Introduction to Atmospheric Science

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2 STUDENTS

Introduction – Atmosphere-A brief survey (Pressure, Temperature and Chemical composition,Vertical structure of the atmosphere and The Earth system) – Oceans The Earth system and Marine biosphere – The Earth system – Hydrological cycle and Carbon cycle – The Earth system – Carbon cycle contd…, and Carbon in the oceans Earth’s crust – The Earth system — Carbon in the oceans Earth’s crust – Atmospheric Thermodynamics- Introduction – The hydrostatic equation – Hypsometric equation and pressure at sea level – Basic Thermodynamics – Concept of air parcel and dry adiabatic lapse rate – Potential temperature – Skew-T ln-P chart – Problems using Skew-T ln-P chart

Lifting Condensation Level (LCL) – Saturated Adiabatic and Psuedo-adiabatic processes – Equivalent potential temperature and wet bulb potential temperature – Normand’s rule – Chinook winds – Problems on Chinook wind and static stability – Static stability-Brunt-Visala frequency – Conditional and convective instability – Static stability – Problems using radiosonde data and skew T ln P chart – The second law of thermodynamics – Clausius Clapeyron relation – Atmospheric radiation – Radiation laws – Planck’s distribution and Inverse square law – Physics of scattering, emmision and absorption – Radiative Transfer Equation – Derivation – Radiative heating profiles of the atmosphere – Climate Dynamics – Introduction – Climate sensitivity and feedback – Climate change – Atmospheric dynamics

Course Curriculum

Introduction Details 45:58
Atmosphere-A brief survey (Pressure, Temperature and Chemical composition) Details 45:47
Atmosphere-A brief survey contd … (Vertical structure of the atmosphere) Details 48:47
Vertical structure of atmosphere contd … and The Earth system – Oceans Details 47:42
The Earth system – Oceans Contd… and Marine biosphere Details 42:19
The Earth system – Hydrological cycle Details 46:52
The Earth system – Hydrological cycle contd … and Carbon cycle Details 52:21
The Earth system – Carbon cycle contd…, and Carbon in the oceans Earth’s crust Details 55:13
The Earth system — Carbon in the oceans Earth’s crust Details 48:12
Atmospheric Thermodynamics- Introduction Details 50:24
The hydrostatic equation Details 49:58
Hypsometric equation and pressure at sea level Details 50:8
Basic Thermodynamics Details 49:9
Concept of air parcel and dry adiabatic lapse rate Details 44:21
Potential temperature Details 48:18
Skew-T ln-P chart Details 46:48
Problems using Skew-T ln-P chart Details 48:5
Problems using Skew-T ln-P chart Details 40:2
Problems using Skew-T ln-P chart Details 41:2
Lifting Condensation Level (LCL) Details 43:9
Lifting condensation level Contd… Details 46:22
Saturated Adiabatic and Psuedo-adiabatic processes Details 46:43
Equivalent potential temperature and wet bulb potential temperature Details 47:39
Normand’s rule – Chinook winds Details 46:16
Problems on Chinook wind and static stability Details 44:48
Static stability-Brunt-Visala frequency Details 44:43
Conditional and convective instability Details 48:43
Static stability – Problems using radiosonde data and skew T ln P chart Details 46:43
The second law of thermodynamics – Clausius Clapeyron relation Details 42:19
Clausius Clapeyron relation contd.. Details 45:40
Atmospheric radiation – Radiation laws Details 46:27
Planck’s distribution and Inverse square law Details 46:52
Physics of scattering, emmision and absorption Details 47:44
Physics of scattering, emmision and absorption contd… Details 40:28
Radiative Transfer Equation – Derivation Details 50:12
Radiative Transfer Equation contd.. Details 41:33
Radiative heating profiles of the atmosphere Details 35:20
Climate Dynamics – Introduction Details 33:40
Climate sensitivity and feedback Details 51:51
Climate change Details 46:43
Atmospheric dynamics Details 45:12

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