MYP 5 Term End Exam - Jan 2025 - English Language & Literature PDF

Summary

This is a portion of a MYP 5 term end exam for January 2025. It covers English language and literature topics including units, concepts, global contexts, and marks allocations.

Full Transcript

English Language and Literature

Unit Topics/Content Concepts Global context Max Marks Duration
This task contains questions 1a to 1e.

Questions 1a to 1d focus on the key concept of communication.
Students will be asked to demonstrate their understanding of texts 1 and 2 by
answering a number of analytical questions.
Communication
Task 1 - Analysing
Question 1e focuses on the key concept of connections. Students will be asked to & Connections
compare and
contrast text 1 and text 2.

The criteria being assessed are A (Analysing - 20 Marks) and B (Organizing - 10 Scientific &
Marks). Technical 80 Marks 2 Hrs
Innovation
Students will see two images. They will be asked to create a piece of writing using
one of the images.
Task 2 - Producing
Creativity
Literary Text
The criteria being assessed are C (Producing Text - 10 Marks) and D (Using
Language - 10 Marks).
Students will be asked to create a piece of non-literary writing in relation to the global
context "Scientific & Technical Innovation".
Task 3 - Producing
Perspective
Non-literary Text
The criteria being assessed are B (Organizing - 10 Marks), C (Producing Text - 10
Marks) and D (Using Language - 10 Marks)
 Mathematics

Unit Topics/Content Concepts Global context Max Marks Duration
"Number systems and notation (set of positive integers and zero (N), Scientific and technical
integers (Z), rational numbers (Q), irrational numbers (Q’), and real numbers (R)) innovation
Absolute values
Representing inequalities,including compound anddouble inequalities
Number sequences(prediction, description)
Surds, roots and radicals including simplifying
Laws of exponents including integer and negative exponents
Standard form (scientific notation)
Numbers Direct and inverse proportion"
Find, justify and prove general rules/formulae for sequences
Solving simultaneous equations, including algebraically and graphically.
Solving inequalities,including compound and double inequalities
Factorizing quadratic expressions
Solving quadratic equations using factorization, the quadratic formula and
graphically
Rearranging formulae
Mapping
Function notation
Linear functions of the form f (x) = mx + c
Parallel and perpendicular lines
Systems of equations/ simultaneous equations including solving algebraically and graphically
Quadratic functions in the form: f(x)= ax2+bx+c
f(x)=a(x-p)(x-q)
f(x)=a(x-h)2 + k including the significance of their parameters
Representation and shape of exponential functions and their horizontal asymptotes
Algorithms (analyzing and using well-defined procedures for solving complex problems)
Algebra
Sampling techniques and response rates
Data manipulation and misinterpretation
Graphical representations, including bivariate graphs/scatter graphs, box-andwhisker plots,
cumulative frequency graphs
Lines of best fit
Data processing, including mean, median (measure of central tendency) and mode,
for continuous data, and quartiles and percentiles for discrete and continuous data
Measures of dispersion, including interquartile range (including application and
relationship with the median)
Describing correlation, including positive, negative, none, strong and weak
Sets, including notation and operations up to three sets
Probability calculations with Venn Diagrams, tree diagrams and sample space
Mutually exclusive events
Combined events
Statistics and Probability Relative frequency 100 2 Hrs
 Extended Math

Unit Topics/Content Concepts Global context Max Marks Duration
Number systems and notation (set of positive integers and zero (N), Scientific and Technical
integers (Z), rational numbers (Q), irrational numbers (Q’), and real numbers (R)) Innovation
Lower and upper bounds
Absolute values
Representing inequalities,including compound anddouble inequalities
Number sequences(prediction, description)
Surds, roots and radicals including simplifying
Logarithms, including laws of logarithms and use of technology to find values
Laws of exponents including integer and negative exponents
Laws of exponents, including fractional/rational exponents
Standard form (scientific notation)
Numbers Direct and inverse proportion
Find, justify and prove general rules/formulae for sequences
Solving simultaneous equations, including algebraically and graphically.
Solving inequalities,including compound and double inequalities
Factorizing quadratic expressions
Solving quadratic equations using factorization, the quadratic formula and
graphically
Rearranging formulae
Using notation and formulae for arithmetic and geometric sequences to continue a sequence, find specific terms
and the progression
Mapping
Domain and Range
Function notation
Linear functions of the form f (x) = mx + c
Rational functions of the form f x =ax + b / cx + d
Parallel and perpendicular lines
Systems of equations/simultaneous equations including solving algebraically and graphically
Linear programming, including inequalities
Quadratic functions in the form: f(x)= ax2+bx+c
f(x)=a(x-p)(x-q)
f(x)=a(x-h)2 + k including the significance of their parameters
Transformation of quadratic functions, including translation, reflection and dilation
Representation and shape of exponential functions and their horizontal asymptotes
Representation and shape of cubic, rational, trigonometric and logarithmic functions and their asymptotes
Algorithms (analyzing and using well-defined procedures for solving complex problems)
Networks, including edges and arcs,
nodes/vertices, paths
Calculating network pathways
Weighted networks

Algebra
 Metric conversions
Circle geometry and theorems, including angles, radius, diameter and tangent
Length of arc and chord, perimeter and area of sector and segment
Volume, surface area and nets of pyramids, cones and compound three dimensional shapes
Capacity
y = mx + c, gradients and intercepts
Gradients of parallel lines
Relationship between gradients of perpendicular lines
Coordinate geometry, including distance, midpoint and gradient formulae
Rotation around a given point
Similarity and congruence, including proving similar and congruent triangles
Movement on a plane isometric transformations, enlargements and tessellations
Enlargement around a given point
Enlargement by a rational factor
Identical representation of transformations
Triangle properties
Bearings
Pythagoras’ theorem
Converse of Pythagoras’ theorem
Trigonometric ratios in rightangled triangles
Sine rule and cosine rule, including applications(link to trigonometric functions)
Geometry 100 2 Hrs
Sampling techniques and response rates
Data manipulation and misinterpretation
Graphical representations, including bivariate graphs/scatter graphs, box-and whisker plots, cumulative frequency graphs
Histograms for continuous fixed interval groups
Lines of best fit
Data processing, including mean, median (measure of central tendency) and mode, for continuous data, and quartiles and
percentiles for discrete and continuous data
Measures of dispersion, including interquartile range (including application and relationship with the median)
Measure of dispersion, including standard deviation (including application and relationship with the mean)
Describing correlation, including positive, negative, none, strong and weak
Use of technology to find the numerical value for correlation and its meaning
Sets, including notation and operations up to three sets
Probability calculations with Venn Diagrams, tree diagrams and sample space
Probability calculations for dependent and independent events (using the addition and multiplication rules) including conditional probability
Mutually exclusive events
Combined events
Relative frequency

Statistics and Probability
 Integrated Science

S.no Unit Topics/Content Concepts Global context Max Marks Duration
Nature of science, Research question, Hypothesis, Variables, Designing a valid
Scientific KC: Relationships
1 scientific investigation, Collecting and recording data, Interpreting data, Drawing a RC: Evidence
Investigation
conclusion and Evaluating the investigation design.
Scientific notation, Resolution, Magnification, Microscopic scale, Scaling in biological
applications, Structural organization in living things, Atomic structure, Electron KC: Relationships
2 Scale it up!
configuration, Models in science, Avogadro's constant, Tools for measurement - RC: patterns, models
Vernier Calipers & Newton meter(Spring balance),.
Electric charge, Conduction and insulation, Electric current, Generators, AC and DC,
Sensing Circuit diagrams - Series and Parallel circuits, Potential difference, Electrolysis, KC: systems RC:
3
electrically Redox reactions, Reactivity series, Electroplating, Bioelectrogenesis; Resistivity, Function, Environment
Ohm's law; Electrical circuitry of human body, Cardiac conduction system; Sensors.
Acid and Base, Dissociation, Indicator, Concentration and Dilution, Neutralization,
KC: Systems
Chemical Salts, Soluble and Insoluble, Precipitation reactions, Digestion process, Chemical
4 RC: Balance,
systems & Us composition of nutrients, Enzymes, pH level, Thermoregulation and control of blood Environment
sugar levels in humans.
HOW DO WE
ORGANIZE Periodic table, Modern periodic table, groups and periods, Periodicity, Alkali metals,
KC: Relationships
5 THE halogens, Noble gasses, transition metals, patterns in reactivity, forming ions, RC: Patterns, Form
NATURAL characteristics of living things used to classify them, taxonomy, animal kingdom,
WORLD? technological advances affecting models of the world.
Energy, various forms of energy, properties of states of matter, relation between
force and energy, absolute zero, where does energy come from?, types of chemical
Scientific &
HOW DO WE reactions, endothermic & exothermic, direct combination, combustion,
technical 100 2 Hrs
OBTAIN THE decomposition, displacement, combustion of fuels, extraction of fuels, fractional KC: Change innovation
6
ENERGY WE distillation, separation techniques, Internal combustion engine, enzymes, role of RC: Energy
NEED? enzymes in cellular metabolism, Activation energy, Photosynthesis, cellular
respiration, aerobic & anaerobic respiration, gas exchange in plants & animals,
perpetual motion machines, efficiency, Sankey diagrams, energy flow in ecosystems.
Ecology- definition, Organisms (habitat,community, ecosystems, interdependency,
energy transfer,food chains and webs; Biotic and abiotic factors , Trophic levels,,
pyramid of energy, number and biomass, Interactions between organisms -
pathogens/parasites, disease, predator/prey, competition , symbiosis, parasitism,
HOW DO
mutualism with examples, population(growth curve, factors affecting population
HUMANS
growth), Biogeochemical cycles -carbon and nitrogen.
IMPACT THE
ENVIRONME
Human interactions with environments -pollution- Sources and effects of pollution
NT? & HOW KC: Change
(land, air and water) and measure for controlling, eutrophication, effect of non
7 CAN WE USE RC: Environment,
biodegradable plastics, biomagnification, acid rains, greenhouse effect, global Consequences
SCIENCE TO
warming and climate change Food supply(technology use in increasing food
MAKE A
production, negative impacts of monoculture and intensive livestock production,
BETTER
habitat change or destruction- Reasons,undesirable effects of deforestation on the
FUTURE FOR
environment
ALL?
Conservation- sustainable resources and development, need to conserve,water
conservation, overexploitation, mitigation of adverse effects, conservation of
endangered species.
 Physics

S.No Unit Topics/Content Concepts Global context Max Marks Duration
System of units, Measurement of length, mass, time, volume, density;
Orders of magnitude, Scientific notation, Rounding off,
Significant figures,Errors- systematic and random errors,Accuracy and precision,
Suffixes and Prefixes ,
1 MEASUREMENTS
Inquiring and designing an investigation, Hypothesis, Independent, Dependent variables KC:
& Control variables, Relationships
Experimental methodology, Scientific processes and reporting. RC: Patterns,
Evidence
Motion, Distance and displacement, Speed and velocity, Acceleration, Graphs
describing motion, Equations of motion for uniform acceleration, Forces, Free-body
diagrams, Kinetic and Static friction, Momentum, Newton’s second law expressed in
terms of rate of change of momentum, average speed, uniform and non uniform speed,
acceleration, average acceleration, instantaneous acceleration, deceleration,
momentum, newton's laws of motion, inertia, motion graphs in uniform acceleration,
acceleration due to gravity on a freely falling object, F=ma, force, moment of force, law
2 MECHANICS
of moments, terminal velocity, law of conservation of momentum, collisions, Impulse and
momentum, torque, circular motion and gravitation, centripetal force, centrifugal force,
centripetal acceleration, Newton's law of gravitation, gravitational field strength. Work,
Power and Energy, Kinetic energy, Gravitational potential energy, Elastic potential KC:
energy, Work done as energy transfer, Power as rate of energy transfer, Principle of Relationships
conservation of energy, Efficiency, Thermal power stations, Power from water and wind. RC: Interactions,
Pressure in solids and liquids, and density Movement
Waves - Transverse and Longitudinal waves, Oscillations, Compressions and
Rarefactions; Speed, Frequency, Wavelength and Amplitude; Wave equation; Wave KC:
effects - Reflection, Refraction, Diffraction; Sound - Nature of sound waves, Echoes, Relationships
3 WAVES
echo location, Measuring the speed of the sound, Refraction of sound, Frequency and RC: Movement,
Pitch, Amplitude and loudness, Quality; Ultrasound - Echo-sounding, Metal testing, Energy
Scanning the womb.
Heat and temperature, energy, types of energy, law of conservation of energy, Scientific &
transformation of energy, work energy relationship, how to measure work done, technical 100 2 Hrs
efficiency, internal combustion engine, thermodynamic equilibrium, laws of innovation
thermodynamics, states of matter, phase changes, boiling point, melting point, freezing
point, triple point, anamalous expansion of water, celsius and fahrenheit, kelvin scale of
temperature (absolute scale), kinetic theory of collisions, activation energy, endothermic
KC: Change
and exothermic reaction, gas laws, ideal gas equation, thermal conductors and
4 THERMAL PHYSICS RC: Energy,
insulators, heat transfer mechanisms, conduction, convection in air and water, emission
Transformations
and absorption of radiation, condensation, evaporation, linear expansion in solids, areal
expansion and cubical or volume expansion, bimetallic strip, thermoelectricity,
thermocouple, seebeck effect, peltier effect and thompson effect. calorimetry, specific
heat capacity and latent heat capacity, sankey diagrams, greenhouse effect, global
warming, climatic energy balance, modelling the climate, fossil fuels, harnessing
renewable energy, consequences of exploitation of energy resources.
Electric fields, Charge, Electric field, Coulomb’s law, Electric current, Direct current (dc),
Potential difference, Heating effects of electric currents, Series & paralle circuit
KC: Systems
diagrams, Resistance expressed as RI = V, Ohm’s law, Resistivity, Power dissipation,
ELECTRICITY & RC:
5 Electric cells, Internal resistance, Terminal potential difference, Electromotive force
MAGNETISM Development,
(emf), Magnetic effects of electric current, Magnetic fields, Magnetic force,
Interaction
ELECTROMAGNETIC INDUCTION, Electromotive force (emf), Magnetic flux, Faraday’s
law of induction, Lenz’s law, self induced emd and mutual induction and Transformers.
Atomic structure, size of an atom, discovery of subatomic particles, Models of atomic
structure, Nuclear physics, Atomic number, mass number, Isotopes, Fundamental
KC: Change
particles, N/P ratio, Binding energy, average binding energy, nuclear stability, Mass
RC:
6 ATOMIC PHYSICS defect, Nuclear radiation, Alpha-, Beta- and Gamma radiation, Simulation with dice on
consequence,
radioactivity, half life, carbon dating, Artificial and natural transmutation, nuclear fission,
Environment
nuclear fusion, rate of disintegration, nuclear reactor, chain reaction, G M counter for
detecting radiation
 Chemistry

Unit Topics/Content Concepts Global context Max Marks Duration
Matter (states and properties of matter;
particle/kinetic theory, diffusion; ) Pure and
impure substances (types of mixtures
[solutions, oils, alloys, emulsions];
1: The Particulate separation techniques, including: filtration,
Nature of Matter distillation [including crude oil
chromatography,osmosis],
Atomic structure [including isotopes];
electron configuration and valency) Key concept :Relationships
Related Concept : evidence
Periodic table (metals and non-metals;
transition metals, noble gasses, trends,
periods, groups)
2. Periodic table and Bonding (Ionic , Covalent, metallic
Bonding bonding, gaint covalent structures, Key concept :Systems
properties of Ionic and covalent Related Concept : patterns
compounds ,writing chemical formulas and
names of compounds)

Chemical reactions and the conservation
of mass; balancing equations, the mole
concept, and chemical calculations. (mole-
mass, mole-particles, mole-volume
3.The mole concept
conversions. Concentration of solutions,
and stoichiometry
Empirical formula, molecular formula,
percentage yield, percentage purity.)
Qualitative and quantitative analysis Key Concept :Change
related Concepts : Evidence Scientific and technical
100 2 Hrs
The Atmosphere innovation
Environmental impact of chemical
processes
4.Environmental Pollution and its control Key Concepts :Systems
Chemistry Carbon, Nitrogen Cycles Realted Concept : Consequences
Sustainable chemistry and green
Chemistry principles

Chemical reactions and the conservation
of mass; balancing equations, Energy
changes in reactions, endo- and
5.Chemical Key Concept :Systems
exothermicity; combustion of fuels).
Reactions Related Concept : Energy, consequences
Reaction kinetics [rates, and factors
affecting rates/collision theory, reversible
reactions and equilibrium.
Acids and Bases, neutral solutions,
Key Concepts :Relationships
6. Acids and Bases acid/base reactions, pH and indicators,
Realted concepts : Interactions, consequences
formation of salts, uses of salts
 Redox reactions, reactivity series;
extraction of metals, and corrosion, Key Concept: Systems
7. Redox reactions
electrochemical cells, Realted concepts : Consequences, Interaction

International Union of Pure and Applied
Chemistry (IUPAC naming and
Key Concepts :Relationships
8.Organic Chemistry classification of: alkanes, alkenes,
Realted concepts :Models, patterns
alcohols, carboxylic acids, and esters;
structural formulas) polymers
 Biology

Unit Topics/Content Concepts Global context Max Marks Duration

Cells (tissues, organs, systems, structure and function),Characteristics of
living things, Basic Cell structure, cell theory,functions of main cell
organelles. prokaryotic cells and eukaryotic cells, differences between
plant and animal cell, Levels of organization,Hierarchy of life, Parts of light
microscopes to magnify specimens-calculate magnification.
Stem cells Specialized cells -adaptations and functions(ciliated cell,root
hair cell,sperm and egg cell,palisade cell and mesophyll, red blood cell.
Biodiversity:Classification systems based on morphology, anatomy,
evolutionary relationship, molecular basis.
How is life
Binomial Nomenclature,Species definition, 5 kingdom classification, KC:Relationships
organised(Cell
structure and features of bacteria, protista, fungi RC: Patterns, changes
biology)
Features and adaptations of Vertebrates and Invertebrates (Annelids,
Nematodes,Molluscs, Arthropods-Insects, Crustaceans, Arachnids,
Myriapods)
Plant kingdom- mosses, ferns, conifers and angiosperms, difference
between monocot and dicot. structure of virus,construction and use of
dichotomous key.
Movement in and out of cells -Diffusion, factors affecting diffusion,
Osmosis, facilitated,active and passive transport, Osmolarity(isotonic,
hypertonic, hypotonic), Surface area volume ratio
How does biomolecules interact: Biomolecules-carbohydrates, Proteins,Lipids,
Vitamins and Minerals,Food tests, Water as solvent.Metabolism(Anabolism and
catabolism) Aerobic and anaerobic, word and chemical equations, differences,
What Chemical structure of mitochondria, ATP,Uses of energy in biological systems."Biochemistry :
KC:Systems
process support Enzymes- Enzymes as biological catalysts, effect of temperature, pH and enzyme
concentration on rate of reaction, Lock and key model of Enzyme action, RC : Transformations ,
life: Molecular mechanism of enzyme action,Commercial application of enzymes cell respiration Energy
biology Photosynthesis-Definition, word and chemical equation, structure of leaf with
functions and adaptations, storage of carbohydrates and investigation of Factors
needed for Photosynthesis-light,carbon dioxide and temperature, limiting factors,
Role of nitrate and magnesium ions in plant nutrition"
Animal physiology I:Nutrition- balanced diet and nutrients, importance,
effects of malnutrition, Macro and micro nutrients, Elements of biological
importance, Digestion: Ingestion, mechanical and chemical digestion,
absorption, assimilation, egestion, structure of teeth and types, dental
decay and care, role of enzymes in digestion-HCl, bile, amylases,
proteases and lipases, Structure and role of villi in absorption. deamination
How do
and detoxification, cholera and diarrhea
organisms KC:Systems
Features of gas exchange surfaces in alveoli, respiratory system parts,
sustain RC : Environment, Balance
role of cartilage in trachea, ribs,costal muscles and diaphragm in
themselves
ventilation, differences between inspired and expired air, role of goblet
cells, mucus and ciliated cells, test for carbon dioxide and effects of
physical activity on rate and depth of breathing
Homeostasis-Concept of negative feedback control, Regulation-blood
glucose concentration, temperature , symptoms of Type 1 diabetes and
treatment
 Nervous system- central and peripheral, structure of neuron and types,
receptors, reflex arc and action, nerve impulse of transmission, Sense
organ-structure of eye and ear. Hormones-definition and types(exocrine
and endocrine), features of hormones, role of adrenaline, insulin, estrogen
How organisms and testosterone ;Tropism in plants, Transport in plants-Xylem and KC: Change
adapted survive phloem, structure of leaf and adaptations, Photosynthesis-Definition, word RC: environment , Interaction
and chemical equation, structure of leaf with functions and adaptations,
storage of carbohydrates and investigation of Factors needed for Scientific and
Photosynthesis-light,carbon dioxide and temperature, limiting factors, Role technical 100 2 Hrs
of nitrate and magnesium ions in plant nutrition innovation
Reproduction, Cell division, evolution and biotechnology: Reproduction -
definition of sexual and asexual(budding, binary fission, regeneration),
advantages and disadvantages, Puberty changes

Reproduction in plants-Flower,pollination and fertilization,seed structure
How do and dispersal, germination,
KC: Change
different forms
RC: environment , Interaction
of life arisen Human reproductive system- Male and female parts along with functions,
male and female gametes structure and function, fertilization ,
implantation, role of placenta, umbilical cord, amniotic sac and fluid, growth
and development of fetus, labor and birth, advantages and disadvantages
of breast feeding, Sex hormones-menstrual cycle, role of testosterone and
estrogen), birth control methods, IVF, sexually transmitted infection-HIV ,
Genetics:Nucleic acids-Definition,Structure of DNA/RNA with differences, Central
dogma of life, nucleotide structure, nitrogenous bases, watson and crick model of
DNA, types of RNA(messenger,ribosomal and transfer) basis of genetics, various
How do terminologies such as inheritance, gene, genome, phenotype, genotype, dominant,
characteristics recessive, allele, locus, homozygous, heterozygous,chromosomes, haploid, diploid,
autosome, allosome, sex determination in humans, monohybrid cross, construction KC: Relationships
pass from one of punnett square, codominance, codominance,Pedigree chart, testcross,sex linked RC: Models, patterns
generation to characteristics.Cell division- Cell cycle, mitosis-definition,stages and importance
another meiosis-definition, role of meiosis in creating variation, difference between mitosis
and meiosis.
Variation: Definition, Phenotypic and genetic variation, continuous and
discontinuous variation, mutation and mutagens, sickle cell anemia example.
How does Biotechnology (genetic modification)- use of bacteria in genetic engineering,steps
biotechnology in genetic engineering, advantages and disadv
KC: Change
create new
RC: Development,
options in
transformation
industry and
health
 Ecology- definition,Organisms (habitat,community, ecosystems, interdependency,
energy transfer,food chains and webs; Biotic and abiotic factors , Trophic levels,,
pyramid of energy, number and biomass competition Interactions between
organisms -pathogens/parasites, disease, predator/prey, population(growth curve,
factors affecting population growth),symbiosis, parasitism, mutualism with
examples for each effect of non biodegradable plastics, acid rains, greenhouse
effect, global warming and climate change. Biogeochemical cycles -carbon and
nitrogen Conservation- sustainable resources and development, need to conserve,
How do species KC: Systems
water conservation, overexploitation, mitigation of adverse effects, conservation of
interact endangered. RC: Balance, function
Human interactions with environments -pollution- Sources and effects of pollution
(land, air and water) and measure for controlling, eutrophication, effect of non
biodegradable plastics, biomagnification, acid rains, greenhouse effect, global
warming and climate change Food supply(technology use in increasing food
production, negative impacts of monoculture and intensive livestock production,
habitat change or destruction- Reasons,undesirable effects of deforestation on the
environment
Microorganisms and Disease, Vaccination , immunity
Bacteria, viruses, fungi, and protists
Pathogens and the immune response
Factors KC: relationships
Vaccines and antibiotics
affecting Rc: Consequences ,
Emerging diseases and global health issues
Human health interactions
Excretory system
Ciculatory system/cardioovascular system
Musculoskeletal system

Musculoskeletal system
ECOLOGY:
 Integrated humanities

Unit Topics/Content Concepts Global context Max Marks Duration
Conflict resolution 1. Civil Rights Movement in America,South Africa and India
towards a fairer world 2. Cause and effects
3. The course of the events related to the movements
4. Case studies[Aparthied movement and Indian Independence Movement - Change, Causality, Equity
Gandhian phase)
5. Case studies: Significant individuals - Mahatma Gandh, Nelson Mandela
and Martin Luther king Jr.
Endeavour to regain 1. Sustainable management of natural environments: Tropical rainforest,
the lost systems Savanna Grasslands
2. Locational factors, characteristics of plants, animals and indigenous people,
Changes in biomes, Management of biomes for the sustainability
3. Sustainable management of Urban systems:
4. Urbanization, urban migration push-pull factors Urban sprawl, urban land- Systems, Innovation and Revolution,
use models, Megacities, Sustainability
5. Urban challenges and solutions for sustainability with governments and
other social agents intervention
6. Human interactions and their impacts on biomes [urbanization].

Peace and Conflict 1. Causes and effects of Wars - World War - 1, World War -2 and the Cold
War in the twentieth century
Global Interaction, Cooperation, Scientific and technical innovation 80 2 Hrs
2. Supranational Organizations/Institutions Causality
3. Significant Individuals

Demographics and 1. Change in population over time [reasons and effects]
their Inventiveness 2. Population pyramids and models Migration [types, reasons and effects]
3. Significant individuals [Thomas Rober Malthus, Ester Boserup] Time, Place and Space, Choice,
4. Significant individual - An influential person Case studies on Population Processes
migration
5. Trade, aid, flows and exchange
Evolving for 1. Indicators of Economic Growth and Development” Meaning and differences
sustaining (Economic between Economic Growth and Development
Growth and 2. Pre-requisites or conditions required for growth [Economic and Non-
Development Economic Conditions] Indicators used for measuring Growth and development
Indicators)
3. Characteristics of LEDC and MEDC (Less Economically Developed and
More Economically Developd Countries)
Systems, Equity, Growth
4. A Comparative Analysis Some Strategies adopted for achieving Economic
growth Issues/ Challenges faced by the Developing Economies
5. Vicious Circle of Poverty Unemployment Over Population Inequitable
distribution of Income and Wealth
6. Policies adopted to deal with these Some success stories (case studies) of
nations related to Economic Development.
 Hindi Language acquisition

Unit Topics/Content Concepts Global context Max Marks Duration
House and home (मकान और घर), Local area ( थानीय े ),
Holidays (छु टयां), Culture and communities (सं कृ त और
समुदाय)
Local area, travel and tourism ( थानीय े , या ा और पयटन)
Connections. development
Technology and the media ( ौ यो गक और मी डया) Technology and Social Media , Mobile technology
Scientific and
Social media Connection technical
innovation 72 2 Hrs
 Spanish Language acquisition

Emergent Unit Topics/Content Concepts Global context Max Marks Duration
House and home
Local area
Holidays
Local area, travel and tourism Culture and communities
Mobile technology
Social media
Technology and the media
The weather
The environment
Global issues
The world we live in Scientific and technical innovation 72 Marks 1 Hr 45 mins
Self, family, friends
Free time and leisure
Food and drink and health
Festivals and celebrations
Identity and culture

Capable Unit Topics/Content Concepts Global context Max Marks Duration
Yo, mis familiares y amigos
El tiempo libre y el ocio
La identidad y la cultura
La alimentación, el consumo de bebidas y la salud
Los festivales y las celebraciones Culture
La casa y el hogar
La innovación científica y técnica 72 2 Hrs
El área local
El área local, los viajes y el turismo
Las vacaciones
La cultura y las comunidades Connection
La tecnología móvil
La tecnología y los medios de comunicación
Las redes sociales Communication
 French Language acquisition - Emergent

Unit Topics/Content Concepts Global context Max Marks Duration

Moi, ma famille, mes amis
Temps libre et loisirs
Alimentation, boissons et santé Communication , purpose ,
Identité et culture Fêtes et célébrations meaning

Vie scolaire
Projets d’avenir
Éducation et monde du travail Emplois Culture , Function , pattern 72 M 2 Hrs
Le monde dans lequel nous Météo Environnement Questions
vivons mondiales
Maison et habitat Vie locale
Vacances
Culture et communautés

Vie locale, voyage et tourisme Connections. development
Technologie et médias
Technologie mobile Médias sociaux Innovation scientific et technique.
Capable
Unit Topics/Content Concepts Global context Max Marks Duration
Moi, ma famille, mes amis
Temps libre et loisirs
Alimentation, boissons et santé
Identité et culture Fêtes et célébrations Culture
Maison et habitat
Vie locale
Vacances
Vie locale, voyage et tourisme Culture et communautés Communication
Technologie mobile
Technologie et médias Médias sociaux Lien Innovation scientific et technique 72 2 Hrs