Details of AKTU/ UPTU Exam Syllabus 2020

May 5, 2020
Posted by: Editorial Team
Category: Admission, Article, News

UPSEE 2020 Syllabus has been released by the exam conducting authority. AKTU organizes a state level entrance examination. This examination is called the UP State Entrance Examination. It is also called an AKTU Entrance Exam or UPTU Entrance Exam. We can provide you the details of the AKTU/ UPTU Exam syllabus 2020 – Paper 2. If you know about any details of the exam and syllabus check the official website of AKTU and that is https://aktu.ac.in/.

AKTU has released the syllabus of Admission along with the official advertisement for the exam. Candidates must be well aware of the syllabus before applying for the exam. Knowledge about the syllabus of the exam will be very helpful for the candidates in making a perfect strategy for their preparation. When the candidates know about the syllabus, they can easily divide their time in such a way that all the sections of the exam are covered before time.

The papers will depend on the B.Tech course candidate is appearing for the exam. The candidates can refer to the following article to know more about the Details of AKTU/ UPTU Exam Syllabus 2020. In this article, we have updated the brief information about the AKTU syllabus.

Btech Syllabus Of Physics (Paper 2)

There are various types of topics related in the subject of physics that are Current Electricity, Electrostatics, Electromagnetic Induction, Gravitation, Heat and Thermodynamics, Laws of Motion, Linear Momentum and Collisions, Measurement, Motion in One Dimension, Motion in Two Dimensions, Mechanics of Solids and Fluids, Magnetic Effect of Current, Magnetism in Matter, Modern Physics, Oscillatory Motion, Rotation of a Rigid Body about a Fixed Axis, Ray Optics and Optical Instruments, Work, Power and Energy, Wave, and Wave Optics and the full details of the syllabus are given below in the form of numbering:-

1. Measurement

Dimensional analysis and error estimation
Dimensional compatibility and significant figures

2. Motion in one dimension

Average velocity
Instantaneous velocity
One-dimensional motion with constant accelerations
Freely falling bodies

3. Laws of Motion

Force and inertia
Newton’s laws of motion and their significance.

4. Motion in two dimensions

Projectile motion
Uniform circular motion
Tangential and radial acceleration in curve-linear motion
Relative motion and relative acceleration.

5. Work, Power and Energy

Work was done by constant and variable forces
Kinetic and potential energy
Power
Conservative and non-conservative forces
Conservation of energy
Gravitational energy
Work-energy theorem
Potential energy stored in a spring.

6. Linear Momentum & collisions

Linear momentum & impulse
Conservation of linear momentum for a two-particle system
Collisions
Collision in one dimension
Collision in two dimensions
Rocket propulsion.

7. Rotation of a rigid body about a fixed axis

Angular velocity and angular acceleration
Rotational kinematics
Rotational motion with constant angular acceleration
Relationship between angular and linear quantities
Rotational energy
Moment of inertia for a ring
Moment of inertia for a rod
Moment of inertia for a spherical shell
Moment of inertia for a sphere and plane lamina
Torque and angular acceleration
Work and energy in rotational motion
Rolling motion of a solid sphere and cylinder.

8. Gravitation

Gravitational field, Kepler’s laws and motion of planets
Planetary and satellite motion
Geostationary satellites.

9. Oscillatory motion

Harmonic motion
Oscillatory motion of a mass
Kinetic & potential energy
Period of a simple pendulum
Comparing simple and harmonic motion
Uniform circular motion
Forced oscillations
Damped oscillations and resonance.

10. Mechanics of solids and fluids

States of matter young’s modulus
Bulk modulus
Shear modulus of rigidity
Variations of pressure with depth
Buoyant forces and Archimedes principle
Pascal’s law
Bernoulli’s theorem and its application
Surface energy, surface tension
Angle of contact
Capillary rise
Coefficient of viscosity
Viscous force
Terminal velocity
Stoke’s law
Streamline motion
Reynold’s numbers.

11. Heat and thermodynamics

First law of thermodynamics
Specific heat of an ideal gas at constant volume
Constant pressure
Relation between thermodynamics process
The second law of thermodynamics
Concept of entropy and concept of absolute scale
Efficiency of a Carnot engine
Thermal conductivity
Newton’s law of cooling
Black body radiation
Wien’s displacement law
Stefan’s law.

12. Wave

Wave motion and its phase
Amplitude and velocity of the wave
Newton’s formula for longitudinal waves
Propagation of sound waves in air
Effect of temperature and pressure on the velocity of sound
Laplace’s correction
Principle of superposition
Formation of standing waves
Standing waves in strings and pipes and beats
Doppler’s effect.

13. Electrostatics

Coulomb’s law
Electric field
Potential due to a point charge
Dipole and its field along axis and perpendicular to an axis
Electric flux
Gauss’s theorem and its applications
Inside hollow conducting sphere, capacitance
Parallel plate capacitor with air and dielectric medium between Plates
Series and parallel combination of capacitors
Energy of a capacitor
Displacement currents

14. Current Electricity

Concept of free and bound electrons
Drift velocity and mobility
Electric current
Ohm’s law
Resistivity, conductivity, temperature dependence of resistance, resistance in series and parallel combination
Kirchoff’s law and their application to the network of resistances
Principle of potentiometer
Effect of temperature on resistance and its application.

15. Magnetic Effect of Current

Magnetic field due to current
Biot-Savart’s law
Magnetic field due to solenoid
Motion of charge in a magnetic field
Force on a current-carrying conductor
Magnetic field of torque on a current loop
Magnetic flux, forces between two parallel current-carrying conductors
Ammeter and voltmeter into moving coil galvanometer and its conversion

16. Magnetism in Matter

Spin motions of electrons and Magnetization of substance due to orbita
Magnetic moment of atoms
Diamagnetism
Paramagnetism
Ferromagnetism
Components and measurement of Earth’s magnetic field.

17. Electromagnetic induction

Induced e.m.f.
Faraday’s laws
Lenz’s law
Electromagnetic induction
Self and mutual induction
B-H curve, hysteresis loss and its importance
Eddy currents

18. Ray Optics and optical instruments

Sources of light
Luminous intensity
Luminous flux
Illuminance
Photometry
Wave nature of light
Huygen’s theory for the propagation of light and rectilinear propagation of light
Reflection of light
Total internal reflection
Reflection and refraction at spherical surfaces
Focal length of a combination of lenses
Spherical and chromatic aberration and their removal
Refraction and dispersion of light due to a prism
Simple and compound microscope
Reflecting
Refracting telescope
Magnifying power and resolving power

19. Wave Optics

Coherent and incoherent sources of light
Interference
Young’s double-slit experiment diffraction due to a single slit
Linearly polarized light
Polaroid

20. Modern Physics

Photo-electric equation
Matter waves
Quantization
Planck’s hypothesis
Bohr’s model of hydrogen atom and its spectra
Ionization potential
Rydberg constant, solar spectrum and Fraunhofer lines
Fluorescence and phosphorescence
X-Rays and their productions, characteristic and continuous spectra

21. Nuclear Instability

Radioactive decay laws
Emission of alpha, gamma, beta rays
Mass – a defect, Mass Energy equivalence
Nuclear Fission Nuclear Reactors
Nuclear Fusion

22. Classification of conductors

Insulators and semiconductors based on energy bands in solids
PN junction
PN Diode
Junction Transistors
Transistor as an amplifier and Oscillator

23. Principles of Logic Gates (AND, OR and NOT)

Analog Vs Digital communication
Difference between Radio and television
Signal propagation
Principle of Laser and Maser
Population Inversion
Spontaneous and Stimulated Emission

Syllabus of Chemistry (Paper 1)

There are various types of topics related in the subject of chemistry and that is Atomic Structure, Chemical Bonding, Acid-Base Concepts, Colloids, Colligative Properties of Solution, Isomerism, IUPAC, Polymers, Redox Reactions, Electrochemistry, Catalysis, Chemical Equilibrium and Kinetics, Periodic Table, Thermochemistry, General Organic Chemistry, Carbohydrates, Solid State, Petroleum. This is the full details of the syllabus are given below in the form of numbering:-

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1. Atomic Structure

Bohr’s concept
Quantum numbers
Electronic configuration
Molecular orbital theory for homonuclear molecules
Pauli’s exclusion principle

2. Chemical Bonding

Electrovalency
Co-valency
Hybridization involving s,p and d orbitals hydrogen bonding

3. Red-ox Reactions

Oxidation number
Oxidizing and reducing agents
Balancing of equations

4. Chemical Equilibrium and Kinetics

Equilibrium constant
Le Chaterlier’s a principle
Ionic equilibrium
Ostwald’s dilution law
Hydrolysis
pH and buffer solution
Solubility product
Common-ion effect
Rate constant and first-order reaction

5. Acid-Base Concepts

Bronsted Lowry & Lewis

6. Electrochemistry

Electrode potential and electrochemical series

7. Catalysis

Types and applications

8. Colloids

Types and preparation
Brownian movement
Tyndall effect
Coagulation and peptization

9. Colligative Properties of Solution

Lowering of vapour pressure
Osmotic pressure
Depression of freezing point
Elevation of boiling point
Determination of molecular weight

10. Periodic Table

Classification of elements based on electronic configuration
Properties of s,p and d block elements
Ionization potential
Electronegativity & electron affinity

11. Preparation and Properties

Hydrogen peroxide
Copper sulphate
Silver nitrate
Plaster of Paris
Borax
Mohr’s salt
Alums
White and red lead
Microcosmic salt and bleaching powder
Sodium thiosulphate

12. Thermochemistry

Exothermic & endothermic reactions Heat of reaction
Heat of combustion & formation
Neutralisation
Hess’s law

13. General Organic Chemistry

Shape of organic compounds
Inductive effect
Mesomeric effect
Electrophiles & nucleophiles

14. Reaction intermediates

Carbonation
Carbanions & free radicals
Types of organic reactions
Cannizzaro Friedel Craft
Perkin
Aldol condensation

15. Isomerism

Structural
Geometrical & Optical

16. IUPAC

Nomenclature of simple organic compounds.

17. Polymers

Addition & condensation polymers

18. Carbohydrates

Monosaccharides

19. Preparation and Properties

Hydrocarbons
Monohydric alcohols
Aldehydes, ketones
Monocarboxylic acids
Primary amines
Benzene
Nitrobenzene
Aniline
Phenol
Benzaldehyde
Benzoic acid
Grignard Reagent

20. Solid State

Structure of simple ionic compounds
Crystal imperfections
Born-Haber cycle

21. Petroleum

Important industrial fractions
Cracking
Octane number
Anti knocking compounds

Structure of simple ionic compounds
Crystal imperfections
Born-Haber cycle

Syllabus of Biology/ Zoology (Paper 2)

There are various types of topics related to the subjects in Animal Physiology and that is Origin of Life, Organic Evolution, Mechanism of Organic Evolution, Human Genetics and Eugenics, Applied Biology, Mammalian Anatomy. This is the full details of the syllabus are given below in the form of numbering:-

And here if you want to information about the HITSEEE Exam 2020 Date and other information then click and know about it.

1. Origin of Life

Oparin’s theory
Miller’s Experiment
Viruses – structure, properties, distribution, classification, and pathogenesis
Viroids & Prions
Biotic balance

2. Organic Evolution

The relationship among organisms and Evidence of organic Evolution
Principles of Evolution – Lamarckism, Darwinism, and Speciation

3. Mechanism of Organic Evolution

Variations – Definition, causes and types, Mutations
Role of mutations in speciation
Evolution through ages and human evolution

4. Human Genetics and Eugenics

Human hereditary traits
Study of Twins
A.B.O. blood groups and their inheritance
Rh-factor
Sex determination
Chromosomal aberrations
Important human syndromes
Sex-linked characters and their inheritance
Applied Genetics – eugenics, euthenics, euphenics & I.Q. Test

5. Applied Biology

Wildlife of India – Endangered species
Biosphere Reserves
National Parks and sanctuaries
Project Tiger
Conservation of wildlife
Bio-energy
Poultry
Fisheries (edible fishes)
Human Population
Population explosion
Problems & control
Test – Tube Babies, & Amniocentesis
Application of Biotechnology in human welfare
Human Aging

6. Mammalian Anatomy

Reproductive system Osteology
Structure, and organization of different systems

Syllabus of Animal Physiology (Biology)

There are various types of topics related to the subjects in Animal Physiology and that is Animal Nutrition, Animal Excretion, and Osmoregulation, Respiratory system, Nervous systems, Endocrine System, Circulatory System, Animal Diversity, Protozoa, Porifera, Coelenterata, Aschelminthes, Annelida, Arthropoda. This is the full details of the syllabus are given below in the form of numbering:-

1. Animal Nutrition

Food
Balanced diet
Nutritional imbalances, and deficiency diseases
Digestion
Absorption
Assimilation of food

2. Animal Excretion and Osmoregulation

Chemical nature of excretory products in various animals
Physiology of excretion
The function of liver and kidney
Formation of urine
Osmoregulation by kidneys

3. Respiratory system

Exchange and transport of gases factors affecting O2 and Co2 transport
Cellular respiration
Different lung volumes
Breathing and sound production

4. Nervous systems

Central
Autonomic and peripheral nervous system
Receptors
Effectors
Reflex action
Nature and conduction of Nerve- impulses, Synapse
Sense organs
Structure & working of Eye & Ear
Biochemistry of vision and taste buds

5. Endocrine System

Different endocrine glands and Hormones
Definition, Types, characteristics and their functions
Hormonal disorders and pheromones

6. Circulatory System

Circulation of body fluids
Blood and lymph
Open and closed vascular systems
Structure and working physiology of Heart
Comparison between arteries and veins
Lymphatic system

7. Animal Diversity

Classification of the Animal kingdom

Characteristic features of different phyla and classes with examples.

8. Protozoa

Amoeba- Habit & Habitat
Structure
Locomotion
Reproduction
Osmoregulation
Parasitic amoeba – Entamoeba histolytica and Entamoeba gingivalis
Structure
Diseases caused by them and their control measures
Plasmodium vivax-life-cycle
Malaria therapy and control
Protozoan and diseases

9. Porifera

A simple sponge
A detailed study of structure & physiology
Sponge industry

10. Coelenterata

Hydra – Habit and Habitat
Morphology
Tissue differentiation concerning the physiological division of labor and regeneration

11. Aschelminthes

Ascaris- morphology

life-cycle

Therapy and control.

12. Annelida

Pheretima Posthuma
Bionomics and economic importance

13. Arthropoda

Structure- external and internal
Comparison between Periplaneta and Blatta
Housefly & Mosquito
Structure and life-cycle
Economic importance of insects & their control

Syllabus of Botany (Biology)

There are various types of topics related to the subject of chemistry and that are Plant Cell, Protoplasm, Ecology, Genetics, Seeds in angiospermous plants, Fruits, Cell differentiation Plant Tissue, Anatomy of Root, stem, and leaf, Important phyla and Soil. This is the full details of the syllabus are given below in the form of numbering:-

1. Plant Cell

Structure & functions electron microscopic structured mitochondria
Plastids centrosomes
Lysosomes
Microsomes
Endoplasmic reticulum
Nucleus
Golgi bodies
D.N.A & R.N.A.
Cytoplasm
Membranes and cell wall

2. Protoplasm

Structure

Components physical and chemical properties

Cell division- free cell formation

Amitosis & Meiosis

Duplication of D.N.A.

3. Ecology

Ecological factors
Atmospheric, edaphic, climatic, geological & biotic factors
Ecosystem
Structure and components of the ecosystem
Atmospheric pollution-causes and control
Types of pollution
Detergents
Chemicals automobile exhaust
Radioactive matter
Smog
Sound
Pesticides

4. Genetics

Mendelism
Mendel’s experiment and the law of inheritance
Modern Classification of the plant kingdom

5. Seeds in angiospermic plants

Description of the development of angiospermous plants

6. Fruits

Dispersal of fruits and seeds

7. Cell differentiation Plant Tissue

Meristematic classification of meristematic & permanent tissue and functions
Classification of tissue systems

8. Anatomy of Root, stem, and leaf

Difference between dicot and Monocot stem
Secondary growth of stem and root
Anatomy of hydrophytes
Xerophytes & Mesophytes

9. Important phyla

Algae
Bacteria
Fungi
Bryophyta
Pteridophyta

10. Soil

Absorption of water through root hairs osmosis
Translocation and Root pressure Nitrogen cycle
Special modes of nutrition in plants
Autotrophic and heterotrophic
Parasites and saprophytes
Symbionts insectivorous and their ecological relationships
Chloroplast, light, and chlorophyll
Carbon dioxide
Mechanism of photosynthesis formation of A.T.P. and their functions
Importance of photosynthesis
Mechanism of opening and closing of stomata
Aerobic
Anaerobic respiration
Mechanism of respiration
Growth & movement
Definition of growth
Region of growth & their measurements
Types of movements in plants
Growth hormone

Conclusion

We hope that this blog will help those candidates who want to crack the examination of AKTU/ UPTU 2020. In this blog, we can provide you the Full Details of AKTU/ UPTU Exam Syllabus. The syllabus is the most important way to crack any exam. This blog has all the details of the AKTU/ UPTU Exam syllabus 2020. This blog will help you to clear the AKTU Exam 2020. Students should always focus on their goals So any exam they can clear. Here the details of the Paper 2 syllabus, if you want to know the Paper 1 syllabus then click the given link.

know about the TS EAMCET 2020 and the details in this exam then click the given link.

Details of AKTU/ UPTU Exam Syllabus 2020 – Paper 2