a%gram%of%copper%in%the%other;% each%started%at%the%same%temperature.%To/from%which%metal%will%more%heat%have% been%transferred%when%both%have%reached%body%temperature?%Given%Cs,Cu=%0.387% J/g°C,%dCu=%8.93%g/cm3,%Cs,Al=%0.900%J/g°C,%and%dAl=%2.70%g/cm3.% % A)%Copper,%because%it’s%specific%heat%capacity%is%lower% B)%Copper,%because%it’s%density%is%higher% C)%Aluminum,%because%it’s%specific%heat%capacity%is%higher% D)%Aluminum,%because%it’s%density%is%lower% E)%Copper%and%aluminum%will%reach%body%temperature%at%the%same%time% % % 31.%Which%statement%is%true?% % % A)%In%an%endothermic%reaction,%the%energy%of%the%products%is%less%than%that%of%% % % %%%%%%the%reactants.% % B)%There%is%no%temperature%change%associated%with%the%conversion%of%ice%to%% % %%%%%%liquid%water.% % C)%Freezing%is%an%endothermic%process.% % D)%The%change%in%enthalpy%is%equal%to%q%at%constant%volume.% % E)%None%of%these%statements%is%true.% % 32.%%Which%statement%best%explains%why%water%freezes%only%at%or%below%0oC%at% atmospheric%pressure.% % % A)%Freezing%is%an%endothermic%process%with%an%increase%in%entropy.% % B)%Freezing%is%an%exothermic%process%with%decrease%in%entropy.% % C)%The%sign%of%ΔG%for%the%process%is%always%positive.% % D)%Freezing%is%an%endothermic%process%with%a%decrease%in%entropy.% % E)%Freezing%is%an%exothermic%process%with%an%increase%in%entropy.% CHEM%1310% Sample%Final%Exam% 33.%Given:% % 1. NH3(g)%+%HBr(g)%%NH4Br(s)% % 2. N2(g)%+%3%H2(g)%%2%NH3(g)% % % 3. N2(g)%+4%H2(g)%+%Br2(l)%2NH4Br(s)%% % % % ∆H°rxn%=%\188.32%kJ% ∆H°rxn%=%\92.22%kJ% ∆H°rxn%=%\541.66%kJ% % Which%steps%are%necessary%to%calculate%the%∆Hrxn%for%this%reaction:% % % H2(g)%+%Br2(l)%%2%HBr(g)% % I. Reverse%reaction%1.% II. Halve%reaction%3.% III. Double%reaction%1.% IV. Reverse%reaction%2.% % A. I%&%IV%only% B. II%&%III%only% C. I%&%III%only% D. I,%III,%&%IV%only% E. All%of%these%steps%are%necessary.% % % 34. For which reaction or process is the change in entropy greater than zero? A) NH3(g)%+%HBr(g)%%NH4Br(s)%% % Β) N2(g)%+%3H2(g)%%2NH3(g)% % C) N2(g)%+%4H2(g)%+%Br2(l)%%2NH4Br(s)% % D)%H2O(s)%%H2O(g)% % E)%Na+(aq)%+%Cl\(aq)%%NaCl(s)% ! ! 35.%Which%of%the%statements%below%is%not%a%direct%consequence%of%a%law%of% thermodynamics?% % % A)%Entropy%of%the%universe%(system%plus%surroundings)%increases.% % B)%Spontaneous%reactions%are%fast.% % C)%Total%energy%is%conserved.% % D)%The%entropy%of%a%crystalline%solid%approaches%zero%at%0%Kelvin.% % E)%All%of%these%are%consequences%of%the%laws%of%thermodynamics.% % CHEM%1310% Sample%Final%Exam% 36.%%Calculate%the%normal%boiling%point%of%CH3CH2OH,%given%the%following% information:% % % % ∆H°vap%% % 43.5%kJ/mol% % % ∆H°fus%%% % 4.60%kJ/mol% % % ∆H°f% % % \278%kJ/mol% % % ∆S°vap% % % 124%J/mol·K% % % ∆S°fus% % 31.0%J/mol·K% % Molecular%weight% 46.1%g/mol% % % % % A)% 159%K% % B)% 2240%K% % C)% 1.40e3%K% % D)% 351%K% % E)% 0.351%K% % % 37.%%Calculate%ΔGo%at%45.0oC%for%a%reaction%for%which%ΔHo%=%\293%kJ%and%% ΔSo%=%\69.5%J/K.% % % A)%\271000%kJ% % B)%\290%kJ% % C)%21800%kJ% % D)%\271%kJ% % E)%2830%kJ% % 38.%The rate law for a reaction is: Rate = k[A]2[B]. What happens to the rate if both concentrations are doubled? A) No change B) Rate increases by a factor of 4 C) Rate increases by a factor of 2 D) Rate increases by a factor of 8. E) Not enough information 39.%The rate law for a particular reaction is Rate = k[A][B]. If the initial concentration of B is increased from 0.1 M to 0.3 M (while the concentration of A is held constant), the initial rate will increase by which of the following factors? A) B) C) D) E) 2 27 4 6 3 % % CHEM%1310% Sample%Final%Exam% 40. A eneral reaction written as 2A + 2B C + 2D is studied and yields the following data. [A]0 [B]0 Initial Δ[C]/Δt 0.100 M 0.200 M 0.100 M 0.100 M 0.100 M 0.200 M 4.00 × 10–5 mol/L • s 4.00 × 10–5 mol/L • s 8.00 × 10–5 mol/L • s What are the proper units for the rate constant for the reaction? 1/s M/s 1/M·s 1/M3·s 1/M2·s % % 41.%The rate constant, k, for a chemical reaction is dependent on A) the concentration of the reactant. B) the concentration of the product. C) the temperature. D) enthalpy. E) none of these % % 42.%%A%1.00%atm%sample%of%H2S%is%allowed%to%decompose%at%1405%K%until%equilibrium%is% achieved.%%At%equilibrium,%the%partial%pressure%of%S2%is%0.0370%atm.%%What%is%the%value%of%K%for% this%reaction?% 2H2S(g)% %S2(g)%+%2H2(g)% % % A)%2.36x10\4% % B)%2.96x10\3% % C)%1.42x10\3% % D)%4.24x103% % E)%7.04x102% % % % % % % % % % % % % A) B) C) D) E) CHEM%1310% Sample%Final%Exam% %43.%%Select%the%equilibrium%expression%for%the%reaction:% % P4(s)%+%3KOH(aq)%+%3%H2O(l)% %%PH3(aq)%+%3KH2PO2%(aq)% % ANS:%E% A) K = 1 [P4 ][H 2O]3 [KOH]3 B) K = [PH 3 ][KH 2PO 2 ]3 % C) K = [PH 3 ][KH 2PO 2 ]3 [P4 ][KOH]3 [H 2O]3 % [PH 3 ][KH 2PO 2 ]3 D) K = [KOH]3 [H 2O]3 [PH 3 ][KH 2PO 2 ]3 E) K = [KOH]3 % % 44. An increase in total pressure (at constant temperature) for the following reaction causes: € A(g) + B(g) C(g) + heat A) increase in the number of moles of A B) decrease in the number of moles of A C) no change in the number of moles of A D) an undetermined effect on the number of moles of A 45. Calculate the [H+] in a 0.020 M solution of HCN, Ka = 6.2 × 10–10. A) 1.0 × 10–7 M B) 3.5 × 10–6 M C) 1.6 × 10–5 M D) 2.5 × 10–5 M E) none of these ! ! % % % % % % % CHEM%1310% Sample%Final%Exam% 46.% The%value%of%K%for%the%reaction%N2O4(g)% %2NO2(g)%at%a%given%temperature%is%%0.211.% If%the%equilibrium%partial%pressure%of%NO2%at%the%same%temperature%is%0.0172%bar,% then%what%is%the%equilibrium%concentration%of%N2O4?% % % A)%0.0815% % B)%0.00664% % C)%0.00140% % D)%6.24×10–5% % E)%0.0602% % % 47.%%The%galvanic%cell%shown%below%uses%the%half\cells%Mg2+/Mg%and%Zn2+/Zn,%and%a% salt%bridge%containing%KCl(aq).%The%voltmeter%gives%a%positive%voltage%reading.%% Which%statement%correctly%identifies%the%anode%and%cathode%compartments%and%the% reactions%that%occur%in%them?% % % % Mg2+(aq)%+%2e\%%%Mg(s)%% % Eo%=%\2.37% % % % Zn2+(aq)%+%2e\%%%Zn%(s)% % Eo%=%%\0.76%V% % % A)%A%and%E%represent%the%cathode:%Zn2+(aq)%+%2e\%%%Zn%(s)% B)%B%and%F%represent%the%cathode:%Mg2+(aq)%+%2e\%%%Mg(s)% C)%A%and%E%represent%the%anode:%Mg2+(aq)%+%2e\%%Mg(s)% D)%B%and%F%represent%the%anode:%%Zn(s)%%Zn2+(aq)%+%2e\% E)%B%and%F%represent%the%cathode:%Zn2+(aq)%+%2e\%%%Zn%(s)% % % % % % % 48.%What%is%the%oxidation%state%of%N%in%Sn(NO3)4?% % % A)%\3% % B)%+2% % C)%+3% % D)%+4% % E)%+5% % % CHEM%1310% Sample%Final%Exam% 49.%%Which%reaction%corresponds%to%the%cell%diagram?% % Pt(s)%|%H2(g)%|%H+(aq)%||%Ag+(aq)%|%Ag(s)% % % A)%H2(g)%+%2Ag+(aq)%%%2H+(aq)%+%2Ag(s)% % B)%2H+(aq)%+%Pt(s)%+%2Ag(s)%%%%H2(g)%+%2Ag+(aq)% % C)%2H+(aq)%+%Ag(s)%%%%H2(g)%+%Ag+(aq)% % D)%Pt(s)%+%H2(g)%+%2Ag+(aq)%%%2H+(aq)%+%2Ag(s)% % E)%H2(g)%+%Ag+(aq)%%%2H+(aq)%+%Ag(s)% % % 50.%%What%is%the%standard%cell%potential%(Eocell)%when%a%galvanic%cell%is%constructed% using%the%following%half\reactions?% % % % Au3+%+%3e\%%%Au(s)% % Eo%=%+1.50%V% + \ % % Cu %+%e %%Cu(s)% % Eo%=%+0.52%V% % % % A)%+0.52V% % B)%+0.98%V% % C)%+2.02%V% % D)%\0.98%V% % E)%\2.02%V% %
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