Basic concepts, composition of the atmosphere, equation of state, hydrostatic equilibrium, first law of thermodynamics, application of first law, entropy, second law, heat capacity, dry adiabatic processes, transfer processes, moist thermodynamic processes in atmosphere, static stability, cloud characteristics and processes, Global energy and entropy balances, thermodynamic feedback in the climate system, thermodynamic diagrams.

The spectrum of electromagnetic radiation; Solid angle, Fundamental of radiometric quantities, Concepts of scattering, absorption and polarization of radiation, Quantitative description of radiation; Blackbody Radiation: The Plank Function, Wiens displacement Law, The StefanBoltzmann Law; Kirchoff’s Law, Radiative equilibrium.

Absorption line profiles: Line formation and line shape, Absorption and emission by gas molecules, Physics of scattering and absorption by particles, Rayleigh Scattering, Raman Scattering, Lorentz-Mie theory of light scattering, Geometric Optics.

Internal Structure of Earth:

Introduction to Earth and formation theories. Seismicity and earth’s interior. Compositional and Rheological divisions of Earth; crust, mantle and core; discontinuities. Mineralogy and Earth Resources. Minerals, ores, petroleum, coal and natural gas- their origin, structure and composition, accumulation/migration, source/reservoir rocks, distribution in space and time. General physical, chemical and optical properties of common rock forming minerals.

Igneous, Metamorphic and Sedimentary Petrology:

Unit I:

Physical properties of Sea water, density of sea water, density parameters, specific volume anomaly, Temperature, Salinity, Cholorinity and their determination, distribution of temperature, salinity and density in space and time, The oceanic Mixed Layer and Thermocline, Sea level variation, acoustical and optical properties of sea water, Formation and classification of water masses, T-S diagram and Water masses of the world ocean.

Concept of fluid, Continum model, Lagrange and Eulerian description of fluid flow, continuity, momentum and energy equations, boundary layer theory, turbulent flow, Inertial

State of the atmosphere; Main constituents of dry air, Vertical thermal structure of the atmosphere; Standard atmosphere; Hydrostatic equilibrium; Weather and its phenomena – Winds, cyclones, precipitation, hydrologic cycle; Surface weather and vertical structure;

Elements of radiative transfer in atmosphere- Basic quantities, Blackbody radiation – basic laws -  Radiative transfer equation, Physics of Gaseous absorption, emission, Scattering, Solar radiation and surface reflection; Radiation balance;

Role of remote sensing in agriculture and soil– SpectralSignatures of vegetation and vegetation/soil indices - application in agriculture: Crop production forecasting, assessment and monitoring of crop growth, damage - Cropping Systems Analysis. Spectral signatures of soil – estimation of nutrient, soil moisture content - passive and active remote sensing methods National missions on agriculture and soil; production forecast (FASAL) Crop Identification Technology Assessment for Remote Sensing (CITARS) NBSS mapping.

Image Formation Models, Monocular imaging system, Orthographic & Perspective Projection , Camera model and Camera calibration , 3D scanning, 3D from RGBD data, Binocular imaging systems Image Processing and Feature Extraction, point cloud processing, Triangulation and partitioning, range search, Structure from motion, Shape Representation and Segmentation , Deformable curves and surfaces , Snakes and active contours , Fourier and wavelet descriptors, , Multiresolution analysis (wavelets, curvelets, countourlets, shearlets ), Object recognition, Hough transforms and other simple object r