This document provides guidelines for students on how to answer questions in Chemistry Paper 2 and Paper 3 exams. It discusses how to write precise yet complete answers, relate answers to question needs, use correct terminology, describe chemical tests, write balanced equations, state changes in observations, show workings for calculations clearly, plot graphs correctly, and draw functional apparatus setup diagrams. The document also provides a suggested format for answering essay questions involving experiments, highlighting the importance of the title, apparatus list, setup diagram, correct procedure, and stating measurements. Overall, the document aims to help students structure their exam answers appropriately and avoid common mistakes to score well.
Planning Peper 3 ini mengandungi contoh-contoh soalan esei dan contoh jawapan. Di sini juga dsertakan cara-cara untuk menulis operational definition. Diharap murid-murid dapat menggunankan sebagai panduan untuk menguasai teknik menjawab esei paper 3. InsyaAllah..AMIN
Planning Peper 3 ini mengandungi contoh-contoh soalan esei dan contoh jawapan. Di sini juga dsertakan cara-cara untuk menulis operational definition. Diharap murid-murid dapat menggunankan sebagai panduan untuk menguasai teknik menjawab esei paper 3. InsyaAllah..AMIN
INVESTIGATE THE PROPERTIES OF IONIC BOND AND COVALENT BOND THROUGH AN EXPERIMENTMISS ESTHER
CHEMISTRY FORM 4 KSSM
CHAPTER 5 : CHEMICAL BONDS (IONIC BOND AND COVALENT BOND)
EXPERIMENT 5.1 TO INVESTIGATE THE PROPERTIES OF IONIC BOND AND COVALENT BOND THROUGH EXPERIMENT
I use this lab sequence over a couple of lessons to get to grips with some basics of different types of reactions, balancing, writing formulas and problem-solving.
INVESTIGATE THE PROPERTIES OF IONIC BOND AND COVALENT BOND THROUGH AN EXPERIMENTMISS ESTHER
CHEMISTRY FORM 4 KSSM
CHAPTER 5 : CHEMICAL BONDS (IONIC BOND AND COVALENT BOND)
EXPERIMENT 5.1 TO INVESTIGATE THE PROPERTIES OF IONIC BOND AND COVALENT BOND THROUGH EXPERIMENT
I use this lab sequence over a couple of lessons to get to grips with some basics of different types of reactions, balancing, writing formulas and problem-solving.
Criteria for Assessment 1– Applying Theory to a Case Study – A.docxfaithxdunce63732
Criteria for Assessment 1– Applying Theory to a Case Study – A Critique (1500 words)- 20%
Student ____________________________________ Student Number _________________________________
Assessment Criteria
Content- (7
Points)
Exemplary Met Poor/Unmet Score
Understanding
of key principles
and concepts of
theory (ies)
Demonstrates understanding of all
the critical principles and concepts of
theory employed in case study (4)
Demonstrates understanding of some
of the key principles and concepts of
theory employed in case study (2 -3)
Insufficiently identifies the key
principles and concepts of theory
employed in case study (0-1pt)
Application of
theory to
explaining
problem,
behaviour
and/or
offending.
Identifies the salient arguments and
fully describes how the theoretical
concepts are used to explain the type
of offending or behaviour contained
in case study (3)
Identifies some of the salient
arguments and partially describes
how the theoretical concepts are used
to explain the type of offending or
behaviour contained in case study
(1.5-2)
Insufficiently describes the salient
arguments or describes how the
theoretical concepts are used to
explain the type of offending or
behaviour contained in case study (0-
1 pt)
Analysis (7 Ps)
Critical appraisal
of the strengths
and limitations
of theory and its
application
Well referenced from the case study,
analysis clearly sets out the strengths
and limitations of the theory, its
application and the empirical
evidence presented with respect to
the defined problem.
(4)
With some references to case study,
analysis addresses some strengths or
limitations of the application of the
theory, its application and the
empirical evidence presented with
respect to the defined problem . (2-3 )
Does not adequately analyse the
application strengths or limitations of
the theory and the empirical evidence
and/or fails to provide relevant
references from the case study. (0-
1pt)
Analyses ideas
and evidence
and implications
for public policy
and/or further
research
Integrates results of analysis to draw
conclusions about implications for
public policy and further research. (3-
3)
Conclusions are drawn with some
reference to critical analysis. This may
include public policy and/or further
research. (1.5-2)
Conclusions are drawn without
effective reference to critical analysis
and/or implications are not well
developed. (0-1pt)
Presentation: (6 Exemplary Met Poor/Unmet Score
Points)
Clear and
effective
structure which
responds to the
task
Responses to each criteria are
distinct, clearly delineated. Writing is
well structured with effective
transitions with introduction and
conclusion. (2)
Responses to criteria can be
identified, but may be incomplete or
are not clearly differentiated. Writing
has generally adequate structure. (1)
Responses to the essential crite.
CH1000
Fundament
als of
Chemistry
Module 2 – Chapter 8
Chemical Equations
• Chemists use chemical equations to:
• Summarize a chemical reaction by displaying the substances reacting and
forming.
• Indicate specific amounts of materials consumed or produced during the
reaction.
• Reactants: substances consumed during the reaction.
• Products: substances formed during the reaction.
• Atom balance must be maintained in all chemical reactions.
• All atoms from reactants must appear as part of products.
a A + b B c C + d D
The
coefficient
1 is not
written in
a balanced
equation.
Chemical Equations
1. Reactants and products are separated by an arrow.
2. Reactants are on the left side of the arrow, products are on the right.
3. Whole number coefficients are placed in front of substances to
balance the atoms in the equation.
4. The numbers indicate the units of the substance reacted or formed
during the reaction.
5. Information about the reaction (temperature, time) may be placed
above or below the reaction arrow.
6. The physical state is written in brackets after the formula of the
substance. (g) for gas, (l) for liquid, (s) for solid, (aq) for aqueous
a A + b B c C + d D
Reactant
s
Products
Symbol
Summary
Symbol Significance
Produces (points towards products)
(s) Solid (written after substance)
(l) Liquid (written after substance)
(g) Gas (written after substance)
(aq) Substance dissolved in an aqueous
solution
Heat is added (above or below reaction
arrow)
Δ
Law of Conservation of Mass
• The total mass of substances in a chemical reaction must remain
constant.
water hydrogen + oxygen
100.0 g 11.2 g 88.8 g
100.0 g total of productsreactants
In any chemical reaction:
Mass of reactants = Mass of products
Writing and
Balancing
Chemical
Equations
A balanced chemical equations contain the same
number of each kind of atom on both sides of the
equation.
1. Write a word equation for the reaction.
2. Write the correct formula for each substance
(unbalanced):
3. Balance the equation
a) Count the number of each atom on the reactants and
products side and determine what requires
balancing.
b) Balance each element sequentially, using whole
numbers. It is often best to balance metals first.
mercury(II) oxide mercury + oxygenΔ
HgO Hg + O2
Δ
Hg: 1
O: 1
Hg: 1
O: 2
HgO Hg + O2
Δ
Oxygen atoms
need balancing
on the reactants
side.
2 HgO Hg + O2
Δ
Hg: 2
O: 2
Hg: 1
O: 2
Now Hg atoms
need balancing
on the products
side.
Writing and
Balancing
Chemical
Equations
4. Check after adding coefficients that all atoms still
balance. Adjust as needed (a 2 is needed in front of
Hg).
5. Do a final check to make sure all atoms now balance
on both sides of the equation.
2 HgO 2 Hg + O2
Δ
Hg: 2
O: 2
Hg: ...
a presentation about types of chemical reaction for class 10th u s s s s sssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssss gggggggggggggggggggggggggggg g gg v vv c cccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc
Chemical reactants are substances that undergo a chemical reaction to form new substances. There are several types of chemical reactants based on their roles and participation in reactions. Here are some common types of chemical reactants:
Reactants
These are the primary substances that undergo a chemical change during a reaction.
Reactants are consumed during the reaction and are transformed into products.
Example: In the combustion of methane (
�
�
4
CH
4
+
�
2
O
2
→
�
�
2
CO
2
+
�
2
�
H
2
O), methane (
�
�
4
CH
4
) and oxygen (
�
2
O
2
) are the reactants.
Precipitates
Precipitates are solid substances that form during a chemical reaction in a solution.
They are often formed when two aqueous solutions react and a solid product (precipitate) is insoluble and separates from the solution.
Example: Mixing solutions of silver nitrate (
�
�
�
�
3
AgNO
3
) and sodium chloride (
�
�
�
�
NaCl) results in the formation of a white precipitate of silver chloride (
�
�
�
�
AgCl).
Acids and Bases
Acids and bases are types of reactants that participate in acid-base reactions.
Acids donate protons (
�
+
H
+
) while bases accept protons.
Example: In the reaction between hydrochloric acid (
�
�
�
HCl) and sodium hydroxide (
�
�
�
�
NaOH),
�
�
�
HCl (acid) reacts with
�
�
�
�
NaOH (base) to produce water (
�
2
�
H
2
O) and sodium chloride (
�
�
�
�
NaCl).
Oxidizing and Reducing Agents
Oxidizing agents gain electrons and are reduced during a reaction.
Reducing agents lose electrons and are oxidized during a reaction.
Example: In the reaction of iron (
�
�
Fe) with oxygen (
�
2
O
2
), oxygen acts as the oxidizing agent, while iron acts as the reducing agent to form iron oxide (
�
�
2
�
3
Fe
2
O
3
).
Catalysts
Catalysts are substances that speed up chemical reactions by lowering the activation energy, but they themselves are not consumed or permanently changed.
They provide an alternative pathway for the reaction to occur more rapidly.
Example: Enzymes in biological systems act as catalysts for various metabolic reactions.
Solvents
Solvents are substances in which reactions take place or in which reactants are dissolved.
They do not undergo a chemical change themselves during the reaction.
Example: Water (
�
2
�
H
2
O) is a common solvent used in many chemical reactions, particularly in aqueous solutions.
These are some fundamental types of chemical reactants based on their roles and behaviors in chemical reactions. Depending on the nature of the reaction and the substances involved, various combinations of these reactant types can participate to produce new products.
Read| The latest issue of The Challenger is here! We are thrilled to announce that our school paper has qualified for the NATIONAL SCHOOLS PRESS CONFERENCE (NSPC) 2024. Thank you for your unwavering support and trust. Dive into the stories that made us stand out!
Synthetic Fiber Construction in lab .pptxPavel ( NSTU)
Synthetic fiber production is a fascinating and complex field that blends chemistry, engineering, and environmental science. By understanding these aspects, students can gain a comprehensive view of synthetic fiber production, its impact on society and the environment, and the potential for future innovations. Synthetic fibers play a crucial role in modern society, impacting various aspects of daily life, industry, and the environment. ynthetic fibers are integral to modern life, offering a range of benefits from cost-effectiveness and versatility to innovative applications and performance characteristics. While they pose environmental challenges, ongoing research and development aim to create more sustainable and eco-friendly alternatives. Understanding the importance of synthetic fibers helps in appreciating their role in the economy, industry, and daily life, while also emphasizing the need for sustainable practices and innovation.
Operation “Blue Star” is the only event in the history of Independent India where the state went into war with its own people. Even after about 40 years it is not clear if it was culmination of states anger over people of the region, a political game of power or start of dictatorial chapter in the democratic setup.
The people of Punjab felt alienated from main stream due to denial of their just demands during a long democratic struggle since independence. As it happen all over the word, it led to militant struggle with great loss of lives of military, police and civilian personnel. Killing of Indira Gandhi and massacre of innocent Sikhs in Delhi and other India cities was also associated with this movement.
Biological screening of herbal drugs: Introduction and Need for
Phyto-Pharmacological Screening, New Strategies for evaluating
Natural Products, In vitro evaluation techniques for Antioxidants, Antimicrobial and Anticancer drugs. In vivo evaluation techniques
for Anti-inflammatory, Antiulcer, Anticancer, Wound healing, Antidiabetic, Hepatoprotective, Cardio protective, Diuretics and
Antifertility, Toxicity studies as per OECD guidelines
Unit 8 - Information and Communication Technology (Paper I).pdfThiyagu K
This slides describes the basic concepts of ICT, basics of Email, Emerging Technology and Digital Initiatives in Education. This presentations aligns with the UGC Paper I syllabus.
The French Revolution, which began in 1789, was a period of radical social and political upheaval in France. It marked the decline of absolute monarchies, the rise of secular and democratic republics, and the eventual rise of Napoleon Bonaparte. This revolutionary period is crucial in understanding the transition from feudalism to modernity in Europe.
For more information, visit-www.vavaclasses.com
A Strategic Approach: GenAI in EducationPeter Windle
Artificial Intelligence (AI) technologies such as Generative AI, Image Generators and Large Language Models have had a dramatic impact on teaching, learning and assessment over the past 18 months. The most immediate threat AI posed was to Academic Integrity with Higher Education Institutes (HEIs) focusing their efforts on combating the use of GenAI in assessment. Guidelines were developed for staff and students, policies put in place too. Innovative educators have forged paths in the use of Generative AI for teaching, learning and assessments leading to pockets of transformation springing up across HEIs, often with little or no top-down guidance, support or direction.
This Gasta posits a strategic approach to integrating AI into HEIs to prepare staff, students and the curriculum for an evolving world and workplace. We will highlight the advantages of working with these technologies beyond the realm of teaching, learning and assessment by considering prompt engineering skills, industry impact, curriculum changes, and the need for staff upskilling. In contrast, not engaging strategically with Generative AI poses risks, including falling behind peers, missed opportunities and failing to ensure our graduates remain employable. The rapid evolution of AI technologies necessitates a proactive and strategic approach if we are to remain relevant.
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In Odoo, the multi-company feature allows you to manage multiple companies within a single Odoo database instance. Each company can have its own configurations while still sharing common resources such as products, customers, and suppliers.
Guidelines on answering paper 2 and paper 3 questions
1. Chemistry
SCORE A+
2011
GUIDELINES ON ANSWERING
QUESTIONS IN
CHEMISTRY PAPER 2 AND PAPER 3
2. GUIDELINES ON ANSWERING QUESTIONS IN CHEMISTRY PAPER 2
GUIDELINES ON ANSWERING STRUCTURED QUESTION
1. General
(a) As with other subjects, you should read all questions carefully and circle all important key words.
(b) Answers can be short but they must be precise and complete.
(c) The space provided for your answer gives an indication as to ‘how long’ the answer should be.
(d) Always look at the marks allotted for each question as a guide to how many points you should
give.
2. Answers must be PRECISE.
Need not write in complete sentence but your answer must be PRECISE.
Example:
State the conversion of energy that occurs during the electrolysis.
Answer:
The energy conversion that occurs during electrolysis is from electrical energy to chemical
energy.
To chemical energy. [Answer incomplete. 0 mark!]
From electrical energy to chemical energy.
3. Answers must relate to the needs of the question.
Do not give answers that are not related to the need of the question.
Read the question carefully and underline/circle important information or keywords.
Example 1:
State the observation(s). State what you experienced with your five senses only. [see, hear, smell,
touch, taste].
Incorrect observation Correct observation
Chlorine gas released. Effervescence/Gas bubbles released/ Light green gas given out.
Copper formed. Brown solid deposited. [Brown deposits]
Deflection of the galvanometer Deflection of the galvanometer needle.
Example 2
Write the formula for the product formed between sodium and oxygen.
Answer:
Na + O2 Na2O Na2O or ? 4Na + O2 2Na2O
Example 3
Write the ionic equation for the reaction between dilute hydrochloric acid and aqueous sodium
hydroxide.
Answer:
HCl + NaOH NaCl + H2O H+ + OH– H2O 2H+ + 2OH– 2H2O
Example 4
Given equation of reaction: 4Na + O2 2Na2O
Name the product formed.
Na2O sodium oxide.
2
3. 3. Use the correct terminology.
Must use the correct terminology.
If name of a person is used as unit or a chemical process, it must be in capital letter.
Do not use abbreviation such as E.C.S , RAM or RMM.
The followings are some of the common inaccurate/incomplete answers given by students.
Wrong Correct
1. Purple solution disappears. Purple solution becomes colourless
2. No reaction. No change
3. Colour of water is clear/white Colourless/no colour
4. Rate of reaction is faster/slower. Rate of reaction is higher/lower
5. Zinc donates two electrons. Zinc atom donates two electrons
6. Copper molecule Copper atom
7. Bromine ion. Bromide ion
Concentration / Number of moles of hydrogen ion, H+
8. H+ ion increase.
increases.
Electrons flow from zinc metal to Electrons flow from zinc metal to copper metal through
9.
copper metal. the wire.
10
Forces of attraction are weak. Intermolecular forces of attraction are weak.
.
11
Soap consists of two parts. Soap anion consists of two parts.
.
12
Energy unit: j (joule) Unit joule : J
.
13 Position of zinc is above copper in the electrochemical
Position of zinc is above copper.
. series. or zinc is more electropositive than copper
14
Reagent to verify iodine. starch Starch solution.
.
4. Describing chemical test: Description must have (1) correct reagent, (2) procedure, and (3)
expected observation.
Do not give the reagent only.
You must state how you would carry out the test using the reagent and what is the observation to
verify the identity of the substance.
Example:
Name gas Y and describe a method to verify its identity.
Answer:
Hydrogen. Test with wooden splinter
Hydrogen. Place a lighted splinter into the test tube.
Hydrogen. Place/ Put/Near a lighted wooden splinter into the test tube. A ‘pop’ sound is heard
verifying the gas is hydrogen.
5. Writing balanced chemical equation.
Step 1: Write the correct formula and symbol for the reactants and products.
Step 2: Balance the equation.
Mole ratio in the equation must be in simple ratio.
Zn + 2HCl ZnCl2 + H2 2Zn + 4HCl 2ZnCl2 + 2H2
6. Stating correctly the CHANGES in observation or state. .
You must state the change from the INITIAL colour/state to the FINAL colour/state.
The following are some of the common mistakes made by students.
3
4. Wrong Correct
1 Moist litmus paper turns red. Moist litmus paper turns from blue to red
Acidified potassium Acidified potassium manganate(VII) turns from purple to
2
manganate(VII) turns colourless colourless.
3 Oxidation number changes to +2 Oxidation number changes from 0 to +2
7. Writing clearly the working of the calculation.
Spaces provided is to be used for writing the workings/steps clearly and not to be used for rough
calculation.
Marks are also given for workings and hence they must be written clearly.
Unit must be correct.
Example:
Wrong working and answer Correct working and answer
16
64
= 0.25 Number of mole sodium= 16 = 0.25
64
0.25 x 32 = 8 g Mass of oxygen gas = 0.25 x 32 = 8 g
8. Plotting the graph
Both axes must be labelled with the correct variable and unit (if any) must be written.
If no scale is given, use the appropriate scale so that the graph drawn covers at least half of the
page.
Points plotted must be correct.
Draw the best straight line /curve.
If value of the variable needs to be obtained form the graph, you must show how this value is
obtained.
9. Drawing the set up of apparatus.
Set up of apparatus drawn must be functional.
Materials and main apparatus must be labelled.
Areas representing solids, liquids and solutions must be shaded.
A two dimensional diagram should be drawn.
Below are some diagrams of the set up of apparatus for certain experiments. Can you identify
the mistakes in each diagrams?
4
5. GUIDELINES ON ANSWERING PAPER 2 ESSAY QUESTION
A. General
• Read all questions carefully.
• Always note the marks allotted for each part of the question. This will an indication as to how
many points/facts you need to answer.
• Wherever possible, substantiate your answer with labelled diagrams or equations.
• Answer according to the needs/instructions of the question. Marks are allotted for each
instruction.
B. Why students lose marks
1. Did not give enough facts/points or incomplete facts.
2. Did not give the correct conditions of the experiment.
3. Did not write chemical equation.
4. Wrong words or terms used.
SUGGESTED FORMAT TO USE WHEN ANSWERING PAPER 2 ESSAY QUESTION
(ESSAY INVOLVING CARRYING OUT AN EXPERIMENT)
Item Description
It would be good if you can write a title or aim of the experiment. This would
enable you to stay focused and hopefully you will not write out of point!
1. Title /Aim
Just read the question and write a statement based on the need instruction of
the question.
2. Apparatus and List all the apparatus and material separately. If you are unable to do so, you
material can group all under one heading : “Apparatus and material”
Normally two marks are allotted
3. Set–up of
1st mark: The apparatus set up is functional.
apparatus
2nd mark: All chemical substance and main apparatus are labelled. (solutions,
diagram
solids must be shaded)
4. Procedure • You need to briefly explain how to set up the apparatus for the experiment.
You must describe how you ‘measure and pour’ the chemical substances
into appropriate containers.
• Values of concentration and volume of the solution and/or other data must
be stated; especially for experiment which include calculation.
• Steps taken while carrying out the experiment must be written in the correct
order. [The correct order of the steps will enable you to carry out the
experiment successfully.]
• Write: “Readings or/ and measurements are recorded”. Do not write “being
read, observed, etc”
• You must ensure that the chemical substances you choose are correct and will
react accordingly to give the desired result–giving the correct products.
• Chemical substances can be written in words or chemical formulae. If
5
6. Item Description
chemical formulae are used, they must be correct.
• The physical state of the chemical substances must also be stated. Example:
solution or solid or gas, powdered or pieces or ribbon, acidified or neutral,
etc.
1. Answer according to the needs of the experiment. If certain facts are not
4. Observation /
asked, you can write briefly.
theory /
2. Include chemical equation / half equation or graph in your answer. These
explanation
will make your answer more easily understood.
The readings normally need to be presented in a table. Your table must have the
correct headings and units. Values must be given for the manipulated variable.
Symbols can be used for the responding variable.
Time (second)
30
60
90
120
5. Tabulation of
data / result
Temperature (0C)
t1
t2
t3
t4
If real values are not given, you can use unknown such as x, y or z in your
calculations.
6. Calculation
All steps must be clearly shown.
Units must be written.
7. Conclusion A conclusion must be written based on the aim of the experiment.
SAMPLE ANSWERS FOR PAPER 2 ESSAY QUESTION
Sample 1
(a) Describe an experiment to investigate the effect temperature on rate of reaction. [12 marks]
(b) With reference to the collision theory, explain how this affects the rate of reaction. [4 marks]
Sample Answer
(a) Effect of temperature on rate of reaction.
6
7. [Note: (a) The set up of apparatus drawn is functional. (b) All the materials are labelled]
Apparatus and material: Measuring cylinder 50 cm3, measuring cylinder 5 cm3, stopwatch,
thermometer, 5 conical flask of the same size, Bunsen burner, wire gauze, match box, cloth, sodium
thiosulphate 0.1 mol dm–3, dilute hydrochloric acid 2 mol dm–3, water, paper
Procedure:
1. 50.0 cm3 of sodium thiosulphate 0.1 mol dm–3 is measured using a measuring cylinder.
2. The solution is then poured into a clean conical flask.
3. The temperature of the solution is measured using the thermometer and the reading recorded.
4. 5.0 cm3 of dilute hydrochloric acid 2 mol dm-3 is measured using another measuring cylinder.
5. The acid is then poured into the flask and the stopwatch is started immediately.
6. The flask is swirled and placed on a piece of paper with mark ‘X’ drawn.
7. The mark ‘X’ is observed through the solution vertically and the time taken for the mark ‘X’ to
disappear from sight is recorded.
8. Step 1 to step 7 of the experiment is repeated using solutions of sodium thiosulphate heated to
different temperatures as shown in the table.
9. The solution is heated as shown in the diagram
10. For each of the experiment, the other variables are fixed. They are:
(a) volume and concentration of sodium thiosulphate.
(b) volume and concentration of dilute acid.
(c) Size of the conical flask.
11. To investigate the effect of temperature on the rate of equation, two graphs are drawn, i.e.
(a) Graph of temperature against time,
(b) Graph of temperature against 1/time
Tabulation of data
Experiment 1 2 3 4
Temp (oC) 28 38 48 58
Time / (s) t1 t2 t3 t4
-1
1/time (s ) a1 a2 a3 a4
7
8. Graph (i) Graph (ii)
From graph (i), it is shown that the higher the temperature of sodium thiosulphate, the shorter the time
for the mark ‘X’ to disappear from sight.
From graph (ii), it is shown that as the temperature of sodium thiosulphate increases, the rate of
reaction given by 1/time increases.
Chemical equation
Na2S2O3 + 2HCl 2NaCl + H2O + SO2 + S(p)
Conclusion
When the temperature of the reactant (sodium thiosulphate) increases, the rate of reaction increases.
(b) Collision theory
1. The reaction between sodium thiosulphate and dilute hydrochloric acid to form solid sulphur is
represented by the following ionic equation:
S2O32- + 2H+ SO2+ H2O + S
2. When the temperature increases, the kinetic energy of S2O32- ions and H+ ions increases and
the ions moves faster.
3. Hence the frequency of collision between S2O32- ions and H+ ions will increase.
4. The increase in temperature also increases the percentage of ions with energy more than or equal
to the activation energy.
5. Therefore the frequency of effective collision between the particles will also increase.
6. Subsequently the rate of reaction will increase,
Sample 2
(a) Why latex does not coagulates when it is inside the rubber tree? [3 marks]
(b) Explain how coagulation of latex occurs when it is exposed to air. [7 marks]
Sample answer
(a) [Drawing of diagrams will help you and increases your chances to score higher marks]
1. Latex is a colloidal solution. It consists of rubber particles dispersed in water.
2. Each rubber particle is made up of many long-chain rubber molecules enclosed by a protein-
like membrane which is negatively charged.
8
9. 3. The negative charges around the rubber particles cause repulsion between these particles to
occur when they are near each other.
4. Hence the repulsion between the negatively-charged particles prevents the rubber particles
from coming close to each other.
5. Hence latex could not coagulate.
(b) Sample answer
1. Each rubber particle is made up of many long-chain rubber molecules enclosed by a protein-
like membrane which is negatively charged.
2. The negative charges around the rubber particles cause repulsion between these particles to
occur when they near each other.
3. Hence the repulsion between the negatively-charged particles prevents the rubber particles
from coming close to each other.
4. Coagulation of latex can occur when it is exposed to air for a few days.
5. Coagulation is caused by bacteria in the air which enter the latex.
6. The growth and spread of the bacteria produce acid that causes the coagulation of the latex.
7. Acid contain hydrogen H+ ions which neutralize the negative charges on the protein membrane
of the rubber particles.
8. With the absence of the repulsive negative charges, the rubber particles can now come close
together.
9
10. 9. This enables them to collide with one another resulting in the breakage of the protein
membrane.
10. The rubber molecules combine with one another and entangle and thus causing the latex to coagulate.
GUIDELINE ON ANSWERING QUESTIONS IN CHEMISTRY PAPER 3
1. Paper 3 Format
Number of
Time Type of instrument Construct Marks
question
Structure item 2 or 3 Question 1 & 2
Open response Compulsory Evaluate Aspect of Scientific 33
1½
item Process Skills
jam
Report item Question 3
17
Evaluate Aspect of Experimenting
2. Allocation of marks
Score Description
3 Excellent: Candidate gave the best response.
2 Satisfactory : Candidate gave an average response
1 Weak: Candidate gave an inaccurate response.
0 Candidate gave no response or wrong response
3. Scientific skills (Assesed in structured question. Total marks: 33)
1. Observing KK501
2. Classifying KK502
3. Measuring and using numbers KK503
4. Inferring KK504
5. Predicting KK505
6. Communicating KK506
7. Using space-time relationship KK507
8. Interpreting Data KK508
9. Defining operationally KK509
10. Controlling variables KK510
11. Hypothesizing KK511
4. Techniques on answering question
(a) Classifying
Draw a table with a ruler.
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11. Every column must have a correct heading and units MUST be written (if any)
(b) Observing
Write what you will see, hear, feel, taste or smell.
(c) Making inference
State the appropriate inference that explains the observation.
You must give an inference that corresponds with the observation.
(d) Predicting:
You need to analyse all the information given (observations, previous experiences or
data that can be trusted) and hence make a forecast (prediction) according to the need of
the question.
(e) Measuring and using numbers
You must write the value of the measurement according to the accuracy of the apparatus
used.
All the values written must be uniform and have the correct unit.
Example of reading
Apparatus Accuracy of reading
and its unit
Ruler One decimal place 9.6 cm
Electronic balance One decimal place 10.5g
Stop watch 35.0 s
Measuring cylinder 50 cm3 26.5 s
Pipette 25 cm 3
One decimal place. The decimal 25.0 cm3
Thermometer 0 – 110 C0
place must end with 0 or 5. 25.0 cm3
35.0 0C
Voltmeter 0 – 3V
2.5 V
Two decimal places. The second 12. 20 cm3
3
Burette 50 cm decimal place must end with a 0 12. 00 cm3
or 5. 12. 35 cm3
Question 3 [17 Marks]
• Involves “Planning on carrying out an experiment.”
• Answer according to the need of the question. Write the report according to the headings
required in the question.
• You must write the headings and not the question number or part question.
Technique on answering question 3
(a) Aim of experiment
Read the question carefully and the aim for the experiment is clearly stated in the question!
The aim must be written accurately.
(b) Problem statement
The problem statement must be a question ending with a question mark ‘?’.
The problem statement should use certain key word such as: “What ........”; “How ....”
Need to be accurate and complete.
(c) Hypothesis
The statement correlates the manipulated variable with the responding variable.
The manipulated variable must be written in front of the statement and followed by the
responding variable.
Need to state the ‘direction’ of change for both the variable. (the direction may be right or
wrong)
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12. (d) All variables
Manipulated variable: Materials that we use and change in the experiment.
Responding variable: Measurement (using apparatus, through observation or product of the
reaction) that is recorded for each material that we change in the experiment.
(e) List of apparatus and materials
State the name of all materials (including its concentration) and all apparatus.
A labelled diagram of the set-up of apparatus may complement the list.
(f) Procedure
Volume and concentration must be written.
State the quantity of the material used. Do not write ‘about three gram”.
The steps in the procedure must be in order.
Use passive sentences.
(g) Tabulation of data
Must draw table using a ruler.
Every column must have a heading and its unit (if any)
Manipulated variable must be on the left side of the table and responding variable on the right
side.
SAMPLE ESSAY FOR PAPER 3
Topic: Rate of reaction
Marble (Calcium carbonate) reacts with dilute hydrochloric acid to form calcium chloride, water and
carbon dioxide gas. Different sizes of calcium carbonate will give different rate of reaction.
Plan an experiment to investigate the effect of total surface area of calcium carbonate on the rate of
reaction. Your planning should include the following headings.
(a) Aim of experiment
(b) Problem statement
(c) Hypothesis
(d) Variables
(e) Apparatus and materials
(f) Procedure
(g) Table of data
Sample Answer
(a) Aim of experiment
To investigate the effect of total surface area of marble on the rate of reaction.
(b) Problem statement
How does the total surface area of marble affect the rate of reaction?
(c) Hypothesis
The bigger the total surface area of marble, the higher is the rate of reaction.
(d) Variables
(i) Manipulated variable: Total surface area
(ii) Responding variable: Volume of carbon dioxide given off
(iii) Fixed variable: Mass of marble, concentration of hydrochloric acid, volume of
hydrochloric acid, temperature of reactants.
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13. Apparatus: Burette 50 cm3, measuring cylinder, 50 cm3, electronic balance, conical flask, delivery
tube with stopper, retort stand with clamp, basin, stopwatch
Material: 5.0 g large marble chips, 5.0 g small marble chips, dilute hydrochloric acid 0.2 mol dm–3,
water.
Procedure:
1. Water is added into the burette and inverted as shown in the diagram. The water level is
adjusted to the 50 cm3 mark.
2. The water used is saturated with carbon dioxide gas before the experiment.
3. Using a measuring cylinder, 50.0 cm3 of dilute hydrochloric acid 0.2 mol dm–3 is measured
and poured into a conical flask.
4. 5.0 g of small marble is weighted and added into the conical flask and the stopwatch is started
immediately. [The conical flask is stopped immediately ]
5. The volume of carbon dioxide gas collected at intervals of 30 seconds is recorded until the
reaction stopped. [or until 50 cm3 of gas]
6. Step 1 to step 5 is repeated by using large marble to replace the small marble chips.
Tabulation of data
Time (s) 0 30 60 90 12 15 18 210
0 0 0
Burette reading (cm3)
Volume of CO2 evolved (cm3)
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