Modules / Lectures
Module NameDownload


Sl.No Chapter Name MP4 Download
1Introduction to the courseDownload
2Continuum hypothesis, distribution function and stress-viscosity relationDownload
3Continuum hypothesis, distribution function and stress-viscosity relation - RecapDownload
4Fluid Kinematics Download
5Fluid Kinematics - RecapDownload
6Conservation laws: Mass conservation and incomprehensibilityDownload
7Conservation laws: Momentum conservation and Euler equationDownload
8Conservation laws - RecapDownload
9Potential flowsDownload
10Bernoulli constant, its applications and voracity equationDownload
11Recap - Potential flows, Bernoulli constant and its applicationsDownload
12Voracity dynamics -- Kelvin's voracity theorem and Magus effectDownload
13Navier-Stokes equationDownload
14Navier-Stokes equation (contd.) and energy equationDownload
15Energy equation in a conservative formDownload
16Boundary conditions in Navier-Stokes equation, d'Alembert's paradoxDownload
17Poiseuille flow, deriving viscosity from microscopicsDownload
18Dimensionless numbers -- Mach number, Reynolds numberDownload
19DimDimensionless numbers contd -- plasma beta, magnetic Reynolds number, Alfven Mach number, Prandl numberensionless numbers -- Mach number, Reynolds numberDownload
20Reynolds number and dynamic similarityDownload
21Reynolds number recap, Low Re flows, and drag on a sphere (Stokes law)Download
22High Re flows -- turbulent drag law, vortex shedding and drag crisisDownload
23Lift on a body, introduction to compressible flowsDownload
24Compressible flows -- derivation of sound speed and dispersion relationDownload
25Subsonic and supersonic flowsDownload
26Propagation of sonic information, shock tube problem and piston problemDownload
27Criterion for neglect of compressibility, method of characteristicsDownload
28Shock thicknessDownload
29Shock thickness recap, shock jump conditionsDownload
30Shock jump conditions (contd), transonic 1D flows, converging/diverging channelsDownload
31Coverging/diverging channels, de Laval nozzle and its application to astrophysical jetsDownload
32Spherically symmetric transonic flowsDownload
33Spherically symmetric transonic flows (contd)Download
34Solar wind : Parker's solutionDownload
35Solar wind : Modifications in Parker's solutionDownload
36Spherical accretion onto a compact object : Eddington luminosity and accretion rateDownload
37Spherical accretion onto a compact object : Solutions for flow propertiesDownload
38Spherical accretion (contd), disk accretion--Roche lobe overflowDownload
39Disk accretion : Mass conservation and vertical hydrostatic equilibriumDownload
40Disk accretion : Removal of angular momentum, Shakura-Sunyaev viscosity parameterDownload
41Disk accretion : Viscous dissipation and the energy equation, two-temperature criterionDownload
42Particle acceleration in astrophysical settings : Shocks and non-thermal energy distributionDownload
43Particle acceleration in astrophysical settings : Diffusive shock accelerationDownload
44Spherical blast waves : Bomb explosion and supernova explosionDownload
45Spherical blast waves : Sedov-Taylor solutionDownload
46Spherical blast waves : Sedov-Taylor solution (contd.)Download
47Magnetohydrodynamics (MHD) : IntroductionDownload
48Magnetohydrodynamics (MHD) : The induction equationDownload
49Magnetohydrodynamics (MHD) : Currents in MHD, momentum equation and magnetic stress tensorDownload
50Magnetohydrodynamics (MHD) : Magnetic stresses and magnetic buoyancyDownload
51Magnetohydrodynamics (MHD) : Plasma beta, force-free fields and potential configurationsDownload
52Magnetohydrodynamics (MHD) : Magnetic flux-freezingDownload
53Magnetohydrodynamics (MHD) : Magnetic flux-freezing (contd.), magnetic dynamos Download
54Magnetohydrodynamics (MHD) : Dynamo theoryDownload
55Magnetohydrodynamics (MHD) : Waves in MHD - Alfven wavesDownload
56Magnetohydrodynamics (MHD) : Waves in MHD - Alfven waves and magnetosonic wavesDownload
57Magnetohydrodynamics (MHD) : Waves in MHD - Magnetosonic wavesDownload
58Magnetohydrodynamics (MHD) : Shocks in MHDDownload
59Magnetohydrodynamics (MHD) : Shocks in MHD - Shock jump conditionsDownload
60Non-ideal MHD : Introduction to magnetic reconnection Download
61Non-ideal MHD : Magnetic reconnection - The Sweet-Parker modelDownload
62Non-ideal MHD : Magnetic reconnection - The Petscheck modelDownload
63Sun's atmosphere : Solar corona and the coronal heating problemDownload
64Solar eruptions : Coronal Mass Ejections (CMEs) and solar flaresDownload

Sl.No Chapter Name English
1Introduction to the courseDownload
Verified
2Continuum hypothesis, distribution function and stress-viscosity relationDownload
Verified
3Continuum hypothesis, distribution function and stress-viscosity relation - RecapDownload
Verified
4Fluid Kinematics Download
Verified
5Fluid Kinematics - RecapDownload
Verified
6Conservation laws: Mass conservation and incomprehensibilityPDF unavailable
7Conservation laws: Momentum conservation and Euler equationPDF unavailable
8Conservation laws - RecapPDF unavailable
9Potential flowsPDF unavailable
10Bernoulli constant, its applications and voracity equationPDF unavailable
11Recap - Potential flows, Bernoulli constant and its applicationsPDF unavailable
12Voracity dynamics -- Kelvin's voracity theorem and Magus effectPDF unavailable
13Navier-Stokes equationPDF unavailable
14Navier-Stokes equation (contd.) and energy equationPDF unavailable
15Energy equation in a conservative formPDF unavailable
16Boundary conditions in Navier-Stokes equation, d'Alembert's paradoxPDF unavailable
17Poiseuille flow, deriving viscosity from microscopicsPDF unavailable
18Dimensionless numbers -- Mach number, Reynolds numberPDF unavailable
19DimDimensionless numbers contd -- plasma beta, magnetic Reynolds number, Alfven Mach number, Prandl numberensionless numbers -- Mach number, Reynolds numberPDF unavailable
20Reynolds number and dynamic similarityPDF unavailable
21Reynolds number recap, Low Re flows, and drag on a sphere (Stokes law)PDF unavailable
22High Re flows -- turbulent drag law, vortex shedding and drag crisisPDF unavailable
23Lift on a body, introduction to compressible flowsPDF unavailable
24Compressible flows -- derivation of sound speed and dispersion relationPDF unavailable
25Subsonic and supersonic flowsPDF unavailable
26Propagation of sonic information, shock tube problem and piston problemPDF unavailable
27Criterion for neglect of compressibility, method of characteristicsPDF unavailable
28Shock thicknessPDF unavailable
29Shock thickness recap, shock jump conditionsPDF unavailable
30Shock jump conditions (contd), transonic 1D flows, converging/diverging channelsPDF unavailable
31Coverging/diverging channels, de Laval nozzle and its application to astrophysical jetsPDF unavailable
32Spherically symmetric transonic flowsPDF unavailable
33Spherically symmetric transonic flows (contd)PDF unavailable
34Solar wind : Parker's solutionPDF unavailable
35Solar wind : Modifications in Parker's solutionPDF unavailable
36Spherical accretion onto a compact object : Eddington luminosity and accretion ratePDF unavailable
37Spherical accretion onto a compact object : Solutions for flow propertiesPDF unavailable
38Spherical accretion (contd), disk accretion--Roche lobe overflowPDF unavailable
39Disk accretion : Mass conservation and vertical hydrostatic equilibriumPDF unavailable
40Disk accretion : Removal of angular momentum, Shakura-Sunyaev viscosity parameterPDF unavailable
41Disk accretion : Viscous dissipation and the energy equation, two-temperature criterionPDF unavailable
42Particle acceleration in astrophysical settings : Shocks and non-thermal energy distributionPDF unavailable
43Particle acceleration in astrophysical settings : Diffusive shock accelerationPDF unavailable
44Spherical blast waves : Bomb explosion and supernova explosionPDF unavailable
45Spherical blast waves : Sedov-Taylor solutionPDF unavailable
46Spherical blast waves : Sedov-Taylor solution (contd.)PDF unavailable
47Magnetohydrodynamics (MHD) : IntroductionPDF unavailable
48Magnetohydrodynamics (MHD) : The induction equationPDF unavailable
49Magnetohydrodynamics (MHD) : Currents in MHD, momentum equation and magnetic stress tensorPDF unavailable
50Magnetohydrodynamics (MHD) : Magnetic stresses and magnetic buoyancyPDF unavailable
51Magnetohydrodynamics (MHD) : Plasma beta, force-free fields and potential configurationsPDF unavailable
52Magnetohydrodynamics (MHD) : Magnetic flux-freezingPDF unavailable
53Magnetohydrodynamics (MHD) : Magnetic flux-freezing (contd.), magnetic dynamos PDF unavailable
54Magnetohydrodynamics (MHD) : Dynamo theoryPDF unavailable
55Magnetohydrodynamics (MHD) : Waves in MHD - Alfven wavesPDF unavailable
56Magnetohydrodynamics (MHD) : Waves in MHD - Alfven waves and magnetosonic wavesPDF unavailable
57Magnetohydrodynamics (MHD) : Waves in MHD - Magnetosonic wavesPDF unavailable
58Magnetohydrodynamics (MHD) : Shocks in MHDPDF unavailable
59Magnetohydrodynamics (MHD) : Shocks in MHD - Shock jump conditionsPDF unavailable
60Non-ideal MHD : Introduction to magnetic reconnection PDF unavailable
61Non-ideal MHD : Magnetic reconnection - The Sweet-Parker modelPDF unavailable
62Non-ideal MHD : Magnetic reconnection - The Petscheck modelPDF unavailable
63Sun's atmosphere : Solar corona and the coronal heating problemPDF unavailable
64Solar eruptions : Coronal Mass Ejections (CMEs) and solar flaresPDF unavailable


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