Biology
ACELLULAR LIFE
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Viruses
- Classify viruses on basis of their structure/ number of strands/diseases/ hosts etc.
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AIDS and HIV Infection
- Identify symptoms, mode of transmission and cause of viral disease (AIDS)
BIOENERGETICS
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Respiration
- Outline the cellular respiration of proteins and fats and correlate these with that of glucose.
BIOLOGICAL MOLECULES
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Biological molecules
- Define and classify biological molecules.
- Discuss the importance of biological molecules
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Biological Importance of Water
- Describe biologically important properties of water (polarity, hydrolysis, specific heat, water as solvent and reagent, density, cohesion/ionization)
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Carbohydrates
- Discuss carbohydrates: monosaccharaides (glucose), oligosaccharides (cane sugar, sucrose, lactose), polysaccharides (starches, cellulose, glycogen)
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Proteins
- Describe proteins: amino acids, structure of proteins
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Lipids
- Describe lipids: phospholipids, triglycerides, alcohol and esters (acylglycerol)
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Ribonucleic acid (RNA)
- Give an account of structure and function RNA
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Conjugated molecules
- Discuss conjugated molecules (glycol lipids, glycol proteins)
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Structure of DNA
- Explain the double helical structure of DNA as proposed by Watson and Crick.
- Define gene is a sequence of nucleotides as part of DNA, which codes for the formation of a polypeptide.
CELL STRUCTURE & FUNCTION
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Cell structure
- Compare the structure of typical animal and plant cell
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Prokaryotic and Eukaryotic cell
- Compare and contrast the structure of prokaryotic cells with eukaryotic cells
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Cytoplasmic Organelles
- Outline the structure and function of the following organelles: nucleus, Endoplasmic reticulum, Golgi apparatus a Mitochondria
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Chromosomes
- Describe the structure, chemical composition and function of chromosomes.
COORDINATION & CONTROL
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Receptors
- Recognize receptors as transducers sensitive to various stimuli.
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Nervous Coordination
- Explain the structure of a typical neuron (cell body, dendrites, axon and myelin sheath)
- Define nerve impulse
- Classify reflexes
- Briefly explain the functions of components of a reflex arc
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Brain
- Discuss the main parts of the brain (e.g., components of brain stem, mid brain, cerebellum, cerebrum)
- Describe the functions of each part.
ENZYMES
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Enzymes
- Describe the distinguishing characteristics of enzymes
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Mode of Enzyme Action
- Explain mechanism of action of enzymes
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Factors that Affect the Rate of Enzyme Reactions
- Describe effects of factor on enzyme action (temperature, pH and concentration)
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Inhibitors
- Describe enzyme inhibitors
EVOLUTION
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Concept of Evolution
- Explain origin of life according to concept of evolution
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Lamarckism
- Describe the theory of inheritance of acquired characters, as proposed by Lamarck.
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Darwinism
- Explain the theory of natural selection as proposed by Darwin
REPRODUCTION
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Human Reproductive system
- Describe the functions of various parts of the male & female reproductive systems and the hormones that regulate those functions
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Menstrual cycle
- Describe the menstrual cycle (female reproductive cycle) emphasizing the role of hormones
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Sexually transmitted diseases
- List the common sexually transmitted diseases along with their causative agents and main symptoms
SUPPORT & MOVEMENT
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Human skeleton
- Describe cartilage, muscle and bone
- Explain the main characteristics of cartilage and bone along with functions.
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Muscles
- Compare characteristics of smooth muscles, cardiac muscles and skeletal muscles
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Skeletal muscles
- Explain the ultra-structure of skeletal muscles
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Muscle contraction
- Describe in brief the process of skeletal muscle contraction
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Joints
- Classify joints
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Arthritis
- Define arthritis
INHERITANCE
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Mendel's laws of Inheritance
- Associate inheritance with the laws of Mendel.
- Explain the law of independent assortment, using a suitable example.
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Gene linkage and crossing over
- Describe the terms gene linkage and crossing over
- Explain how gene linkage counters independent assortment and crossing-over modifies the progeny
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X-linked Recessive inheritance
- Describe the concept of sex-linkage.
- Briefly describe Inheritance of sex-linked traits
- Analyze the inheritance of hemophilia.
CIRCULATION
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Human Heart
- Discuss general structure of human heart
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Cardiac cycle and phases of Heartbeat
- Describe the phases of heartbeat.
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Blood Vessels
- List the differences and functions of arteries, veins and capillaries.
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Lymphatic system
- Describe lymphatic system (nodes, vessels and organs)
IMMUNITY
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Specific Defense Mechanism
- Define and discuss the functions and importance of specific defense mechanisms.
RESPIRATION
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Human Respiratory System
- Discuss the functions of main part of respiratory system.
- Discuss the process of gas exchange in human lungs.
- Discuss the effect of smoking on respiratory system.
DIGESTION
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Human digestive system
- Describe the parts of human digestive system
- Explain the functions of the main parts of the digestive system including associated structures and glands
HOMEOSTASIS
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Homeostasis (kidney specifically)
- Explain different organs of urinary system. Describe the structure of kidney and relate it with its function.
- Explain the processes of glomerular filtration, selective re-absorption and tubular secretion as the events in kidney functioning.
- Justify the functioning of kidneys as both excretion and osmoregulation.
- Compare the function of two major capillary beds in kidney i.e. glomerular capillaries and peritubular capillaries.
- Explain the causes and treatments of kidney stones.
- Outline the causes of kidney failure.
- Describe thermoregulation and explain its needs.
- List various nitrogenous compounds excreted during the process of excretion.
BIOTECHNOLOGY
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Biotechnology and Health Care
- Describe how biotechnologists can combat health problems by producing vaccines.
- State the role played by biotechnology in disease diagnosis (DNA/RNA probes, monoclonal antibodies).
- Describe what products biotechnologists obtain for use in disease treatment.
Chemistry
INTRODUCTION TO FUNDAMENTALS OF CHEMISTRY
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Moles and Avogadro's Numbers
- Construct mole ratios from balanced equations for use as conversion factors in stoichiometric problems.
- Perform stoichiometric calculations with balanced equations using moles, representative particles, masses and volumes of the gases (at ST).
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Limiting and Excess Reactants
- Explain the limiting reagent in reaction
- Calculate the maximum number of products produced and the amount of any un-reacted excess reagent
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Yield
- Given information from which any two the following may be determine, calculate the third: theoretical yield, actual yield, percentage yield.
- Calculate the theoretical yield and the percent yield when given the balanced equation, the amount of reactants and the actual yield.
ATOMIC STRUCTURE
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Discovery of Proton
- Describe discovery and properties of proton (Positive rays)
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Planck's Quantum Theory
- Define Photon as a unit of radiation energy
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Quantum Numbers and Orbitals
- Describe the concept of orbitals.
- Distinguish among Principal energy level, energy sub-level and atomic orbitals
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Shapes of orbitals
- Describe the general shapes of S, P and orbitals.
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Spectrum of Hydrogen
- Describe Hydrogen Atom using the quantum theory
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Electronic Configuration
- Use the Aufbau principle, the Pauli Exclusion Principle and Hund's Rule to write the Electronic Configuration of atoms.
- Write electronic configuration of atom
GASES
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Kinetic Molecular Theory
- List the postulates of Kinetic Molecular Theory
- Describe the motion of particles of the gas according to kinetic theory.
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Standard Temperature and Pressure (STP)
- State the values of standard temperature and pressure (STP)
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Boyle's Law
- Describe the effect of change in pressure on the volume of gas.
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Charles's Law
- Describe the effect of change in temperature on the volume of gas.
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Absolute Zero
- Explain the significance of the absolute zero, giving its value in degree.
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Ideal Gas Equation
- Derive Ideal Gas equation using Boyle's Law, Charle's Law and Avogadro's Law.
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Unit of "R"
- Explain the significance and different units of ideal gas constant.
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Real and Ideal Gas
- Distinguish between Real and Ideal Gases.
LIQUIDS
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Properties Of Liquids based on Kinetic Molecular Theory
- Describe simple properties of liquids e.g diffusion, compression, expansion, motion of molecules, spaces between them, inter molecular forces and kinetic energy based on kinetic molecular theory.
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Evaporation, Boiling point and Vapor Pressure
- Explain physical properties of liquid such as evaporation, vapor pressure, boiling point
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Hydrogen Bonding
- Describe the hydrogen bonding in H2O, NH3 and HF molecules.
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Anomalous behavior of Water
- Anomalous behavior of water when its density shows maximum at 4 degrees centigrade.
SOLID
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Crystalline Solids
- Describe crystalline solid
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Factors Affecting the Shape of Ionic Crystals
- Name three factors that affect the shape of the ionic crystals.
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Difference between Ionic and Molecular Crystals
- Give brief description of ionic and molecular crystals.
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Crystal lattice
- Explain the structure of a crystal lattice
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Lattice Energy
- Define Lattice Energy,
CHEMICAL EQUILIBRIUM
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Chemical Equilibrium
- Define chemical equilibrium in terms of reversible reaction.
- Write both forward and reverse. Describe them macroscopic characteristics of each
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Le Chatelier's principle
- State Le Chatelier's principle and be able to apply it to systems in equilibrium with changes in concentration, pressure, temperature or addition of catalyst.
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Solubility Products
- Define and explain solubility products.
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Common Ion Effect
- Define and explain the common ion effect by giving suitable examples.
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Buffer Solution
- Define buffer solution and explain types of buffers.
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Haber's Process
- Explain synthesis of Ammonia by Haber's process.
REACTION KINETICS
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Chemical Kinetics
- Define chemical kinetics.
- Explain the terms: rate of reaction, rate equation.
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Factors Affecting Rate
- Explain qualitatively factors affecting rate of reaction.
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Order of Reaction
- Give the order with respect to the reactant, write the rate of law for reaction.
- Explain the meaning of the term "activation energy" and "activated complex".
- Relate the ideas of activation energy and the activated complex to the rate of reaction.
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Rate Constant
- Describe the role of the rate constant in the theoretical determination of reaction rate.
THERMOCHEMISTRY AND ENERGETICS
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Thermodynamics
- Define Thermodynamics
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Exothermic and Endothermic Reaction
- Classify reactions as exothermic and endothermic
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Different Terms Used
- Define the terms system, surrounding boundary, state function, heat, heat capacity, internal energy, work done and enthalpy of a substance.
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Internal Energies
- Name and define the units of the Internal energy.
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Law of Thermodynamics
- Explain the first law of thermodynamics of energy conservation.
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Hess's Law
- Apply Hess's Law to construct simple energy cycles.
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Enthalpy
- Describe enthalpy of the reaction
ELECTROCHEMISTRY
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Redox Reaction
- Give the characteristics of a redox reaction.
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Oxidation and Reduction
- Define oxidation and reduction in terms of a change in oxidation number.
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Balancing Chemical Reaction
- Use the oxidation number change method to identify atoms being oxidized or reduced in redox reactions.
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Standard Hydrogen Electrode (SHE)
- Define Cathode, anode, electrode potential and S.H.E
- Define the standard electrode potential of an electrode.
CHEMICAL BONDING
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VSEPR Theory
- Use VSEPR Theory to describe the shapes of the molecules.
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Sigma and Pi Bond
- Describe the features of sigma and pi- bonds.
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Hybridization
- Describe the shapes of simple molecules using orbital hybridization.
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Application of VSEPR Theory
- Determine the shapes of some molecules from the number of the bonded pairs.
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Dipole Movement
- Predict the molecular polarity from the shapes of molecules.
- Explain what is meant by the term ionic character of the covalent bond.
- Describe how knowledge of molecular polarity can be used to explain some physical and chemical properties of the molecules.
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Bond Energy
- Define bond energies and explain how they can be used to compare bonds strength of different chemical bonds.
S- AND P- BLOCK ELEMENTS
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Properties and their Trends
- Define and explain the terms atomic radii, ionic radii, covalent radii, ionization energy, electron affinity, electro negativity, bond energy and bond length.
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S-, P-, D- & F- Block Elements
- Recognize the demarcation of the periodic table into S-block, P-block, D-block and F- block.
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Reaction of Group I, II, IV elements
- Describe reactions of Group I elements with water, oxygen and chlorine.
- Describe reactions of Group II elements with water, oxygen and chlorine.
- Describe reactions of Group IV Elements.
TRANSITION ELEMENTS
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Electronic Structure
- Describe the electronic structures of the elements and ions of d-block Elements.
FUNDAMENTAL PRINCIPLES OF ORGANIC CHEMISTRY
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Definition and Classification
- Define organic chemistry and organic compound.
- Classify organic compounds on structural basis.
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Functional Group
- Define functional group.
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Isomerism
- Explain stereoisomerism and its types.
CHEMISTRY OF HYDROCARBONS
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Nomenclature of Alkanes
- Describe the nomenclature of Alkanes.
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Free Radical Mechanism
- Define Free Radical Initiation, propagation and termination.
- Describe the mechanism of the free radical substitution in alkanes exemplified by Methane and Ethane.
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Nomenclature and Shapes of Alkenes
- Explain the IUPAC nomenclature of alkenes.
- Explain the shapes of the Ethene molecules in terms of Sigma and Pi C-C Bonds.
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Structure and Reactivity of Alkenes
- Describe the structure and reactivity of Alkenes as exemplified by Ethene.
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Preparation of Alkenes
- Explain Dehydration of Alcohols and Dehydrohalogenation of RX for the preparation of Ethane
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Benzene
- Explain the shape of Benzene Molecules (Molecular orbital treatment).
- Define resonance, resonance energy and relative stability.
- Compare the reactivity of benzene with alkanes and alkenes.
- Define addition reactions of benzene and methylbenzene.
- Describe the mechanism of electrophilic substitution in Benzene.
- Discuss chemistry of benzene and methylbenzene by nitration, sulphonation, halogenation, Friedal Craft's Alkylation and acylation.
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Effect of Substituents
- Apply the knowledge of positions of substituents in the electrophilic substitution of benzene.
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Alkynes
- Use the IUPAC naming System of Alkynes.
- Describe the preparation of Alkynes using elimination reactions.
- Describe the acidity of alkynes
- Discuss chemistry of alkynes by hydrogenation, hydro halogenation and hydration.
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Substitution vs Addition
- Describe and differentiate between substitution and Addition reactions.
ALKYL HALIDES
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Nomenclature
- Name Alkyl Halides using IUPAC system.
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Structure and Reactivity
- Discuss the structure and reactivity of RX.
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Substitution vs Elimination
- Describe the mechanism and types of nucleophilic substitution reactions.
- Describe the mechanism and types of elimination reactions.
ALCOHOLS AND PHENOLS
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Nomenclature, structure and reactivity of Alcohol
- Explain nomenclature and structure of Alcohols.
- Explain the reactivity of Alcohols.
- Describe the chemistry of alcohols by preparation of ethers and esters.
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Nomenclature, structure and reactivity of Phenols
- Explain the nomenclature, structure and reactivity of Phenol
- Discuss the reactivity of phenol and their chemistry by electrophilic aromatic substitution.
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Alcohols and Phenols
- Differentiate between an alcohol and phenol.
ALDEHYDES AND KETONES
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Nomenclature and structure
- Explain nomenclature and structure of Aldehydes and Ketones.
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Preparation
- Discuss the preparation of aldehydes and ketones.
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Reactivity of Aldehydes and Ketones
- Describe Reactivity of Aldehydes and Ketones and their comparison.
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Reaction of Aldehydes and Ketones
- Describe Acid and Base catalyzed Nucleophilic addition reactions of aldehydes and ketones.
- Discuss the chemistry of Aldehydes and Ketones by their reduction to alcohols
- Describe oxidation reactions of aldehydes and ketones.
CARBOXYLIC ACIDS
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Nomenclature, Structure and Preparation
- Describe nomenclature, Structure and Preparation of Carboxylic Acid.
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Chemical Reactions/Reactivity
- Discuss reactivity of carboxylic acid.
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Conversion of Carboxylic Acid
- Describe the Chemistry of carboxylic acid by conversion to carboxylic acid derivative: acyl halides, an acid hydrides, esters and reaction involving into conversion of these.
MACRO MOLECULES
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Classification of Proteins
- Explain the basis of classification and structure function relationship of proteins.
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Importance of Proteins
- Describe the role of various proteins in maintaining body functions and their Nutritional importance.
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Enzymes as Biocatalyst
- Describe the role of enzymes as Biocatalyst.
INDUSTRIAL CHEMISTRY
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Adhesive
- Know about types and application of Adhesive.
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Dyes
- Know about types of dies and their uses.
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Polymers
- Know about condensation and addition polymers and their sub-types.
Physics
VECTORS AND EQUILIBRIUM
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Addition of Vectors
- Determine the sum of vectors using perpendicular (Rectangular Components)
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Product of Vectors (Scalar Product)
- Describe Scalar Product of two vectors in term of angle between them
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Product of Vectors (Vector Product)
- Describe Vector product of two vectors in terms of angle between them.
FORCE AND MOTION
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Displacement
- Describe displacement.
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Velocity
- Describe average velocity of objects.
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Displacement-time Graph
- Interpret displacement-time graph of objects moving along the same straight line.
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Acceleration
- Describe acceleration
- Distinguish between uniform and variable acceleration.
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Projectile motion
- Explain that projectile motion is two-dimensional motion in a vertical plane.
- Communicate the ideas of a projectile in the absence of air resistance.
- Explain Horizontal component (VH) of velocity is constant.
- Acceleration is in the vertical direction and is the same as that of a vertically free- falling object.
- Differentiate between the characteristics of horizontal motion and vertical motion
- Evaluate, using equations of uniformly accelerated motion for a given initial velocity of frictionless projectile, the following issues: a. How much higher does it go? b. How far would it go along the level land? c. Where would it be after a given time? d. How long will it remain in air? e. Determine the parameters for a projectile launched from ground height f. Launch angle that results in the maximum range g. Relation between the launch angles that result in the same range.
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Newton's Laws of motion
- Apply Newton's laws to explain the motion of objects in a variety of context.
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Newton's Second Law and Linear momentum
- Describe the Newton's second law of motion as rate of change of momentum.
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Newton's third law of motion
- Correlate Newton's third law of motion and conservation of momentum.
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Collision
- Solve different problems of elastic and inelastic collisions between two bodies in one dimension by using law of conservation of momentum.
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Momentum and Explosive forces
- Describe that momentum is conservational in collision situations.
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Perfectly elastic collision in one dimension
- Identify that for a perfectly elastic collision, the relative speed of approach is equal to the relative speed of separation.
WORK AND ENERGY
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Work
- Describe the concept of work in terms of the product of force F and displacement d in the direction of force
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Energy
- Describe energy
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Kinetic Energy
- Explain kinetic energy
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Potential energy
- Explain the difference between potential energy and gravitational potential energy.
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Absolute potential energy
- Describe that the gravitational potential energy is measured from a reference level and can be positive or negative, to denote the orientation from the reference levels.
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Power
- Express power as scalar product of force and velocity.
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Work energy theorem
- Explain that work done against friction is dissipated as heat in the environment.
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Implications of energy losses
- State the implications of energy losses in practical devices and Efficiency
ROTATIONAL AND CIRCULAR MOTION
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Angular displacement
- Define angular displacement, express angular displacement in radians.
- Define revolution, degree and radian
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Angular Velocity
- Describe the term angular velocity
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Relation between angular and linear quantities
- Find out the relationship between: a. Relation between linear and angular variables b. Relation between linear and angular displacements c. Relation between linear and angular velocities d. Relation between linear and angular accelerations
FLUID DYNAMICS
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Terminal Velocity
- Describe the terminal velocity of an object.
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Fluid Drag
- Define and explain the term fluid drag.
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Fluid Flow
- Define the terms: Steady (Streamline or laminar) flow, Incompressible flow and non-viscous flow as applied to the motion of an ideal fluid.
- Explain that at the sufficiently high velocity, the flow of viscous fluid undergoes a transition from laminar to turbulence conditions
- Describe that majority of practical examples of fluid flow and resistance to motion in fluid involve turbulent rather than laminar conditions
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Equation of Continuity
- Describe equation of continuity Av= constant for the flow of an ideal and incompressible fluid and solve problems using it.
- Identify that the equation of continuity is the form of principle of conservation of mass.
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Bernoulli's Equation
- Interpret and apply Bernoulli's effect in Blood physics.
- Derive Bernoulli's equation for the case of horizontal tube of flow
- Describe the pressure difference can arise from different rates of flow of fluid (Bernoulli's effect).
WAVES
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Motion of wave
- Describe the meaning of wave motion as illustrated by vibrations in ropes and springs.
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Progressive waves
- Demonstrate that mechanical waves require a medium for their propagation while electromagnetic waves do not.
- Describe that energy is transferred due to a progressive wave.
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Characteristics of wave
- Define and apply the following terms to the wave model; medium, displacement, amplitude, period, compression, rarefaction, crest, trough, wavelength, velocity.
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Wave Speed
- Solve problems using the equation: v=fλ.
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Classification of progressive waves
- Compare transverse and longitudinal waves.
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Speed of sound
- Explain that speed of sound depends on the properties of medium in which it propagates and describe Newton's formula of speed of waves.
- Describe the Laplace correction in Newton's formula for speed of sound in air.
- Identify the factors on which speed of sound in air depends.
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Superposition of waves
- Describe the principle of super position of two waves from coherent sources.
- Explain the principle of Superposition
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Interference of sound waves
- Describe the phenomenon of interference of sound waves.
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Stationary waves
- Explain the formation of stationary waves using graphical method
- Define the terms, node and antinodes.
- Describe modes of vibration of strings.
- Describe formation of stationary waves in vibrating air columns.
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Simple Harmonic Motion
- Explain Simple Harmonic Motion (S.H.M) and explain the characteristics of S.H.M.
- Describe that when an object moves in a circle, the motion of its projection on the diameter of a circle is SHM.
THERMODYNAMICS
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Thermal equilibrium, Heat
- Describe that thermal energies transferred from a region of higher temperature to a region of lower temperature.
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Molar specific heat of gas
- Differentiate between specific heat and molar specific heat.
- Define the terms, specific heat and molar specific heats of a gas.
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Work
- Calculate work done by a thermodynamic system during a volume change.
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First law of thermodynamics
- Describe the first law of thermodynamics expressed in terms of the change in internal energy, the heating of the system and work done on the system.
- Explain that first law of thermodynamics expresses the conservation of energy.
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Relation Cp - Cv
- Apply the first law of thermodynamics to derive the relation Cp-Cv=R for an ideal gas
ELECTROSTATICS
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Coulomb's Law
- State Coulomb's law and explain that force between two-point charges is reduced in a medium other than free space using Coulomb's law
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Electric Field
- Describe the concept of an electric field as an example of a field of force
- Calculate the magnitude and direction of the electric field at a point due to two charges with the same or opposite signs
- Sketch the electric field lines for two-point charges of equal magnitude with same or opposite signs
- Describe and draw the electric field due to an infinite size conducting plate of positive or negative charge
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Electric potential
- Define electric potential at a point in terms of the work done in bringing unit positive charge from infinity to that point
- Define the unit of potential
- Derive an expression for electric potential at a point due to a point charge
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Capacitor
- Demonstrate charging and discharging of a capacitor through a resistance
CURRENT ELECTRICITY
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Steady current
- Describe the concept of steady current.
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Ohm's Law
- State Ohm's law.
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Factors on which resistance depends
- Define resistivity and explain its dependence upon temperature.
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Internal resistance of sources
- Explain the internal resistance of sources and its consequences for external circuits.
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Maximum power Output
- Describe the conditions for maximum power transfer.
ELECTROMAGNETISM
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Magnetic flux density/Magnetic field
- Define magnetic flux density and its units.
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Magnetic flux
- Describe the concept of magnetic flux (Phi) as scalar product of magnetic field(B) and area(A)using the relation OB=B.A.
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Motion of charged particle in magnetic field
- Describe quantitatively the path followed by a charged particle shot into a magnetic field in a direction perpendicular to the field.
- Explain that a force may act on a charged particle in a uniform magnetic field.
ELECTROMAGNETIC INDUCTION
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Faraday's Law
- State Faraday's law of electromagnetic induction.
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Lenz's Law
- Account for Lenz's law to predict the direction of an induced current and relate to the principle of conservation of energy.
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Transformer
- Describe the construction of a transformer and explain how it works
- Describe how set-up and step-down transformers can be used to ensure efficient transfer of electricity along cables.
ALTERNATING CURRENT
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Phase of Alternating Current
- Describe the phase of Alternating Current and explain how phase lag and phase lead occur in AC circuits
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AC through Resistor, Capacitor, Inductor
- Explain the flow of AC through resistors, Capacitors and Inductor
-
Electromagnetic waves
- Become familiar with EM spectrum (ranging from radio waves to Gamma rays)
ELECTRONICS
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Rectification
- Define rectification and describe the use of diodes for half and full wave rectifications.
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PN Junction
- Describe the PN Junction and discuss its forward and reverse biasing
DAWN OF MODERN PHYSICS
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Quantum Theory and Radiation
- Explain the particle model of light in terms of photons with energy
ATOMIC SPECTRA
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Atomic Spectra
- Describe and explain atomic spectra/ line spectrum
NUCLEAR PHYSICS
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Composition of atomic nuclei
- Describe a simple model for the atom to include protons, neutrons and electrons
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Spontaneous and random nuclear decay
- Identify the spontaneous and random nature of nuclear decay.
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Half-life and rate of decay
- Describe the term half-life and solve problems using the equation λ=0.693/T(1/2).
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Biological and Medical uses of radiation
- Describe biological effects of radiation state and explain the different medical uses of radiation.
English
READING AND THINKING SKILLS
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Comprehension and Analysis
- Scan to answer short Questions
- Deduce the meanings of the context
- Analyze how a writer/poet uses language to apprehend to the senses for figurative language
FORMAL AND LEXICAL ASPECT OF LANGUAGE
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Vocabulary
- deduce the meaning of difficult words from the context using contextual clues.
- Explore the use of Synonyms with varying shades of meaning used for irony, parody and satire.
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Sentence Structure and Grammar
- Illustrate use of pronoun-antecedent agreement.
- Illustrate use of tenses.
- Illustrate use of infinitives and infinitives phrases.
- Illustrate the use of gerund and gerund phrases.
- Recognize varying position of adverbs in sentences according to their kinds and importance.
- Illustrate use of prepositions of position, time, movements and directions.
- Use in speech and writing, all the appropriate transitional devices.
- Illustrate use of all punctuation marks wherever applicable
- Analyze sentences for different classes and phrases, evaluate how their position in sentences when change meaning and different communication function.
- Recognize and use sentence in version for various purposes.
- Use active and passive voice appropriately in speech and writing according to the required communicative function
- Use direct and indirect speech appropriately in speech and writing according to the required communicative function.
WRITING SKILLS
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Editing and Proofreading
- Proof read and edit their own peers and given text for the error of usage and style.
- Faulty sentence structure
- Subject verb agreement
- Errors of functions and spellings
Logical Reasoning
CRITICAL THINKING
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Argument Evaluation
- Develop logical arguments for the statements to be true or false.
- Give reasons for the right beliefs.
- Identify and critically evaluate false beliefs using logical reasoning.
LETTER AND SYMBOLS SERIES
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Pattern Recognition
- Develop arithmetical operations as per numbers.
- Develop geometrical progression as per numbers
- Develop series/sequential orders as per letter and symbols (according to specific rules).
LOGICAL DEDUCTIONS
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Structured Thinking
- Predict new relations on the basis of given relations.
- Develop new structure on the basis of information in already drawn structures.
LOGICAL PROBLEMS
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Deductive Reasoning
- Infer result of one problem to resolve another problem.
- Develop skills to solve puzzles using different pieces of information to arrive at an answer.
COURSE OF ACTION
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Decision Making
- Develop skills to gather parts of information.
- Use information for making decisions.
- Judge different courses by using arguments
CAUSE AND EFFECT
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Reasoning
- Give reasons for incidents/events and accidents.
- Reject false beliefs through valid arguments.
- Build positive thinking in the society through strong arguments.