UNIDAD EDUCATIVA MONTE TABOR-NAZARET QUÍMICA SEGUNDO DE BACHILLERATO Actividades Refuerzo Académicas y/o Preparación Examen Remedial

Similar documents
1. What is the sum of all coefficients when the following equation is balanced using the smallest possible whole numbers? D.

Practice Exam Topic 9: Oxidation & Reduction

Name AP CHEM / / Collected Essays Chapter 17

D. Ammonia can accept a proton. (Total 1 mark)

2 Answer all the questions. CO, in the presence of aqueous hydrochloric acid, HCl(aq).

Chem!stry. Assignment on Redox

American International School of Johannesburg. Quantitative Revision Questions II

N09/4/CHEMI/HP2/ENG/TZ0/XX+ CHEMISTRY HIGHER level. Tuesday 3 November 2009 (afternoon) Candidate session number. 2 hours 15 minutes

IB Topics 9 & 19 Multiple Choice Practice

AQA A2 CHEMISTRY TOPIC 5.3 REDOX EQUILIBRIA BOOKLET OF PAST EXAMINATION QUESTIONS

Chemistry 12. Resource Exam B. Exam Booklet

Chapter 18 problems (with solutions)

(DO NOT WRITE ON THIS TEST)

Oxidation & Reduction (Redox) Notes

Chem!stry. Mole Calculations Assignment Twelve

least reactive magnesium

CHAPTER 5 REVIEW. C. CO 2 D. Fe 2 O 3. A. Fe B. CO

GraspIT AQA GCSE Chemical and Energy Changes

CHEMISTRY 13 Electrochemistry Supplementary Problems

Page 1 Name: 2Al 3+ (aq) + 3Mg(s) 3Mg 2+ (aq) + 2Al(s) Fe 2 O 3 + 2Al Al 2 O 3 + 2Fe

S4 CHEMISTRY SUMMARY NOTES

CHAPTER 4 TYPES OF CHEMICAL REACTIONS & SOLUTION STOICHIOMETRY

(18) WMP/Jun10/CHEM5

M09/4/CHEMI/SP2/ENG/TZ1/XX+ CHEMISTRY. Monday 18 May 2009 (afternoon) Candidate session number. 1 hour 15 minutes INSTRUCTIONS TO CANDIDATES

1.In which of the following is the oxidation number of the underlined element given incorrectly? oxidation number

SCHOOL YEAR CH- 19 OXIDATION-REDUCTION REACTIONS SUBJECT: CHEMISTRY GRADE: 12

PHYSICAL SCIENCES: PAPER II

2 Answer all the questions. 1 This question refers to chemistry of d-block elements in Period 4 (Sc Zn).

Electrochemistry. A. Na B. Ba C. S D. N E. Al. 2. What is the oxidation state of Xe in XeO 4? A +8 B +6 C +4 D +2 E 0

Chemistry 102 Chapter 19 OXIDATION-REDUCTION REACTIONS

Practice Test Redox. Page 1

Chemistry 1011 TOPIC TEXT REFERENCE. Electrochemistry. Masterton and Hurley Chapter 18. Chemistry 1011 Slot 5 1

Name: Regents Chemistry Date:

4.4. Revision Checklist: Chemical Changes

CHAPTER 12. Practice exercises

5. [7 points] What is the mass of gallons (a fifth) of pure ethanol (density = g/cm 3 )? [1 gallon = Liters]

ELECTROCHEMICAL CELLS NAME ROW PD

Redox Reactions, Chemical Cells and Electrolysis

M10/4/CHEMI/SP2/ENG/TZ1/XX+ CHEMISTRY. Wednesday 12 May 2010 (afternoon) Candidate session number. 1 hour 15 minutes INSTRUCTIONS TO CANDIDATES

Chemical measurements QuestionIT

Practice Packet: Oxidation Reduction. Regents Chemistry: Mrs. Mintz. Practice Packet. Chapter 14: Oxidation Reduction & Electrochemistry

REDOX AND ELECTROCHEMISTRY

Electrochemistry Pulling the Plug on the Power Grid

2. Relative molecular mass, M r - The relative molecular mass of a molecule is the average mass of the one molecule when compared with

M09/4/CHEMI/SP2/ENG/TZ2/XX CHEMISTRY. Monday 18 May 2009 (afternoon) Candidate session number. 1 hour 15 minutes INSTRUCTIONS TO CANDIDATES

Sample Exercise 20.2 Practice Exercise 1 with feedback

Chapter 9 Oxidation-Reduction Reactions. An Introduction to Chemistry by Mark Bishop

# Ans Workings / Remarks

N10/4/CHEMI/SP2/ENG/TZ0/XX CHEMISTRY STANDARD LEVEL PAPER 2. Thursday 11 November 2010 (afternoon) Candidate session number.

PRACTICE EXAMINATION QUESTIONS FOR 1.2 AMOUNT OF SUBSTANCE

Chapter 1 IB Chemistry Warm Ups Stoichiometry. Mrs. Hilliard

What is the importance of redox reactions? Their importance lies in the fact that we can use the transfer of electrons between species to do useful

Introduction Oxidation/reduction reactions involve the exchange of an electron between chemical species.

CHEMISTRY HIGHER LEVEL

(g) + 3H 2. (g) 2NH 3. (g) (a) Explain what is meant by a dynamic equilibrium. (2)

Oxidation-Reduction Review. Electrochemistry. Oxidation-Reduction Reactions. Oxidation-Reduction Reactions. Sample Problem.

CHEMISTRY HIGHER LEVEL

Unit 4: Reactions and Stoichiometry

Oxidation numbers are charges on each atom. Oxidation-Reduction. Oxidation Numbers. Electrochemical Reactions. Oxidation and Reduction

Unit 8 Redox 8-1. At the end of this unit, you ll be able to

Basic SL Concepts. D. 2.0 (Total 1 mark) When the equation above is balanced, what is the coefficient for oxygen? D.

AP Questions: Electrochemistry

Chem Practice Exam Two (Chapters 19, 20 and 21)

IB Chemistry 2 Summer Assignment

2 Answer all the questions. 1 Born Haber cycles can be used to determine lattice enthalpies of ionic compounds

7. Which equation represents an oxidation-reduction reaction?

Hydrated nickel(ii) salts are green in colour. Give the electron configuration of a nickel(ii) ion and hence state why the ion is coloured.

ELECTROCHEMISTRY OXIDATION-REDUCTION

Chapter 19 ElectroChemistry

5 Energy from chemicals

Chapter 17. Oxidation-Reduction. Cu (s) + 2AgNO 3(aq) 2Ag (s) + Cu(NO 3 ) 2(aq) pale blue solution. colorless solution. silver crystals.

Chapter 7. Oxidation-Reduction Reactions

A Level Chemistry A H432/01 Periodic table, elements and physical chemistry. Practice paper - Set 1 Time allowed: 2 hours 15 minutes

Worked solutions. Chapter 9. Exercises O 3

Chapter 4. The Major Classes of Chemical Reactions 4-1

Chapter 18. Electrochemistry

Chem 1A Dr. White Fall Handout 4

During photosynthesis, plants convert carbon dioxide and water into glucose (C 6 H 12 O 6 ) according to the reaction:

4.4. Revision Checklist: Chemical Changes

Chemistry 1A. Chapter 5

Chapter 18 Electrochemistry. Electrochemical Cells

CHEM J-14 June 2014

9.1 Introduction to Oxidation and Reduction

Chapter 19: Oxidation - Reduction Reactions

2 Answer all the questions.

CHAPTER 11 Stoichiometry Defining Stoichiometry

ELECTROCHEMISTRY. these are systems involving oxidation or reduction there are several types METALS IN CONTACT WITH SOLUTIONS OF THEIR IONS

A student adds the following volumes of aqueous sodium thiosulfate, dilute hydrochloric acid and distilled water to the conical flask.

Kinetics & Equilibrium Review Packet. Standard Level. 1. Which quantities in the enthalpy level diagram are altered by the use of a catalyst?

MC 17 C SECTION - I (40 marks) Compulsory : Attempt all questions from this section.

Chapter Four. Chapter Four. Chemical Reactions in Aqueous Solutions. Electrostatic Forces. Conduction Illustrated

Unit 13 Electrochemistry Review

Electrochemistry. Outline

CHEM J-14 June 2014

Bonus Final Exam 3. 1 Calculate the heat of reaction,δh 0 rxn, for the following reaction as written at 298 K: g 2H 2 CH 4. g CF 4.

C4 Quick Revision Questions

Find the oxidation numbers of each element in a reaction and see which ones have changed.

Indicators of chemical reactions

Oxidation-Reduction (Redox)

Redox. Question Paper. Cambridge International Examinations Chemical Reactions. Score: /43. Percentage: /100

Transcription:

UNIDAD EDUCATIVA MONTE TABOR-NAZARET QUÍMICA SEGUNDO DE BACHILLERATO Actividades Refuerzo Académicas y/o Preparación Examen Remedial 2015-2016 ALUMNO: AÑO DE BACHILLERATO: 2 do PARALELO: FECHA: PROFESOR: Yesenia Uzca/Ángel Cherrez Para apoyar al desarrollo de destrezas y contenidos de la asignatura en base a los temarios de supletorios publicados en la página web se recomienda trabajar las siguientes actividades académicas a realizarse en casa previo a las fechas de exámenes remediales. Adicionalmente para el estudio y preparación es necesario utilizar las diferentes herramientas trabajadas durante el año lectivo como actividades en clase, tareas, lecciones, evaluaciones sumativas, exámenes quimestrales y actividades de preparación exámenes supletorios. Semana 1: DESARROLLE LAS SIGUIENTES ACTIVIDADES 1. 1.7 g of NaNO 3 (M r = 85) is dissolved in water to prepare 0.20 dm 3 of solution. What is the concentration of the resulting solution in mol dm 3? A. 0.01 B. 0.1 C. 0.2 D. 1.0 2. How many molecules are present in a drop of ethanol, C 2 H 5 OH, of mass 2.3 10 3 g? (L = 6.0 10 23 mol 1 ) A. 3.0 10 19 B. 3.0 10 20 C. 6.0 10 20 D. 6.0 10 26

3. What mass, in g, of hydrogen is formed when 3 mol of aluminium react with excess hydrochloric acid according to the following equation? A. 3.0 B. 4.5 C. 6.0 D. 9.0 2Al(s) + 6HCl(aq) 2AlCl 3 (aq) + 3H 2 (g) 4. What is the total number of hydrogen atoms in 1.0 mol of benzamide, C 6 H 5 CONH 2? A. 7 B. 6.0 10 23 C. 3.0 10 24 D. 4.2 10 24 5. Chloroethene, C 2 H 3 Cl, reacts with oxygen according to the equation below. 2C 2 H 3 Cl(g) + 5O 2 (g) 4CO 2 (g) + 2H 2 O(g) + 2HCl(g) What is the amount, in mol, of H 2 O produced when 10.0 mol of C 2 H 3 Cl and 10.0 mol of O 2 are mixed together, and the above reaction goes to completion? A. 4.00 B. 8.00 C. 10.0 D. 20.0 6. A fixed mass of gas has a certain volume at a temperature of 50 C. What temperature is required to double its volume while keeping the pressure constant? A. 100 K B. 323 K C. 373 K D. 646 K

7. What is the concentration of NaCl, in mol dm 3, when 10.0 cm 3 of 0.200 mol dm 3 NaCl solution is added to 30.0 cm 3 of 0.600 mol dm 3 NaCl solution? A. 0.450 B. 0.300 C. 0.500 D. 0.800 8. Which of the following is consistent with Avogadro s law? P A. = constant (V, n constant) T V B. = constant (P, n constant) T C. Vn = constant (P, T constant) V D. = constant (P, T constant) n 9. 6.0 mol of aluminium reacts with oxygen to form aluminium oxide. What is the amount of oxygen, in mol, needed for complete reaction? A. 1.5 B. 3.0 C. 4.5 D. 6.0 4Al(s) + 3O 2 (g) 2Al 2 O 3 (s) 10. Equal masses of the metals Na, Mg, Ca and Ag are added to separate samples of excess HCl(aq). Which metal produces the greatest total volume of H 2 (g)? A. Na B. Mg C. Ca D. Ag

11. 300 cm 3 of water is added to a solution of 200 cm 3 of 0.5 mol dm 3 sodium chloride. What is the concentration of sodium chloride in the new solution? A. 0.05 mol dm 3 B. 0.1 mol dm 3 C. 0.2 mol dm 3 D. 0.3 mol dm 3 12. 5 dm 3 of carbon monoxide, CO(g), and 2 dm 3 of oxygen, O 2 (g), at the same temperature and pressure are mixed together. Assuming complete reaction according to the equation given, what is the maximum volume of carbon dioxide, CO 2 (g), in dm 3, that can be formed? 2CO(g) + O 2 (g) 2CO 2 A. 3 B. 4 C. 5 D. 7 13. What volume of sulfur trioxide, in cm 3, can be prepared using 40 cm 3 sulfur dioxide and 20 cm 3 oxygen gas by the following reaction? Assume all volumes are measured at the same temperature and pressure. A. 20 B. 40 C. 60 D. 80 2SO 2 (g) + O 2 (g) 2SO 3 (g) 14. The percentage by mass of calcium carbonate in eggshell was determined by adding excess hydrochloric acid to ensure that all the calcium carbonate had reacted. The excess acid left was then titrated with aqueous sodium hydroxide. (a) A student added 27.20 cm 3 of 0.200 mol dm 3 HCl to 0.188 g of eggshell. Calculate the amount, in mol, of HCl added.

(b) The excess acid requires 23.80 cm 3 of 0.100 mol dm 3 NaOH for neutralization. Calculate the amount, in mol, of acid that is in excess. (c) Determine the amount, in mol, of HCl that reacted with the calcium carbonate in the eggshell. (d) State the equation for the reaction of HCl with the calcium carbonate in the eggshell. (e) Determine the amount, in mol, of calcium carbonate in the sample of the eggshell. (f) Calculate the mass and the percentage by mass of calcium carbonate in the eggshell sample.

(3) (g) Deduce one assumption made in arriving at the percentage of calcium carbonate in the eggshell sample. (Total 11 marks) 15. Biodiesel makes use of plants ability to fix atmospheric carbon by photosynthesis. Many companies and individuals are now using biodiesel as a fuel in order to reduce their carbon footprint. Biodiesel can be synthesized from vegetable oil according to the following reaction. (b) For part of her extended essay investigation into the efficiency of the process, a student reacted a pure sample of a vegetable oil (where R = C 17 H 33 ) with methanol. The raw data recorded for the reaction is below. Mass of oil = 1013.0 g Mass of methanol = 200.0 g Mass of sodium hydroxide = 3.5 g Mass of biodiesel produced = 811.0 g The relative molecular mass of the oil used by the student is 885.6. Calculate the amount (in moles) of the oil and the methanol used, and hence the amount (in moles) of excess methanol.

(3) (c) The reversible arrows in the equation indicate that the production of biodiesel is an equilibrium process. (iii) Suggest a reason why excess methanol is used in this process....... (iv) State and explain the effect that the addition of the sodium hydroxide catalyst will have on the position of equilibrium.......... (d) The reactants had to be stirred vigorously because they formed two distinct layers in the reaction vessel. Explain why they form two distinct layers and why stirring increases the rate of reaction. (e) Calculate the percentage yield of biodiesel obtained in this process.

(f) When biodiesel is combusted it produces carbon dioxide. Explain why the use of biodiesel as a fuel does not significantly contribute to global warming. (Total 14 marks) 16. Smog is common in cities throughout the world. One component of smog is PAN (peroxyacylnitrate) which consists of 20.2 % C, 11.4 % N, 65.9 % O and 2.50 % H by mass. Determine the empirical formula of PAN, showing your working......................... (Total 3 marks) Semana 2: 1. 0.600 mol of aluminium hydroxide is mixed with 0.600 mol of sulfuric acid, and the following reaction occurs: 2Al(OH) 3 (s) + 3H 2 SO 4 (aq) Al 2 (SO 4 ) 3 (aq) + 6H 2 O(l) (a) Determine the limiting reactant.

(b) Calculate the mass of Al 2 (SO 4 ) 3 produced. (c) Determine the amount (in mol) of excess reactant that remains. (d) Define a Brønsted-Lowry acid Brønsted-Lowry acid (e) H 2 SO 4 (aq) is a strong acid. State the name and the formula of any weak acid. (Total 7 marks) 2. Consider the overall reaction taking place in a voltaic cell. Ag 2 O(s) + Zn(s) + H 2 O(l) 2Ag(s) + Zn(OH) 2 (s) What is the role of zinc in the cell? A. The positive electrode and the oxidizing agent. B. The positive electrode and the reducing agent. C. The negative electrode and the oxidizing agent. D. The negative electrode and the reducing agent. (Total 1 mark)

3. A voltaic cell is constructed from two half-cells as illustrated below. (i) Use Table 14 of the Data Booklet to deduce the equation for the spontaneous reaction occurring in this cell. (ii) Calculate the standard potential for this cell. (iii) State the conditions necessary for the potential of the cell to equal that calculated in part (ii) using the data from Table 14. (Total 3 marks) 4. Using the data below and data from Table 14 of the Data Booklet, predict and explain which metal, cadmium or chromium, may be obtained by electrolysis of separate aqueous solutions of Cd 2+ (aq) ions and Cr 2+ (aq) ions. E O / V Cd 2+ (aq) + 2e Cd(s) 0.40 Cr 2+ (aq) + 2e Cr(s) 0.91

............ (Total 2 marks) 5. Nitrogen monoxide may be removed from industrial emissions via a reaction with ammonia as shown by the equation below. 4NH 3 (g) + 6NO(g) 5N 2 (g) + 6H 2 O(l) (i) Deduce the oxidation number of the nitrogen in the reactants and product. (3) (ii) Deduce the oxidation and reduction half-equations and identify the oxidizing agent for the reaction. (3) (iii) 30.0 dm 3 of ammonia reacts with 30.0 dm 3 of nitrogen monoxide at 100 C. Identify which gas is in excess and by how much and calculate the volume of nitrogen produced. (Total 8 marks)

6. Iron is more reactive than copper. (i) Draw a labelled diagram of a voltaic cell made from an Fe(s) / Fe 2+ (aq) half-cell connected to a Cu(s) / Cu 2+ (aq) half-cell. In your diagram identify the positive electrode (cathode), the negative electrode (anode) and the direction of electron flow in the external circuit. (4) (ii) Deduce the half-equations for the reactions taking place at the positive electrode (cathode) and negative electrode (anode) of this voltaic cell. (iii) Deduce the overall equation for the reaction taking place in the voltaic cell and determine which species acts as the oxidizing agent and which species has been reduced. (Total 8 marks) 7. Consider the following three redox reactions. Cd(s) + Ni 2+ (aq) Cd 2+ (aq) + Ni(s) Ni(s) + 2Ag + (aq) Ni 2+ (aq) + 2Ag(s) Zn(s) + Cd 2+ (aq) Zn 2+ (aq) + Cd(s) (i) Deduce the order of reactivity of the four metals, cadmium, nickel, silver and zinc and list in order of decreasing reactivity. (ii) Identify the best oxidizing agent and the best reducing agent. (Total 4 marks)

SEMANA 3: 1. What condition is necessary for the electroplating of silver, Ag, onto a steel spoon? A. The spoon must be the positive electrode. B. The silver electrode must be the negative electrode. C. The spoon must be the negative electrode. D. The electrolyte must be acidified. 2. What is the reducing agent in the reaction below? 2MnO 4 (aq) + Br (aq) + H 2 O(l) 2MnO 2 (s) + BrO 3 (aq) + 2OH (aq) A. Br B. BrO 3 C. MnO 4 D. MnO 2 3. Consider the following standard electrode potentials. Cr 3+ (aq) + 3e Cr(s) Fe 3+ (aq) + e Fe 2+ (aq) E O = 0.74 V E O = +0.77 V What will be the cell potential, in V, of a voltaic cell in which the following reaction takes place? A. 1.51 B. 0.03 C. +0.03 D. +1.51 Cr(s) + 3Fe 3+ (aq) 3Fe 2+ (aq) + Cr 3+ (aq)

4. A voltaic cell is made by connecting two half-cells represented by the half-equations below. Mn 2+ (aq) + 2e Mn(s) Pb 2+ (aq) + 2e Pb(s) E O = 1.19 V E O = 0.13 V Which statement is correct about this voltaic cell? A. Mn is oxidized and the voltage of the cell is 1.06 V. B. Pb is oxidized and the voltage of the cell is 1.06 V. C. Mn is oxidized and the voltage of the cell is 1.32 V. D. Pb is oxidized and the voltage of the cell is 1.32 V. 5. Fertilizers may cause health problems for babies because nitrates can change into nitrites in water used for drinking. (i) Define oxidation in terms of oxidation numbers. (ii) Deduce the oxidation states of nitrogen in the nitrate, NO 3, and nitrite, NO 2, ions. (Total 2 marks) 6. Nitric acid reacts with silver in a redox reaction. Ag(s) + NO 3 (aq) + Ag + (aq) + NO(g) + Using oxidation numbers, deduce the complete balanced equation for the reaction showing all the reactants and products. (Total 3 marks) SEMANA 4: 1. An electrochemical cell is made from an iron half-cell connected to a cobalt half-cell:

The standard electrode potential for Fe 2+ (aq) + 2e Fe (s) is 0.45 V. The total cell potential obtained when the cell is operating under standard conditions is 0.17 V. Cobalt is produced during the spontaneous reaction. (i) (ii) (iii) (iv) Define the term standard electrode potential and state the meaning of the minus sign in the value of 0.45 V. Calculate the value for the standard electrode potential for the cobalt half-cell. Deduce which species acts as the oxidizing agent when the cell is operating. Deduce the equation for the spontaneous reaction taking place when the iron half-cell is connected instead to an aluminium half-cell. (3) (v) Explain the function of the salt bridge in an electrochemical cell. (Total 9 marks) 2. Definir el ácido términos y base de acuerdo con la teoría de Bronsted-Lowry y estado de un ejemplo de un ácido débil y un ejemplo de una base fuerte............ 3. Describe dos métodos diferentes, uno químicas y uno física, aparte de medir el ph, que podría ser utilizado para distinguir entre el ácido etanoico y soluciones de ácido clorhídrico de la misma concentración............... [4] 4. Black coffee has a ph of 5 and toothpaste has a ph of 8. Identify which is more acidic and deduce how many times the [H + ] is greater in the more acidic product.......

5. In an experiment conducted at 25.0 C, the initial concentration of propanoic acid and methanol were 1.6 mol dm 3 and 2.0 mol dm 3 respectively. Once equilibrium was established, a sample of the mixture was removed and analysed. It was found to contain 0.80 mol dm 3 of compound X. (i) Calculate the concentrations of the other three species present at equilibrium. (3) 6. Ammonia, NH 3, is a weak base. It has a pk b value of 4.75. Calculate the ph of a 1.00 10 2 mol dm 3 aqueous solution of ammonia at 298 K...................... (Total 4 marks) 7. (i) 25.0 cm 3 of 1.00 10 2 mol dm 3 hydrochloric acid solution is added to 50.0 cm 3 of 1.00 10 2 mol dm 3 aqueous ammonia solution. Calculate the concentrations of both ammonia and ammonium ions in the resulting solution and hence determine the ph of the solution.

(5) (ii) State what is meant by a buffer solution and explain how the solution in (i), which contains ammonium chloride dissolved in aqueous ammonia, can function as a buffer solution. (3) [8] 8. Salts may form neutral, acidic or alkaline solutions when dissolved in water. (i) Explain why a solution of sodium chloride is neutral but sodium carbonate forms an alkaline solution when it dissolves in water.

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback