CHEMISTRY-ALEK 360 ACCES 1 SEMESTER ONL - 12th Edition - by Chang - ISBN 9781259292422

CHEMISTRY-ALEK 360 ACCES 1 SEMESTER ONL
12th Edition
Chang
Publisher: MCG
ISBN: 9781259292422

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Chapter 2.1 - The Atomic TheoryChapter 2.3 - Atomlc Number, Mass Number, And IsotopesChapter 2.4 - The Periodic TableChapter 2.5 - Molecules And IonsChapter 2.6 - Chemical FormulasChapter 2.7 - Naming CompoundsChapter 2.8 - Introduction To Organic CompoundsChapter 3 - Mass Relationships In Chemical ReactionsChapter 3.1 - Atomic MassChapter 3.2 - Avogadro's Number And The Molar Mass Of An ElementChapter 3.3 - Molecular MassChapter 3.5 - Percent Composition Of CompoundsChapter 3.6 - Experimental Determination Of Empirical FormulasChapter 3.7 - Chemical Reactions And Chemical EquationsChapter 3.8 - Amount Of Reactants And ProductsChapter 3.9 - Limiting ReagentsChapter 3.10 - Reaction YieldChapter 4 - Reactions In Aqueous SolutionsChapter 4.1 - General Properties Of Aqueous SolutionsChapter 4.2 - Precipitation ReactionsChapter 4.3 - Acid-base ReactionsChapter 4.4 - Oxidation-reduction ReactionsChapter 4.5 - Concentration Of SolutionsChapter 4.6 - Gravimetric AnalysisChapter 4.7 - Acid-base TitrationsChapter 4.8 - Redox TitrationsChapter 5 - GasesChapter 5.2 - Pressure Of A GasChapter 5.3 - The Gas LawsChapter 5.4 - The Ideal Gas EquationChapter 5.5 - Gas StoichiometryChapter 5.6 - Dalton's Law Of Partial PressuresChapter 5.7 - The Kinetic Molecular Theory Of GasesChapter 5.8 - Deviation From Ideal BehaviourChapter 6 - ThermochemistryChapter 6.2 - Energy Changes In Chemical ReactionsChapter 6.3 - Introduction To ThermodynamicsChapter 6.4 - Enthalpy Of Chemical ReactionsChapter 6.5 - CalorimetryChapter 6.6 - Standard Enthalpies Of Formation And ReactionChapter 6.7 - Heat Of Solution And DilutionChapter 7 - Quantum Theory And The Electronic Structure Of AtomsChapter 7.1 - From Classical Physics To Quantum TheoryChapter 7.2 - The Photoelectric EffectChapter 7.3 - Bohr's Theory Of The Hydrogen AtomChapter 7.4 - The Dual Nature Of The ElectronChapter 7.5 - Quantum MechanicsChapter 7.6 - Quantum NumbersChapter 7.7 - Atomic OrbitalsChapter 7.8 - Electron ConfigurationChapter 7.9 - The Building-up PrincipleChapter 8 - Periodic Relationships Among The ElementsChapter 8.2 - Periodic Classification Of The ElementsChapter 8.3 - Periodic Variation In Physical PropertiesChapter 8.4 - Ionization EnergyChapter 8.5 - Electron AffinityChapter 8.6 - Variation In Chemical Properties Of The Representative ElementsChapter 9 - Chemical Bonding I: Basic ConceptsChapter 9.1 - Lewis Dot SymbolsChapter 9.2 - The Ionic BondChapter 9.3 - Lattice Energy Of Ionic CompoundsChapter 9.4 - The Covalent BondChapter 9.5 - ElectronegativityChapter 9.6 - Writing Lewis StructuresChapter 9.7 - Formal Charge And Lewis StructuresChapter 9.8 - The Concept Of ResonanceChapter 9.9 - Exceptions To The Octet RuleChapter 9.10 - Bond EnthalpyChapter 10 - Chemical Bonding Ii: Molecular Geometry And Hybridization Of Atomic OrbitalsChapter 10.1 - Molecular GeometryChapter 10.2 - Dipole MomentsChapter 10.3 - Valence Bond TheoryChapter 10.4 - Hybridization Of Atomic OrbitalsChapter 10.5 - Hybridization In Molecules Containing Double And Triple BondsChapter 10.6 - Molecular Orbital TheoryChapter 10.7 - Molecular Orbital ConfigurationsChapter 10.8 - Delocalized Molecular OrbitalsChapter 11 - Intermolecular Forces And Liquids And SolidsChapter 11.2 - Intermolecular ForcesChapter 11.3 - Properties Of LiquidsChapter 11.4 - Crystal StructureChapter 11.5 - X-ray Diffraction By CrystalsChapter 11.6 - Types Of CrystalsChapter 11.8 - Phase ChangesChapter 11.9 - Phase DiagramsChapter 12 - Physical Properties Of SolutionsChapter 12.2 - A Molecular View Of The Solution ProcessChapter 12.3 - Concentration UnitsChapter 12.4 - The Effect Of Temperature On SolubilityChapter 12.5 - The Effect Of Pressure On The Solubility Of GasesChapter 12.6 - Colligative Properties Of Nonelectrolyte SolutionsChapter 12.7 - Colligative Properties Of Electrolyte SolutionsChapter 13 - Chemical KineticsChapter 13.1 - The Rate Of A ReactionChapter 13.2 - The Rate LawChapter 13.3 - The Relation Between Reactant Concentration And TimeChapter 13.4 - Activation Energy And Temperature Dependence Of Rate ConstantsChapter 13.5 - Reaction MechanismsChapter 13.6 - CatalysisChapter 14 - Chemical EquilibriumChapter 14.1 - The Concept Of Equilibrium And The Equilibrium ConstantChapter 14.2 - Writing Equilibrium Constant ExpressionsChapter 14.3 - The Relationship Between Chemical Kinetics And Chemical EquilibriumChapter 14.4 - What Does The Equilibrium Constant Tell Us?Chapter 14.5 - Factors That Affect Chemical EquilibriumChapter 15 - Acids And BasesChapter 15.1 - Bronsted Acids And BasesChapter 15.2 - The Acid-base Properties Of WaterChapter 15.3 - Ph-a Measure Of AcidityChapter 15.4 - Strength Of Acids And BasesChapter 15.5 - Weak Acids And Acid Ionization ConstantsChapter 15.6 - Weak Bases And Base Ionization ConstantsChapter 15.7 - The Relationship Between The Ionization Constants Of Acids And Their Conjugate BasesChapter 15.8 - Diprotic And Polyprotic AcidsChapter 15.9 - Molecular Structure And The Strength Of AcidsChapter 15.10 - Acid-base Properties Of SaltsChapter 15.11 - Acid-base Properties Of Oxides And HydroxidesChapter 15.12 - Lewis Acids And BasesChapter 16 - Acid-base Equilibria And Solubility EquilibriaChapter 16.2 - The Common Ion EffectChapter 16.3 - Buffer SolutionsChapter 16.4 - Acid-base TitrationsChapter 16.5 - Acid-base IndicatorsChapter 16.6 - Solubility EquilibriaChapter 16.7 - Separation Of Ions By Fractional PrecipitationChapter 16.8 - The Common Ion Effect And SolubilityChapter 16.9 - Ph And SolubilityChapter 16.10 - Complex Ion Equilibria And SolubilityChapter 17 - Entropy, Free Energy, And EquilibriumChapter 17.3 - EntropyChapter 17.4 - The Second Law Of ThermodynamicsChapter 17.5 - Gibbs Free EnergyChapter 17.6 - Free Energy And Chemical EquilibriumChapter 18 - ElectrochemistryChapter 18.1 - Redox ReactionsChapter 18.2 - Galvanic CellsChapter 18.3 - Standard Reduction PotentialsChapter 18.4 - Thermodynamics Of Redox ReactionsChapter 18.5 - The Effect Of Concentration Of Cell EmfChapter 18.6 - BatteriesChapter 18.7 - CorrosionChapter 18.8 - ElectrolysisChapter 19 - Nuclear ChemistryChapter 19.1 - The Nature Of Nuclear ReactionsChapter 19.2 - Nuclear StabilityChapter 19.3 - Natural RadioactivityChapter 19.4 - Nuclear TransmutationChapter 19.5 - Nuclear FissionChapter 20 - Chemistry In The AtmosphereChapter 20.2 - Phenomena In The Outer Layers Of The AtmosphereChapter 20.5 - The Greenhouse EffectChapter 20.8 - Indoor PollutionChapter 21 - Metallurgy And The Chemistry Of MetalsChapter 22 - Nonmetallic Elements And Their CompoundsChapter 23 - Transition Metals Chemistry And Coordination CompoundsChapter 23.1 - Properties Of The Transition MetalsChapter 23.3 - Coordination CompoundsChapter 23.4 - Structure Of Coordination CompoundsChapter 23.5 - Bonding To Coordination Compounds: Crystal Field TheoryChapter 24 - Organic ChemistryChapter 24.2 - Aliphatic HydrocarbonsChapter 24.4 - Chemistry Of Functional GroupsChapter 25 - Synthetic And Natural Organic Polymers

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Chapter 1, Problem 1.67QPChapter 1, Problem 1.75QPGiven data: concentration = 8.00×102 ppmlength = 17.6 mwidth= 8.80 mheight = 2.64 m Volume can be...α particles Radioactivity is the spontaneous emission of radiation by a substance. When substances...For 23He, the number of protons, neutrons, and electrons is calculated as follows, ZAX = 23HeZ...Chapter 2, Problem 2.16QPChapter 2, Problem 2.57QPKClO has potassium K, chromium Cr and oxygen O atoms. Cation of the compound is K+ and anion of the...Nitrite is NO2− anion and Rubidium here is Rubidium cation Rb+. Hence formula of the given compound...With reference to table 2.3 in the text book, anions and cations formed by various elements are...Chapter 2, Problem 2.64QPChapter 2, Problem 2.72QPGiven unknown element is X1020 . Where, an atomic number of this element is 10. The element with...The atom consists of concentrated mass called nucleus at the centre and surrounded by the electrons....Element symbol is given as ZAX. Here, A represent the mass number and Z represent the atomic number....Chapter 2, Problem 2.102QPChapter 3, Problem 3.1QPChapter 3, Problem 3.24QPChapter 3, Problem 3.28QPChapter 3, Problem 3.36QPChapter 3, Problem 3.39QPChapter 3, Problem 3.40QPChapter 3, Problem 3.42QPChapter 3, Problem 3.51QPChapter 3, Problem 3.59QPChapter 3, Problem 3.60QPChapter 3, Problem 3.85QPChapter 3, Problem 3.100QPChapter 3, Problem 3.101QPChapter 3, Problem 3.121QPChapter 3, Problem 3.147QPChapter 3, Problem 3.155QPTo determine: the balanced chemical equations for the given chemical reaction of formation of NH3....Chapter 4, Problem 4.1QPChapter 4, Problem 4.19QPChapter 4, Problem 4.20QPChapter 4, Problem 4.33QPChapter 4, Problem 4.34QPChapter 4, Problem 4.45QPChapter 4, Problem 4.47QPChapter 4, Problem 4.49QPChapter 4, Problem 4.50QPGiven, The concentration of solution is 0.100M The volume of solution is 2.50×102mL The number of...Chapter 4, Problem 4.91QPThe oxidation and reduction of chemical compounds takes place while they are involved in the...Chapter 4, Problem 4.117QPChapter 4, Problem 4.140QPTo record the given data, Taken mass KMnO4 of in first dilution = 0.8214 g Final Volume of KMnO4 in...Chapter 4, Problem 4.161QPThe given volume and masses of NaOH and Mg(NO3)2 their solutions are recorded as shown above. To...Chapter 4, Problem 4.174IMEGases that exist as elements: Gases that contain only one type of atom are known to be from...The mole of the compound is calculated by plugging in the values of the given volume, Pressure and...Chapter 5, Problem 5.59QPChapter 5, Problem 5.62QPChapter 5, Problem 5.67QPChapter 5, Problem 5.69QPRecord the given data Mass of N2 is 14.01 g/mole Mass of O2 is 16.00 g/mole Temperature is −23οC...The moles Nitro-glycerine You can map out the following strategy to solve for the total volume of...To calculate the initial number of moles of O2 and NO nNO = PNOVRT = (0.500 atm) (4.00 L)(0.08206L ....Calculate the moles of CO2 produced using the ideal gas equation. nCO2 =PVRT = (1.24 atm)(1.67...This is a Boyle’s law problem, pressure and volume vary. Suppose that the pressure at the water...Chapter 5, Problem 5.129QPTo calculate the rate of CO production 188 g CO1 h × 1 mol CO28.01 g CO × 1 h60 min = 0.112 mol...Chapter 5, Problem 5.133QPTo calculate the moles of water vapour per liter using the ideal gas equation P =nRTV nV=PRT = 1.0...Given data, MgCO3 and CaCO3 mixture of mass is 6.26 g P = 1.12 atmV=1.73 LT = 48+273= 321K Calculate...Chapter 5, Problem 5.168QPChapter 5, Problem 5.171QPChapter 6, Problem 6.1QPChapter 6, Problem 6.54QPChapter 6, Problem 6.62QPChapter 6, Problem 6.63QPChapter 6, Problem 6.76QPChapter 6, Problem 6.85QPTo calculate the heat produced The equation can be given as, CH4(g)+2O2(g)→CO2(g)+2H2O(l) Standard...Chapter 6, Problem 6.94QPChapter 6, Problem 6.115QPThe standard enthalpy of neutralization of HF(aq) is calculated as, ΔH° =...Chapter 6, Problem 6.124QPThe chemical equations can be given, C6H6(l)+152O2(g)→6CO2(g)+3H2O(l) ΔH°=-3267.4 kJ...Chapter 6, Problem 6.132QPChapter 6, Problem 6.137QPChapter 6, Problem 6.143QPChapter 6, Problem 6.156QPChapter 7, Problem 7.1QPChapter 7, Problem 7.20QPChapter 7, Problem 7.29QPChapter 7, Problem 7.34QPChapter 7, Problem 7.58QPChapter 7, Problem 7.63QPIf l = 0, the number of possible magnetic quantum number (ml) values are calculated using the...Chapter 7, Problem 7.76QPBoron (B) is placed in IIIA group of the periodic table. Its atomic number is 5. Therefore, boron...Ge is placed in IVA group of the periodic table. Its atomic number is 32. Therefore, Ge has 32...For a given value of n, the possible number of orbitals involved is n2. When n = 2, 4 (22) orbitals...The energy difference (ΔE) between ni = 2 and nf = 1 associated with the Lyman series is calculated...Chapter 7, Problem 7.112QPChapter 7, Problem 7.120QPChapter 7, Problem 7.125QPChapter 7, Problem 7.142QPChapter 8, Problem 8.1QPChapter 8, Problem 8.13QPChapter 8, Problem 8.21QPChapter 8, Problem 8.22QPThe orbitals are filled according to Pauli Exclusion Principle, Aufbau Principle and Hund's Rule....Chapter 8, Problem 8.28QPChapter 8, Problem 8.29QPChapter 8, Problem 8.30QPChapter 8, Problem 8.43QPThe reaction is given below: Mg(g) + 2 F(g) → Mg2+(g) + 2 F −(g) Here, two electrons are removed...The reaction is given as: Li(g) → Li3+(g) + 3 e− The energy needed for the process is 1.96 × 104...The graph that shows the ionization energies for the given elements is drawn considering the given...Chapter 8, Problem 8.117QPChapter 8, Problem 8.123QPThe reason that supports the placement of Ar before K and Analyze the position of argon and...Chapter 8, Problem 8.141QPChapter 9, Problem 9.1QPChapter 9, Problem 9.5QPChapter 9, Problem 9.25QPChapter 9, Problem 9.26QPChapter 9, Problem 9.47QPChapter 9, Problem 9.51QPChapter 9, Problem 9.53QPChapter 9, Problem 9.54QPChapter 9, Problem 9.56QPChapter 9, Problem 9.72QPChapter 9, Problem 9.77QPChapter 9, Problem 9.105QPChapter 9, Problem 9.138QPChapter 9, Problem 9.141QPChapter 9, Problem 9.145IMEChapter 10, Problem 10.1QPChapter 10, Problem 10.7QPChapter 10, Problem 10.8QPChapter 10, Problem 10.9QPChapter 10, Problem 10.10QPChapter 10, Problem 10.12QPChapter 10, Problem 10.36QPChapter 10, Problem 10.61QPChapter 10, Problem 10.80QPChapter 10, Problem 10.108QPChapter 10, Problem 10.113QPGiven molecule is CO. Lewis structure of carbon monoxide is drawn below. The total number of valence...Chapter 10, Problem 10.124QPAn example for Dipole-Dipole interaction is between LiF molecules. The intermolecular force existing...Chapter 11, Problem 11.16QPChapter 11, Problem 11.36QPChapter 11, Problem 11.37QPChapter 11, Problem 11.39QPChapter 11, Problem 11.40QPChapter 11, Problem 11.42QPChapter 11, Problem 11.43QPThe amount of heat needed to convert ice to steam can be calculated as shown here: 1st phase...Vapor pressure of benzene at 7.6°C is given. Molar heat of vaporization of benzene is given. Vapor...Figure 1 The crystal structure of CsCl is simple cubic. The types of ions are: Cs+ ionCl- ions...Chapter 11, Problem 11.129QPChapter 11, Problem 11.134QPChapter 11, Problem 11.136QPChapter 11, Problem 11.146QPGiven data: Vapor pressure (P) : 19.2 mmHg Temperature (T):1235K Volume (V): 0.843L It is known that...To explain difference between saturated, unsaturated and supersaturated solution Saturated solution:...Given data: Strength of NaCl solution = 2.50M Density of NaCl solution = 1.08 g /mL Calculate mass...Chapter 12, Problem 12.19QPChapter 12, Problem 12.53QPGiven data: Mass of H2O=450g Vapor pressure = 2.50mmHg Temperature = 30oC Vapor pressure of H2O at...Explanation ofCaCl2solution has higher boiling point than urea CaCl2is an ionic compound and thus...Chapter 12, Problem 12.73QPChapter 12, Problem 12.83QPGiven: Partial pressure of Oxygen in air =0.20 atm Partial pressure of Nitrogen in air = 0.80 atm...The Lewis structures are as follows, The given molecule acetone is polar whereas the molecule carbon...Chapter 12, Problem 12.130QPGiven: Beaker 1= 50mL of 0.10M Beaker 250mL of 0.20M In order to calculate the mole fraction of urea...Chapter 12, Problem 12.133QPChapter 12, Problem 12.135QPThe increase in boiling point of salted solution is calculated by first determining the...Chapter 13, Problem 13.1QPChapter 13, Problem 13.8QPChapter 13, Problem 13.17QPChapter 13, Problem 13.27QPChapter 13, Problem 13.29QPChapter 13, Problem 13.30QPChapter 13, Problem 13.39QPChapter 13, Problem 13.79QPFrom the given information, A and B both were decomposed by first-order kinetics. Therefore, we can...Chapter 13, Problem 13.125QPFrom the given information, the units of rate constant denotes a second-order reaction and the rate...Chapter 13, Problem 13.132QPChapter 13, Problem 13.135QPThe given reaction is, 2NO(g) + O2(g) → 2NO2(g) The rate law expresses the relationship of the rate...Given plot of ln N versus t (year) is shown below, Figure 1 The plot of ln N versus t is linear for...Chapter 14, Problem 14.1QPChapter 14, Problem 14.44QPChapter 14, Problem 14.46QPChapter 14, Problem 14.80QPChapter 14, Problem 14.84QPChapter 14, Problem 14.90QPChapter 14, Problem 14.101QPChapter 14, Problem 14.104QPGiven data: Molar mass of the reacting mixture = 70.6 g/mol The reaction is given below: N2O4(g) ⇌ 2...Chapter 14, Problem 14.117QPChapter 14, Problem 14.119QPChapter 14, Problem 14.120QPChapter 15, Problem 15.1QPChapter 15, Problem 15.3QPChapter 15, Problem 15.47QPChapter 15, Problem 15.48QPChapter 15, Problem 15.50QPChapter 15, Problem 15.55QPChapter 15, Problem 15.59QPChapter 15, Problem 15.64QPChapter 15, Problem 15.66QPChapter 15, Problem 15.108QPChapter 15, Problem 15.114QPChapter 15, Problem 15.121QPChapter 15, Problem 15.122QPChapter 15, Problem 15.123QPChapter 15, Problem 15.126QPChapter 15, Problem 15.152QPChapter 15, Problem 15.157QPChapter 16, Problem 16.1QPChapter 16, Problem 16.5QPChapter 16, Problem 16.6QPChapter 16, Problem 16.12QPChapter 16, Problem 16.18QPChapter 16, Problem 16.31QPChapter 16, Problem 16.32QPChapter 16, Problem 16.34QPChapter 16, Problem 16.35QPChapter 16, Problem 16.36QPChapter 16, Problem 16.54QPChapter 16, Problem 16.68QPChapter 16, Problem 16.106QPChapter 16, Problem 16.112QPChapter 16, Problem 16.130QPChapter 17, Problem 17.1QPChapter 17, Problem 17.12QPChapter 17, Problem 17.29QPChapter 17, Problem 17.38QPTo record the given data ΔΗvap of benzene =31000Jmol-1Tbp of benzene = 80.1°C​​​​​​​​​​​​​​​​​ =...Chapter 17, Problem 17.50QPChapter 17, Problem 17.54QPChapter 17, Problem 17.67QPChapter 17, Problem 17.71QPFirst calculate the free energy (ΔG°) value for given reaction Fe(s) + 2H+(aq) → Fe2+(aq) +...Chapter 17, Problem 17.107QPChapter 17, Problem 17.109QPChapter 18, Problem 18.1QPChapter 18, Problem 18.26QPChapter 18, Problem 18.32QPChapter 18, Problem 18.39QPChapter 18, Problem 18.52QPChapter 18, Problem 18.53QPChapter 18, Problem 18.65QPChapter 18, Problem 18.76QPChapter 18, Problem 18.109QPChapter 18, Problem 18.115QPChapter 18, Problem 18.116QPChapter 18, Problem 18.118QPChapter 18, Problem 18.124QPChapter 18, Problem 18.139QPChapter 18, Problem 18.141QPNuclear reactions are differing from ordinary chemical reaction by the following way. It’s briefly...In balancing nuclear equation, the sum of atomic number and the mass number must match on both sides...The binding energy is the energy required for the process He24→2p11+2n01 There are two proton and 2...Nuclear reaction can be written in the shorthand notation with the parentheses. Bombarding particle,...Nuclear reaction can be written in the shorthand notation with the parentheses. Bombarding particle,...Nuclear reaction can be written in the shorthand notation with the parentheses. Bombarding particle,...For the given 10B, there are5 protons and 5 neutrons. Mass of protons = 1.00728amuMass of 5 protons...Nuclear reaction can be written in the shorthand notation with the parentheses. Bombarding particle,...To find: for the balanced equation write Suitable abbreviation. Nuclear reaction can be written in...In case of Sr90 decay, the mass defect is Δm=(massY90+mass e-)-massSr90 =(-)3.7430× 10-5...Chapter 19, Problem 19.93QPWhen Po-210 isotope decays by bombarding 209Bi with neutron. The balanced equation is 83209Bi +...Troposphere: It is the layer of earth atmosphere which has eighty percent of the net mass of air and...Given, Molar mass of air is 29.0g/mol Total mass of air is 5.25 × 1018kg The total moles of gases is...Chapter 20, Problem 20.57QPChapter 20, Problem 20.65QPChapter 20, Problem 20.69QPChapter 20, Problem 20.72QPChapter 20, Problem 20.73QPChapter 20, Problem 20.74QPGiven, Every year 50 million tons of sulphur dioxide are released into atmosphere. The formation of...Chapter 20, Problem 20.84QPMineral: A mineral is naturally occurring substance with a wide range of chemical compositions in...Calcite is a carbonate mineral of calcium. So, the formula of calcite will have calcium and...The given chemical equation is: K(s) + H2O(l)→ The complete equation is: K(s) + H2O(l)→ KOH(aq)...Sodium metal reacts with water to produce sodium hydroxide and hydrogen gas. Na(s) + H2O(l)...To determine ΔH∘ values for decomposition of MgCO3(s)→MgO(s)+CO2(g) Substitute the suitable values...Chapter 21, Problem 21.51QPChapter 21, Problem 21.57QPChapter 21, Problem 21.69QPThe given element Cs has a boiling point 669 Co , good ductile property, most electropositive...The balanced equation for the given starting materials is given below: CaH2(s) + 2H2O(l) →...Capture the given data Pressure is given as 0.90 atm Temperature is given as 25 oC Gas constant...Chapter 22, Problem 22.51QPTo give: The balanced equation for the reaction of phosphorus pentoxide with nitric acid. Reaction...Chapter 22, Problem 22.66QPConcentrated sulfuric acid-H2SO4 reacts with sodium iodide- NaI to produce molecular iodine-I2,...Preparation of NaOD from D2O 2Na(s)+2D2O(l)→2NaOD(aq)+D2(g) Metallic sodium reacts with deuterated...Chapter 22, Problem 22.104QPChapter 22, Problem 22.106QPChapter 23, Problem 23.1QPPredict the formula of tetrahydroxozincate(II). 1) The ligands ; 2)oxidation state of Zn is : +2​...Interpret the complex ion [Cr(CN)6]4-. In complex ion [Cr(CN)6]4- , the oxidation state of chromium...Chapter 23, Problem 23.36QPPredict the complex which absorbs the longer wavelength. In the given complex ions, the ligand H2O...Find the concentration of lead ion [Pb(EDTA)2-]. [Pb]2++ EDTA4- ⇄ [Pb(EDTA)]2-Initial(M): 1.0×10-3...Chapter 23, Problem 23.72QPInterpret the given information. The Cu3+ ion is unstable because of the high charge density on the...To find: Carbon forms more compound than the other element Catenation of the carbon atom. Carbon...Chapter 24, Problem 24.26QPTo find: The structure of the given organic molecule. Name of the given organic compounds is...Chapter 24, Problem 24.44QPCalculate moles of each given elements: C: (37.5 g C)1 mol C12.01 g C = 3.12 mol C H: (3.2g H)1 mol...Chapter 24, Problem 24.54QPGiven name: cyclopentane Predict the longest continuous chain of carbon atoms: The parent name is...The hydroxyl group act as nucleophile and the carboxylic group act as electrophile in presence of...Monomer: It is a molecule that can be bonded to other repeated subunits to form a polymer. Example...Given data: pKa of carboxyl group, COO− = 2.3pKa of ammonium group, NH3+ = 9.6 At pH = 1,...Given that pKa of −+NH3 and −COOH groups of valine are 9.62 and 2.32 respectively. Since −COOH has...Given information, Five molecules with molar masses 1.0, 3.0, 4.0, 4.0 and 6.0 kg/mol. Calculate the...

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