Are you searching for the syllabus of UGC NET Environmental Sciences? Here you will get the latest syllabus for the National Eligibility Test (UGC-NET) exam. It will surely help you in the effective preparation of NET Environmental Sciences exam (Paper II, Paper III-A & Paper III-B). CBSE NET Environmental Sciences exam will be conducted by the Central Board of Secondary Education (CBSE). The syllabus given below is based on the latest pattern of the University Grants Commission (UGC) - Environmental Sciences curriculum. We suggest you to check our free online mock tests for UGC NET examinations.
We have listed some of the frequently asked questions (FAQs), asked by the UGC NET (Environmental Sciences) candidates, so that they will get a basic idea of NET (Environmental Sciences) exam pattern.
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Given below is the list of (Core / Elective / Optional) unit wise syllabus for Paper II, Paper III (Part A & B).
Fundamentals of Environmental Chemistry : Stochiometry, Gibb’s energy, Chemical potential, chemical equilibria, acid base reactions, solubility product, solubility of gases in water, the carbonate system, unsaturated and saturated hydrocarbons, radionuclides.
Chemical composition of Air : Classification of elements, chemical speciation. Particles, ions and radicals in the atmosphere. Chemical processes for formation of inorganic and organic particulate matter. Thermochemical and photochemical reactions in the atmosphere. Oxygen and ozone chemistry, Chemistry of air pollutants, Photochemical smog.
Water Chemistry : Chemistry of water, concept of DO, BOD, COD, sedimentation, coagulation, filtration, Redox potential.
Soil Chemistry : Inorganic and organic components of soil, Nitrogen pathways and NPK in soils.
Toxic Chemicals in the environment - Air, Water : Pesticides in water. Biochemical aspects of Arsenic, Cadmium, Lead, Mercury, Carbon Monoxide, Os and PAN Pesticides, Insecticides, MIC, carcinogens in the air.
Principles of Analytical Methods : Titrimetry, Gravimetry, Colourimetry, Spectrophotometry, Chromatography, Gas Chromatography, Atomic Absorption Spectrophotometry, GLC, HPLC, Electrophoresis. X - ray fluorescence, X - ray diffraction, Flame photometry.
Definition, Principles and scope of ecology, Human ecology and Human settlement, Evolution, Origin of life and speciation.
Common flora and fauna in India :
Endangered and Threatened Species :
Environmental Geosciences : Fundamental concepts.
The earth systems and Biosphere : Conservation of matter in various geospheres - lithosphere, hydrosphere, atmosphere and biosphere. Energy budget of the earth. Earth’s thermal environment and seasons. Ecosystems flow of energy and matter. Coexistence in communities-food webs., Earths’major ecosystems terrestrial and aquatic. General relationship between landscape, biomes and climate. Climates of India, Indian Monsoon, El Nino, Droughts. Tropical cyclones and Western Disturbances.
Earth’s Processes and Geological Hazards : Earths processes; concept of residence, time and rates of natural cycles. Catastrophic geological hazards. Study of floods, landslides, earthquakes, volcanism and avalanche. Prediction and perception of the hazards and adjustments to hazardous activities.
Mineral Resources and Environment : Resources and Reserves, Minerals.and Population. Oceans as new areas for exploration of mineral resources. Ocean ore and recycling of resources. Environmental impact of exploitation, processing and smelting of minerals.
Water Resources and Environment : Global Water Balance. Ice sheets and fluctuations of sea levels. Origin and composition of seawater. Hydpological cycle. Factors influencing the surface water. Types of water. Resources of oceans. Ocean pollution by toxic wastes. Human use of surface and groundwaters. Groundwater pollution.
Landuse Planning : The landuse plan. Soil surveys in relation to landuse planning. Methods of site selection and evaluation.
Environmental Geochemistry : Concept of major, trace and REE. Classification of trace elements, Mobility of trace elements, Geochemical cycles. Biogeochemica! factors in environmental health. Human use, trace elements and health. Possible effects of imbalance of some trace elements. Diseases induced by human use of land.
Principles of Remote sensing and its application of Environmental Sciences. Application of GIS in Environmental Management.
Sun as source of energy; solar radiation and its spectral characteristics; Fossil fuels-classification, composition, physico - chemical characteristics and energy content of coal, petroleum and natural gas. Principles of generation of hydroelectric power, tidal, Ocean Thermal Energy Conversion, wind, geothermal energy; solar collectors, photovoltaics, solar ponds; nuclear energy - fission and fusion; magnetohydrodynamic power, bio-energy-energy from biomass and biogas, anaerobic digestion; energy use pattern in different parts of the world.
Environmental implication of energy use; C02 emissions, global warming; air and thermal pollution; radioactive waste and radioactivity from nuclear reactors; impacts of large-scale exploitation of Solar, Wind, Hydro and Ocean energy.
Air : Natural and anthropogenic sources of pollution. Primary and Secondary pollutants. Transport and diffusion of pollutants. Gas laws governing the behaviour of pollutants in the atmosphere. Methods of monitoring and control of air pollution SOz, NOx, CO, SPM. Effects of pollutants on human beings, plants, animals, materials and on climate. Acid Rain. Air Quality Standards.
Water : Types, sources and consequences of water pollution. Physico - chemical and Bacteriological sampling and analysis of water quality. Standards, sewage and waste water treatment and recycling. Water quality standard.
Soil : Physico - chemical as bacteriological sampling as analysis of soil quality. Soil Pollution Control. Industrial waste effluents and heavy metals, their interactions with soil components. Soil micro - organisms and their functions, degradation of different insecticides, fungicides and weedicides in soil. Different kinds of synthetic fertilizers ( NP & K ) and their interactions with different components of soil.
Noise : Sources of noise pollution, measurement of noise and Indices, effect of meteorological parameters on noise propagation. Noise exposure levels and standards. Noise control and abatement measures. Impact of noise on human health.
Marine : Sources of marine pollution and control. Criteria employed for disposal of pollutants in marine system-coastal management.
Radioactive and Thermal Pollution.
Sources and generation of solid wastes, their characterization, chemical composition and classification. Different methods of disposal and management of solid wastes ( Hospital Wastes and Hazardous Wastes ) Recycling of waste material. Waste minimization technologies.
Hazardous Wastes Management and Handling Rules, 1989, Resource Management, Disaster Management and Risk analysis.
Environment protection-issues and problems, International and National efforts for Environment Protection, Provision of Constitution of India regarding Environment ( Article 48A and 58A ).
Environmental Policy Resolution, Legislation, Public Policy Strategies in Pollution Control, Wildlife Protection Act, 1972 amended 1991, Forest Conservation Act, 1980, Indian Forests Act ( Revised ) 1982, Air ( Prevention and Control of Pollution ) Act, 1981 as amended by Amendment Act, 1987 and Rule 1982, Motor Vehicle Act, 1988, The Water ( Prevention and Control of Pollution ) Act, 1974 as amended up to 1988 and Rules 1975, The Environment ( Protection ) Act, 1986 and Rules 1986.
Scheme of labelling of environmentally friendly products ( Ecomark ), Public Liability Insurance Act, 1991 and Rules 1991.
Basic elements and tools of statistical analysis; Probability, sampling, measurement and distribution of attributes; Distribution-Normal, t and x* Poisson and Binomial; Arithmetic, Geometric and Harmonic means; moments; matrices, simultaneous linear equations; tests of hypothesis and significance.
Introduction to environmental system analysis; Approaches to development of models; linear simple and multiple regression models, validation and forecasting. Models of population growth and interactions - Lotka - Volterra model, Leslie’s matrix model, point source stream pollution model, box model, Gaussian plume model.
What is the most abundant anion in river water?
Which one of the following places is likely to be affected by chemical weathering?
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Note You can easily download UGC NET (Environmental Sciences) syllabus in PDF format form the official website of the University Grants Commission (UGC) by simply clicking on the subject (Environmental Sciences) link on the UGC syllabus page.