30:38

DME 4.5 Pressure Vessels Part V

30:42

DME 4.4 Pressure Vessels Part IV

30:28

DME 4.3 Pressure Vessels Part III

30:07

DME 4.2 Pressure Vessels Part II

30:19

DME 4.1 Pressure Vessels Part I

20:20

NSE 3.2 Tools to Characterize Nanomaterials Part - II

16:18

NSE 3.3 Tools to Characterize Nanomaterials Part - III

20:09

NSE 3.1 Tools to Characterize Nanomaterials Part -I

04:16

[Lab_4] To find out thermal conductivity of Insulating Powder

07:04

[Lab_3] Experiment on Heat Transfer through Forced Convection

30:07

2.8 Thermochemical and Flame Decomposition Part - II

30:15

2.7 Thermochemical and Flame Decomposition Part - I

30:12

5.10 Surface Composites Part - III

30:12

5.9 Surface Composites Part - II

30:22

5.8 Surface Composites Part - I

30:07

FMHM-32- Dimensional and Model Analysis Part - III

40:20

FMHM-33- Dimensional and Model Analysis Part - IV

31:49

FMHM-31- Dimensional and Model Analysis Part - II

30:04

FMHM-30- Dimensional and Model Analysis Part - I

35:37

FMHM-29- Flow through pipes Part - III

31:57

FMHM-27- Flow through pipes Part - I

30:57

FMHM-28- Flow through pipes Part - II

30:06

AT-29 IC engine performance and emissions Part - V

30:22

AT-28- IC Engine performance and emissions Part - IV

09:59

Lab 9 To determine the loss coefficients for different pipe fittings

30:24

FMHM-26- Viscous Flow Part - VI

31:14

FMHM-25- Viscous Flow Part- V

30:12

AT-25- IC engine performance and emissions Part- I

30:10

AT-26- IC engine performance and emissions Part - II

30:10

AT-27- IC engine performance and emissions Part - III

01:00:34

Lab 9 To study the constructional details of axial flow compressor & draw its characteristics curve

54:27

AT-23-24 Fuel and Air Cycles

08:37

Lab 8 To determine the friction factor for the different pipes

30:41

FMHM-24- Viscous Flow Part - IV

31:48

FMHM-23- Viscous Flow Part - III

30:02

FMHM-22- Viscous Flow Part- II

30:57

FMHM 21- Viscous Flow Part - I

09:37

Lab 7 To determine the different types of flow patterns by Reynolds’ experiment

30:22

AT-46- Axial Flow Compressors Part - II

09:58

Lab 6 To verify Impulse-momentum principle for impact of jet on stationary vane

30:13

AT-45- Axial Flow Compressors Part - I

06:51

Lab 8 To determine (COP)C and (COP)H of heat pump

30:07

AT-44- Centrifugal Compressors Part - II

08:50

Lab 7 Performance test of 4 stroke Petrol Engine

30:02

AT-43- Centrifugal Compressors Part - I

11:54

Lab 5 Performance test on Francis turbine

05:44

Lab 4 Performance test on Pelton turbine

32:05

AT-42- Reciprocating Compressors Part- V

05:11

Lab 6 Determination of friction power of multi cylinder petrol engine using Morse Test Method

04:48

Lab 3 Performance Test on Kaplan Turbine

30:17

AT-41- Reciprocating Compressors Part - IV

07:35

Lab 5 Performance Test on Reciprocating Compressor

30:45

AT-40- Reciprocating Compressors Part - III

32:04

AT-39- Reciprocating Compressors Part - II

30:14

AT-38- Reciprocating Compressors Part - I

33:09

AT-37-Fundamentals of Compressible Flow Part -VIII

06:21

Lab 4 To determine COP and apparatus dew point of an air conditioning test rig

30:16

AT-36- Fundamentals of Compressible Flow Part - VII

30:10

AT-35-Fundamentals of Compressible Flow Part -VI

30:05

AT-34- Fundamentals of Compressible Flow Part - V