Modules / Lectures

Module Name | Download |
---|

Sl.No | Chapter Name | MP4 Download |
---|---|---|

1 | Lecture 1: General introduction | Download |

2 | Lecture 2: Phase space and Liouville's theorem | Download |

3 | Lecture 3: Collisionless Boltzmann equation | Download |

4 | Lecture 4: Boltzmann equation for collisional system I | Download |

5 | Lecture 5: Boltzmann equation for collisional system II | Download |

6 | Lecture 6: Equilibrium distribution function I | Download |

7 | Lecture 7: Equilibrium distribution function II | Download |

8 | Lecture 8: Derivation of moment equations I | Download |

9 | Lecture 9: Derivation of moment equations II | Download |

10 | Lecture 10: Application of moment equations in collisionless systems | Download |

11 | Lecture 11 : Derivation of ideal fluid equations | Download |

12 | Lecture 12: Macroscopic forces on an ideal fluid | Download |

13 | Lecture 13: Properties of ideal fluid | Download |

14 | Lecture 14: Kevin's vorticity theorem | Download |

15 | Lecture 15: Conservative form and invariants in ideal fluids | Download |

16 | Lecture 16: Steady flow, streamlines and stream function | Download |

17 | Lecture 17: Departure from Maxwellian distribution | Download |

18 | Lecture 18: Derivation of real fluid equations | Download |

19 | Lecture 19: Hydrostatics: Model of solar corona | Download |

20 | Lecture 20: Stellar/solar wind | Download |

21 | Lecture 21: Accretion disks I | Download |

22 | Lecture 22: A small digression: Newtonian fluids | Download |

23 | Lecture 23: Accretion disk II | Download |

24 | Lecture 24: Weak perturbation in a compressible fluid: sound wave | Download |

25 | Lecture 25: Effect of nonlinearity: shocks | Download |

26 | Lecture 26: Supernova explosion and spherical blast waves I | Download |

27 | Lecture 27: Supernova explosion and spherical blast waves II | Download |

28 | Lecture 28: de Laval nozzle and extragalactic jets | Download |

29 | Lecture 29: Convective instability and Swarzschild stability criterian | Download |

30 | Lecture 30: Rayleigh Benard convection I | Download |

31 | Lecture 31: Rayleigh Benard convection II | Download |

32 | Lecture 32: Jeans instability | Download |

33 | Lecture 33: Waves and instabilities in a two-fluid interface I | Download |

34 | Lecture 34: Waves and instabilities in a two-fluid interface II | Download |

35 | Lecture 35: Oscillations of stars | Download |

36 | Lecture 36: Oscillation of stars (contd.) | Download |

37 | Lecture 37: Rotation in astrofluids and Rayleigh criterion | Download |

38 | Lecture 38: Fluid dynamics in a rotating frame of reference | Download |

39 | Lecture 39: Vorticity theorem in rotating frame and Taylor-Proudman theorem | Download |

40 | Lecture 40: Effect of rotation on a self gravitating mass | Download |

41 | Lecture 41: Effect of rotation in stars | Download |

42 | Lecture 42: Introduction to Plasmas | Download |

43 | Lecture 43: Description of Plasma | Download |

44 | Lecture 44: Kinetic to fluid picture of plasmas | Download |

45 | Lecture 45: MHD fluids: magnetic pressure, magnetic tension and plasma beta | Download |

46 | Lecture 46: Inviscid invariants in MHD | Download |

47 | Lecture 47: Inviscid invariants in MHD (Contd.) | Download |

48 | Lecture 48: Elsasser variables in MHD | Download |

49 | Lecture 49: Linear wave modes in MHD | Download |

50 | Lecture 50: MHD in space plasmas | Download |

51 | Lecture 51: Introduction to turbulence in fluids | Download |

52 | Lecture 52: Richardson-Kolmogorov phenomenology of turbulence | Download |

Sl.No | Chapter Name | English |
---|---|---|

1 | Lecture 1: General introduction | PDF unavailable |

2 | Lecture 2: Phase space and Liouville's theorem | PDF unavailable |

3 | Lecture 3: Collisionless Boltzmann equation | PDF unavailable |

4 | Lecture 4: Boltzmann equation for collisional system I | PDF unavailable |

5 | Lecture 5: Boltzmann equation for collisional system II | PDF unavailable |

6 | Lecture 6: Equilibrium distribution function I | PDF unavailable |

7 | Lecture 7: Equilibrium distribution function II | PDF unavailable |

8 | Lecture 8: Derivation of moment equations I | PDF unavailable |

9 | Lecture 9: Derivation of moment equations II | PDF unavailable |

10 | Lecture 10: Application of moment equations in collisionless systems | PDF unavailable |

11 | Lecture 11 : Derivation of ideal fluid equations | PDF unavailable |

12 | Lecture 12: Macroscopic forces on an ideal fluid | PDF unavailable |

13 | Lecture 13: Properties of ideal fluid | PDF unavailable |

14 | Lecture 14: Kevin's vorticity theorem | PDF unavailable |

15 | Lecture 15: Conservative form and invariants in ideal fluids | PDF unavailable |

16 | Lecture 16: Steady flow, streamlines and stream function | PDF unavailable |

17 | Lecture 17: Departure from Maxwellian distribution | PDF unavailable |

18 | Lecture 18: Derivation of real fluid equations | PDF unavailable |

19 | Lecture 19: Hydrostatics: Model of solar corona | PDF unavailable |

20 | Lecture 20: Stellar/solar wind | PDF unavailable |

21 | Lecture 21: Accretion disks I | PDF unavailable |

22 | Lecture 22: A small digression: Newtonian fluids | PDF unavailable |

23 | Lecture 23: Accretion disk II | PDF unavailable |

24 | Lecture 24: Weak perturbation in a compressible fluid: sound wave | PDF unavailable |

25 | Lecture 25: Effect of nonlinearity: shocks | PDF unavailable |

26 | Lecture 26: Supernova explosion and spherical blast waves I | PDF unavailable |

27 | Lecture 27: Supernova explosion and spherical blast waves II | PDF unavailable |

28 | Lecture 28: de Laval nozzle and extragalactic jets | PDF unavailable |

29 | Lecture 29: Convective instability and Swarzschild stability criterian | PDF unavailable |

30 | Lecture 30: Rayleigh Benard convection I | PDF unavailable |

31 | Lecture 31: Rayleigh Benard convection II | PDF unavailable |

32 | Lecture 32: Jeans instability | PDF unavailable |

33 | Lecture 33: Waves and instabilities in a two-fluid interface I | PDF unavailable |

34 | Lecture 34: Waves and instabilities in a two-fluid interface II | PDF unavailable |

35 | Lecture 35: Oscillations of stars | PDF unavailable |

36 | Lecture 36: Oscillation of stars (contd.) | PDF unavailable |

37 | Lecture 37: Rotation in astrofluids and Rayleigh criterion | PDF unavailable |

38 | Lecture 38: Fluid dynamics in a rotating frame of reference | PDF unavailable |

39 | Lecture 39: Vorticity theorem in rotating frame and Taylor-Proudman theorem | PDF unavailable |

40 | Lecture 40: Effect of rotation on a self gravitating mass | PDF unavailable |

41 | Lecture 41: Effect of rotation in stars | PDF unavailable |

42 | Lecture 42: Introduction to Plasmas | PDF unavailable |

43 | Lecture 43: Description of Plasma | PDF unavailable |

44 | Lecture 44: Kinetic to fluid picture of plasmas | PDF unavailable |

45 | Lecture 45: MHD fluids: magnetic pressure, magnetic tension and plasma beta | PDF unavailable |

46 | Lecture 46: Inviscid invariants in MHD | PDF unavailable |

47 | Lecture 47: Inviscid invariants in MHD (Contd.) | PDF unavailable |

48 | Lecture 48: Elsasser variables in MHD | PDF unavailable |

49 | Lecture 49: Linear wave modes in MHD | PDF unavailable |

50 | Lecture 50: MHD in space plasmas | PDF unavailable |

51 | Lecture 51: Introduction to turbulence in fluids | PDF unavailable |

52 | Lecture 52: Richardson-Kolmogorov phenomenology of turbulence | PDF unavailable |

Sl.No | Language | Book link |
---|---|---|

1 | English | Not Available |

2 | Bengali | Not Available |

3 | Gujarati | Not Available |

4 | Hindi | Not Available |

5 | Kannada | Not Available |

6 | Malayalam | Not Available |

7 | Marathi | Not Available |

8 | Tamil | Not Available |

9 | Telugu | Not Available |