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Raghukanth STG @UCVcbDkakmCnLXfbNKuvVNPA@youtube.com

685 subscribers - no pronouns :c

I am a professor in civil engineering. I post my live lectur


01:15:04
Structural Reliability. Stochastic FEM and summary of the course (Lecture 20)
53:40
Vulnerability of Hospital buildings and Sri Kedarnath temple
53:02
Repair and rehabilitation of structures (Part 1)
33:08
Machine learning for prediction of ground motion- Matlab Demo
01:58:26
Machine learning for prediction of ground motion - Deep neural networks
02:33:53
Machine learning for prediction of ground motion - Shallow Neural Networks
30:41
Basic steel design. Plastic analysis. Continuous beams and frames. Kinematic method (Lecture 44)
51:27
Basic steel design. Plastic analysis. Static method and Kinematic method. Beams (Lecture 43)
47:48
Basic steel design. Plastic analysis. Theorems (static and kinematic) (Lecture 42)
50:35
Basic steel design. Plastic analysis. Incremental method (Lecture 41)
38:43
Engineering seismology and hazard assesment (Lecture 20). CRISIS demonstration
50:45
Basic steel design. Plastic analysis (Lecture 40)
27:35
Planetary geology and seismology (Lecture 16).
33:57
Planetary geology and seismology (lecture 17)
56:32
Planetary geology and seismology. Normal Modes (Lecture 15)
01:05:26
planetary geology and seismology (lecture 14)
01:08:26
Planetary geology and Seismology (Lecture 13)
53:25
Basic Steel design. Introduction to beam design (Lecture 29)
47:46
Planetary Geology and Seismology (Lecture 12)
01:13:24
Planetary Geology and Seismology (Lecture 11)
01:10:18
Planetary Geology and seismology (Lecture 10)
01:11:29
Planetary geology and seismology (Lecture 8)
01:17:07
Planetary geology and Seismology (Lecture 9)
47:39
Planetary geology and seismology (Lecture 7)
01:10:00
Planetary Geology and Seismology (Lecture 6)
01:10:33
planetary geology and Seismology ( Lecture 5)
01:12:44
Planetary geology and Seismology (lecture 4)
55:52
Planetary Seismology (Lecture 3)
01:13:34
Planetary Geology and Seismology (Lecture 2)
01:03:12
Planetary Geology and Seismology (Lecture 1)
53:19
Basic steel design of structures. Dead loads and Live loads (lecture 6)
01:03:29
Seismic Response of Indo-Gangetic Basin
01:07:30
Structural Reliability. Stochastic finite element method. introduction (Lecture 19)
01:09:03
Structural Reliability. Implicit performance functions. Response surface approach (Lecture 18)
01:04:26
Structural Reliability. System reliability. Series and Parallel systems (Lecture 17)
01:14:23
Structural Reliability. Calculation of Reliability index and design points (Lecture 16)
01:11:20
Structural Reliability. Hasofer Lind Reliability index (Lecture 15)
01:11:32
Structural Reliability. introduction to Reliability.Limit state (Lecture 14)
01:06:22
Structural Reliability. Monte-Carlo simulation (Lecture 13)
01:13:24
Structural Reliability. Extreme value distributions. Monte-Carlo simulation (Lecture 12)
01:13:46
Structural Reliability. Extreme value theory (Lecture 11)
01:08:53
Structural reliability. Functions of random variable. Nonlinear functions (Lecture 10)
01:07:15
Structural Reliability. Functions of random variable. (Lecture 9)
01:15:04
Structural Reliability. Two-dimensional random variables. Function of random variable (Lecture 8)
01:10:41
Structural Reliability. Cont.random variables. Two-dimensional discrete random variables(Lecture 7)
36:11
Structural stability. energy methods (Class 6A)
01:08:38
Structural Reliability. Poisson and normal random variables (Lecture 6)
01:14:59
Structural Reliability. Characteristic function. Bernoulli and Binomial random variables.(Lecture 5)
01:15:44
Structural Reliability. Random variable, Probability Distribution and Density function (Lecture 4)
57:49
Structural reliability. Total Probability theorem, Baye's theorem. Independence (Lecture 3)
01:11:57
Structural Reliability. Definition of Probability, Conditional Probability (Lecture 2)
47:23
Structural Reliability. Introduction to the course. (Lecture 1)
51:57
Basic steel design. Tutorial on beam columns, Gusset base, tension field
49:56
Basic steel design. Beam-columns and Column bases (Lecture 39)
53:59
Basic steel design. plate girder problem and beam columns (Lecture 38)
54:30
Basic steel design. plate girder design. examples (Lecture 37)
39:36
Engineering seismology and seismic hazard assesment. Wave equations (Lecture 19)
01:04:26
engineering seismology and seismic hazard assessment. Wave equations (Lecture 18)
55:31
Basic steel design. Plate girder design steps (Lecture 36)
52:21
Basic steel design. Plate girder. Bending and shear capacity (Lecture 35)