# click the up-left corner to select videos from the playlist
source: nptelhrd 2009年3月12日
Mechanical - Advanced Finite Elements Analysis by Prof. R. KrishnaKumar, Department of Mechanical Engineering, IIT Madras.
Lecture - 1 49:42
Lecture - 2 50:56
Lecture - 3 50:38
Lecture - 4 50:18
Lecture - 5 50:26
Lecture - 6 50:10
Lecture - 7 48:06
Lecture - 8 48:28
Lecture - 9 45:49
Lecture - 10 47:42
Lecture - 11 49:30
Lecture - 12 48:43
Lecture - 13 49:25
Lecture - 14 49:31
Lecture - 15 48:25
Lecture - 16 48:46
Lecture - 17 49:20
Lecture - 18 45:31
Lecture - 19 49:25
Lecture - 20 48:11
Lecture - 21 51:14
Lecture - 22 46:35
Lecture - 23 45:02
Lecture - 24 48:48
Lecture - 25 47:18
Lecture - 26 48:21
Lecture - 27 47:02
Lecture - 28 48:14
Lecture - 29 50:06
Lecture - 30 49:16
Showing posts with label B. (figures)-K-R. Krishnakumar. Show all posts
Showing posts with label B. (figures)-K-R. Krishnakumar. Show all posts
2016-10-26
R. Krishnakumar: Vehicle Dynamics (IIT Madras)
# playlist of the 32 videos (click the up-left corner of the video)
source: nptelhrd 2014年7月29日
Engineering Design - Vehicle Dynamics by Dr. R. Krishnakumar, Department of Engineering Design, IIT Madras. For more details on NPTEL visit http://nptel.ac.in
01 Introduction to Vehicle Dynamics 47:00
02 Longitudinal Dynamics 49:34
03 Vehicle Load Distribution – Acceleration and Braking 47:45
04 Brake Force Distribution, Braking Efficiency and Braking Distance 49:16
05 Tractor – Semi Trailer 47:01
06 Tire Mechanics – An Introduction 48:44
07 Mechanical Properties of Rubber 50:23
08 Slip, Grip and Rolling Resistance 50:06
09 Tire Construction and Force Development 49:13
10 Contact Patch and Contact Pressure Distribution 52:05
11 Tire Brush Model 49:23
12 Lateral Force Generation 50:23
13 Ply Steer and Conicity (Part 1) 52:27
14 Ply Steer and Conicity (Part 2) 53:21
15 Tire Models – Magic Formula 51:02
16 Classification of Tyre Models and Combined Slip 49:29
17 Lateral Dynamics - An Introduction 49:28
18 Lateral Dynamics – Bicycle Model 52:05
19 Lateral Dynamics – Stability and Steering Conditions 52:06
20 Understeer Gradient and State Space Approach 49:34
21 Handling Response of a Vehicle 49:50
22 Mimuro Plot for Lateral Transient Response (Part 1) 50:26
23 Mimuro Plot for Lateral Transient Response (Part 2) 53:41
24 Parameters affecting vehicle handling characteristics 51:03
25 Subjective and Objective Evaluation of Vehicle Handling (Part 1) 51:46
26 Subjective and Objective Evaluation of Vehicle Handling (Part 2) 52:19
27 Subjective and Objective Evaluation of Vehicle Handling and Rollover Prevention 46:44
28 Rollover Prevention (contd..) and Vertical Dynamics 51:07
29 Vertical Dynamics – An Introduction 50:18
30 Vertical Dynamics – Quarter Car Model 51:25
32 Random Process and Conclusion [contd.] 1:07:24
31 Noise, Vibration and Harshness – Random Processes 50:24
source: nptelhrd 2014年7月29日
Engineering Design - Vehicle Dynamics by Dr. R. Krishnakumar, Department of Engineering Design, IIT Madras. For more details on NPTEL visit http://nptel.ac.in
01 Introduction to Vehicle Dynamics 47:00
02 Longitudinal Dynamics 49:34
03 Vehicle Load Distribution – Acceleration and Braking 47:45
04 Brake Force Distribution, Braking Efficiency and Braking Distance 49:16
05 Tractor – Semi Trailer 47:01
06 Tire Mechanics – An Introduction 48:44
07 Mechanical Properties of Rubber 50:23
08 Slip, Grip and Rolling Resistance 50:06
09 Tire Construction and Force Development 49:13
10 Contact Patch and Contact Pressure Distribution 52:05
11 Tire Brush Model 49:23
12 Lateral Force Generation 50:23
13 Ply Steer and Conicity (Part 1) 52:27
14 Ply Steer and Conicity (Part 2) 53:21
15 Tire Models – Magic Formula 51:02
16 Classification of Tyre Models and Combined Slip 49:29
17 Lateral Dynamics - An Introduction 49:28
18 Lateral Dynamics – Bicycle Model 52:05
19 Lateral Dynamics – Stability and Steering Conditions 52:06
20 Understeer Gradient and State Space Approach 49:34
21 Handling Response of a Vehicle 49:50
22 Mimuro Plot for Lateral Transient Response (Part 1) 50:26
23 Mimuro Plot for Lateral Transient Response (Part 2) 53:41
24 Parameters affecting vehicle handling characteristics 51:03
25 Subjective and Objective Evaluation of Vehicle Handling (Part 1) 51:46
26 Subjective and Objective Evaluation of Vehicle Handling (Part 2) 52:19
27 Subjective and Objective Evaluation of Vehicle Handling and Rollover Prevention 46:44
28 Rollover Prevention (contd..) and Vertical Dynamics 51:07
29 Vertical Dynamics – An Introduction 50:18
30 Vertical Dynamics – Quarter Car Model 51:25
32 Random Process and Conclusion [contd.] 1:07:24
31 Noise, Vibration and Harshness – Random Processes 50:24
2016-10-06
R. Krishnakumar: Vehicle Dynamics (IIT Madras)
# playlist of the 32 videos (click the up-left corner of the video)
source: nptelhrd 2014年7月29日
Engineering Design - Vehicle Dynamics by Dr. R. Krishnakumar, Department of Engineering Design, IIT Madras. For more details on NPTEL visit http://nptel.ac.in
01 Introduction to Vehicle Dynamics 47:00
02 Longitudinal Dynamics 49:34
03 Vehicle Load Distribution – Acceleration and Braking 47:45
04 Brake Force Distribution, Braking Efficiency and Braking Distance 49:16
05 Tractor – Semi Trailer 47:01
06 Tire Mechanics – An Introduction 48:44
07 Mechanical Properties of Rubber 50:23
08 Slip, Grip and Rolling Resistance 50:06
09 Tire Construction and Force Development 49:13
10 Contact Patch and Contact Pressure Distribution 52:05
11 Tire Brush Model 49:23
12 Lateral Force Generation 50:23
13 Ply Steer and Conicity (Part 1) 52:27
14 Ply Steer and Conicity (Part 2) 53:21
15 Tire Models – Magic Formula 51:02
16 Classification of Tyre Models and Combined Slip 49:29
17 Lateral Dynamics - An Introduction 49:28
18 Lateral Dynamics – Bicycle Model 52:05
19 Lateral Dynamics – Stability and Steering Conditions 52:06
20 Understeer Gradient and State Space Approach 49:34
21 Handling Response of a Vehicle 49:50
22 Mimuro Plot for Lateral Transient Response (Part 1) 50:26
23 Mimuro Plot for Lateral Transient Response (Part 2) 53:41
24 Parameters affecting vehicle handling characteristics 51:03
25 Subjective and Objective Evaluation of Vehicle Handling (Part 1) 51:46
26 Subjective and Objective Evaluation of Vehicle Handling (Part 2) 52:19
27 Subjective and Objective Evaluation of Vehicle Handling and Rollover Prevention 46:44
28 Rollover Prevention (contd..) and Vertical Dynamics 51:07
29 Vertical Dynamics – An Introduction 50:18
30 Vertical Dynamics – Quarter Car Model 51:25
32 Random Process and Conclusion [contd.] 1:07:24
31 Noise, Vibration and Harshness – Random Processes 50:24
source: nptelhrd 2014年7月29日
Engineering Design - Vehicle Dynamics by Dr. R. Krishnakumar, Department of Engineering Design, IIT Madras. For more details on NPTEL visit http://nptel.ac.in
01 Introduction to Vehicle Dynamics 47:00
02 Longitudinal Dynamics 49:34
03 Vehicle Load Distribution – Acceleration and Braking 47:45
04 Brake Force Distribution, Braking Efficiency and Braking Distance 49:16
05 Tractor – Semi Trailer 47:01
06 Tire Mechanics – An Introduction 48:44
07 Mechanical Properties of Rubber 50:23
08 Slip, Grip and Rolling Resistance 50:06
09 Tire Construction and Force Development 49:13
10 Contact Patch and Contact Pressure Distribution 52:05
11 Tire Brush Model 49:23
12 Lateral Force Generation 50:23
13 Ply Steer and Conicity (Part 1) 52:27
14 Ply Steer and Conicity (Part 2) 53:21
15 Tire Models – Magic Formula 51:02
16 Classification of Tyre Models and Combined Slip 49:29
17 Lateral Dynamics - An Introduction 49:28
18 Lateral Dynamics – Bicycle Model 52:05
19 Lateral Dynamics – Stability and Steering Conditions 52:06
20 Understeer Gradient and State Space Approach 49:34
21 Handling Response of a Vehicle 49:50
22 Mimuro Plot for Lateral Transient Response (Part 1) 50:26
23 Mimuro Plot for Lateral Transient Response (Part 2) 53:41
24 Parameters affecting vehicle handling characteristics 51:03
25 Subjective and Objective Evaluation of Vehicle Handling (Part 1) 51:46
26 Subjective and Objective Evaluation of Vehicle Handling (Part 2) 52:19
27 Subjective and Objective Evaluation of Vehicle Handling and Rollover Prevention 46:44
28 Rollover Prevention (contd..) and Vertical Dynamics 51:07
29 Vertical Dynamics – An Introduction 50:18
30 Vertical Dynamics – Quarter Car Model 51:25
32 Random Process and Conclusion [contd.] 1:07:24
31 Noise, Vibration and Harshness – Random Processes 50:24
2016-08-24
R. Krishnakumar: Introduction to Finite Element Method (IIT Madras)
# playlist of the 33 videos (click the up-left corner of the video)
source: nptelhrd 2014年1月7日
Mechanical - Introduction to Finite Element Method by Dr. R. Krishnakumar, Department of Mechanical Engineering, IIT Madras. For more details on NPTEL visit http://nptel.ac.in
01 49:05
02 50:03
03 50:43
04 49:45
05 50:13
06 51:37
07 50:57
08 45:43
09 51:30
10 49:51
11 50:05
12 50:26
13 50:48
14 49:32
15 51:46
16 49:48
17 50:00
18 50:56
19 52:02
20 51:12
21 52:16
22 51:34
23 50:50
24 48:10
25 50:19
26 52:17
27 51:52
28 51:06
29 50:41
30 1:03:27
31 48:23
32 49:32
33 45:28
source: nptelhrd 2014年1月7日
Mechanical - Introduction to Finite Element Method by Dr. R. Krishnakumar, Department of Mechanical Engineering, IIT Madras. For more details on NPTEL visit http://nptel.ac.in
01 49:05
02 50:03
03 50:43
04 49:45
05 50:13
06 51:37
07 50:57
08 45:43
09 51:30
10 49:51
11 50:05
12 50:26
13 50:48
14 49:32
15 51:46
16 49:48
17 50:00
18 50:56
19 52:02
20 51:12
21 52:16
22 51:34
23 50:50
24 48:10
25 50:19
26 52:17
27 51:52
28 51:06
29 50:41
30 1:03:27
31 48:23
32 49:32
33 45:28
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