SEM-I Civil Engg.: All

Course Content

4 sections • 131 lectures • 00h 51m total length

	Lecture 01 Basics of Electrical Engg, Electrical Parameters, Electrical Elements, Ohm's Law, Type of Sources		01:40:41min
	Lecture 02		00:59:58min
	Lecture 03 Nodal Analysis		01:07:22min
	Lecture 04 Mesh Analysis		01:10:54min
	Lecture 05 Resistance grouping, Voltage Divider Rule, Current Divider Rule		01:18:22min
	Lecture 06 Star-Delta Conversion, Delta-Star Conversion, Source Transformation		01:49:03min
	Lecture 07 Superposition Theorem		01:10:38min
	Lecture 08 Thevenin's Theorem		01:51:54min
	Lecture 09 Norton's Theorem, Maximum Power Transfer Theorem, Miscellaneous Problems		01:53:42min
	Lecture 10 Introduction to AC Circuits, Average Value, RMS Value		01:46:26min
	Lecture 11 Form Factor, Peak factor, AC through pure Resistance, AC through pure Inductance		01:43:59min
	Lecture 12 AC through pure Capacitance, AC through RL Circuit, AC through RC Circuit, AC through RLC Circuit, Series Impedence		01:21:03min
	Lecture 13 Parallel AC Circuits, Power in general AC Circuits, Power Factor		01:50:06min
	Lecture 14 Problems based on Parallel AC Circuits		00:55:05min
	Lecture 15 Series & Parallel Resonance		01:37:44min
	Lecture 16 Calculation of Self Inductance, Calculation of Mutual Inductance, Series & Parallel MC, Problems & Solutions		01:11:52min
	Lecture 17 MMF, Reluctance, Permeability & Permeance, BH Characteristics, Magnetic Hyteresis & Losses		00:58:05min
	Lecture 18 Introduction to Transformer, Operation & EMF equation, Transformation Ratio, Impedence Transformation		01:24:18min
	Lecture 19 Introduction to Transformer, Operation & EMF equation, Transformation Ratio, Impedence Transformation		02:01:26min
	Lecture 20 Equivalent Circuit of t/f, Voltage Regulation, Efficiency, Problems based on V.R. & Efficiency		01:45:01min
	Lecture 21 Auto Transformers, Saving of Copper, Problems & Solutions		01:10:27min
	Lecture 22 Introduction to EM, Introduction to DC Machines, Equivalent Circuit		01:41:37min
	Lecture 23 EMF equation, Torque & Characteristics of DC Machines		01:03:10min
	Lecture 24 Introduction to Induction Machine, Construction (Starter & Rotor), RMF Generation, Operation Principle, Slip, Effects of Slip		01:47:23min
	Lecture 25 Torque in Induction Machine, Torque-Slip Characteristics, Power Stages, Power Relations		01:31:40min
	Lecture 26 Introduction to Synchronous Machines, Construction of Salient & Non-salient Pole Sync Machine, Working Principle of Sync Machine		01:01:31min
	Lecture 27 Fuses, Types of Fuses, Circuit Breakers & its types		01:15:30min
	Lecture 28 Earthing or Grounding, Batteries, Wires & Cables, Energy Calculations		01:32:41min

	Lecture 01 Introduction, Different types of drawing instruments		00:24:18min
	Lecture 02 First angle and third angle projection method		00:51:55min
	Lecture 03 Sections and Sectional views of right angular solids (Prism, Cylinder, Pyramid, Cone)		00:33:15min
	Lecture 04 Rectangular Hyperbola, Cube		00:37:30min
	Lecture 05 Isometric Projection of different views		00:24:40min
	Lecture 06 Engineering Scales		00:46:53min
	Lecture 07 Epicycloid Curve, Hypocycloid Curve		00:44:14min
	Lecture 08 Projection of Points, Projection of Straight Lines		01:05:19min

	Lecture 01 Elastic & Elastic Limit		00:23:00min
	Lecture 02 Types of Stress, Hook's Law, Modulus of Elasticty Young Modulus		00:24:59min
	Lecture 03 https://player.vimeo.com/video/590968312		00:28:29min
	Lecture 04 Resilience, Proof Resilience, Modulus of Resilience, Stain Energy Due to gradually Load Applied		00:34:29min
	Lecture 05 Stain Energy Stored in a Body when the Load is Suddenly Applied		00:36:39min
	Lecture 06 Numerical based on Different Types of Strain Energy		00:31:17min
	Lecture 07 Stain Energy Stored in a Body when the Load is Applied with Impact		00:24:11min
	Lecture 08 Numerical based on Varying Section (Part-I)		00:38:01min
	Lecture 09 Numerical based on Varying Section (Part-II)		00:33:17min
	Lecture 10 Strain Energy due to Shear Stress		00:21:41min
	Lecture 11 Numerical based on Varying Section (Part-I)		01:34:52min
	Lecture 12 Numerical based on Varying Section (Part-II)		00:35:00min
	Lecture 13 Torsion, Assumption for Shear Stress, Strain Energy due to Torsion		00:32:31min
	Lecture 14 Sign Convention for Analytical Method		00:24:52min
	Lecture 15 Direct Stress in One Plane		00:28:06min
	Lecture 16 Numerical		00:33:47min
	Lecture 17 Stress Subjected to Direct Stress in Two Mutually Perpendicular		00:23:33min
	Lecture 18 Calculation of Normal Stress, Shear Stress, Maximum Shear Stress, Resultant Shear		00:42:18min
	Lecture 19 Problems based on Direct Stress in Two Mutually Perpendicular		00:37:24min
	Lecture 20 Stress on an Oblique Section when Simple Shear Stress is Applied		00:21:45min
	Lecture 21 Problems based on Oblique Section when Simple Shear Stress is Applied		00:27:01min
	Lecture 22 Stress on an Oblique Section of a Body Subjected to Direct Stress in Two Mutually Perpendicular Directions and Apply Simple Shear Stress		00:26:58min
	Lecture 23 Problems based on Direct Stress Mutually Perpendicular & Shear Stress, (Part-I)		00:15:26min
	Lecture 24 Problems based on Direct Stress Mutually Perpendicular & Shear Stress, (Part-I)		00:40:48min
	Lecture 25 Graphical Method, Normal Stress, Shear Stress, Resultant Stress		00:21:30min
	Lecture 26 Mohr Circle-Numerical (Part-I)		00:24:37min
	Lecture 27 Mohr Circle-Numericals (Part-II)		00:35:56min
	Lecture 28 Mohr Circle-Numericals (Part-III)		00:31:59min
	Lecture 29 Mohr Circle-Numericals (Part-IV)		00:30:30min
	Lecture 30 Mohr Circle-Numericals (Part-V)		00:18:16min
	Lecture 31 Mohr Circle for Stress on an Oblique Section of a body Subjected to Direct Access in two Mutually Perpendicular direction, Numerical Part-I		00:24:29min
	Lecture 32 Mohr Circle for Stress on an Oblique Section of a body Subjected to Direct Access in two Mutually Perpendicular direction, Numerical Part-II		00:28:31min
	Lecture 33 Mohr Circle for Stress on an Oblique Section of a body Subjected to Direct Access in two Mutually Perpendicular direction, Numerical Part-III		00:22:19min
	Lecture 34 Elastic Material, Plastic Material, Ductile Material, Brittle Material		00:26:20min
	Lecture 35 Impact Test, Fatigue Test		00:21:34min
	Lecture 36 Barba's Law & Unwin's Formula		00:46:17min
	Lecture 37 Brille Material & Ductile Material		00:25:57min
	Lecture 38 Fatigue Test		00:50:51min
	Lecture 39 Thermal Stress in Simple Bar, Numericals		00:38:12min
	Lecture 40 Thermal Stress in Bar of Circular Tapering Section, Numericals		00:24:58min
	Lecture 41 Thermal Stress in Varying Section, Numericals		00:47:27min
	Lecture 42 Thermal Stress in Composit Bar, Numerical (Part-I)		00:33:44min
	Lecture 43 Thermal Stress in Composit Bar, Numerical (Part-II)		00:33:50min
	Lecture 44 Super position of Thermal Stress, Numericals (Part-I)		00:23:46min
	Lecture 45 Super position of Thermal Stress, Numericals (Part-II)		00:34:50min
	Lecture 46 Bending Moment & Shear Stress (Part-I)		00:43:13min
	Lecture 47 Bending Moment & Shear Stress (Part-II)		01:03:23min
	Lecture 48 Bending Moment & Shear Stress of Simply Supported Beam with Uniformally Distributed Load (Part-I)		01:11:48min
	Lecture 49 Bending Moment & Shear Stress of Simply Supported Beam with Uniformally Distributed Load (Part-II)		00:36:38min
	Lecture 50 Bending Moment & Shear Stress Diagram Simply Supported Beam with triangle load varying gradually		00:33:33min
	Lecture 51 Over Hanging Beam		00:45:01min
	Lecture 52 Perfect Frame, Imperfect Frame, Method of Frame, Method of Section		00:43:59min
	Lecture 53 Numericals based on Method of Section		00:31:07min
	Lecture 54 Vector Quantity, Scalar Quantity, Representation of Vector, Addition of Vector, Triangle Law of Vector, Component of Vector		00:28:03min
	Lecture 55 External & Internal Force, Active & Passive Force, Representation of Force, Resultant Force, Resolution of Vector		00:20:42min
	Lecture 56 Matter, Particle, Body, Rigid Body, Deformation Body, Elastic Body		00:28:19min
	Lecture 57 First law, Second Law, Third law, Momentum		00:22:34min
	Lecture 58 Energy, Mechanical Energy, Potential Energy, Kinetic Energy		00:22:28min
	Lecture 59 DEL Operator, Laplacian Operator, Gradient & its significance		00:14:43min
	Lecture 60 Equation of Motion in Cartesian Co-ordinates, Motion in Polar Co-ordinates		00:12:42min
	Lecture 61 Motion along a Circular Path		00:44:38min
	Lecture 62 Linear Velocity of Rotating Body, Parallel Axis Theorem, Perpendicular Axis Theorem, Simple Harmonic Motion,Resonanse		00:18:48min

	Lecture 01 Definite Integral Definition & their Properties, Improper Integral definition & their types. Varoius examples.		01:16:27min
	Lecture 02 Some more properties of Definite Integrals with examples. Test of Improper Integral of 1st Type.		01:41:47min
	Lecture 03 Definition of Beta Function & their Properties. Definition of Gamma Function & their Properties. Relation between Beta & Gamma Function		01:34:23min
	Lecture 04 Duplication Formula, Application of Beta & Gamma Function, Some Important Questions		01:57:14min
	Lecture 05 Finding Surface Area of Solid for Standard Curves like Parabola , Ellipse		00:44:53min
	Lecture 06 Finding Volume of Solid generated by Revolution Plane Area after revolution about axix for diffrent Curves		01:16:00min
	Lecture 07 Definition & Diagram, Involute steps to find Evolute and Involute for any Curve		01:14:56min
	Lecture 08 Rolle's theorem & Langrange's Mean Value theorem		02:11:22min
	Lecture 09 Taylor's & Maclaurine Series		01:33:28min
	Lecture 10 Taylor's Theorem with Remainder		00:49:45min
	Lecture 11 Intermediate Form & L'Hospital Rule		00:37:07min
	Lecture 12 Maxima Minima		01:26:28min
	Lecture 13 Sequence & Series		01:07:07min
	Lecture 14 Basic Concept of Fourier Series, Fourier Series for Continuous Function		01:17:52min
	Lecture 15 Fourier Series for Discontinuous Function, Half Range Cosine & Sine Series		00:43:05min
	Lecture 16 Fourier Series for Even & Odd Function, Parseval's theorem with examples		01:08:19min
	Lecture 17 Partial Defferentiation		01:22:33min
	Lecture 18 Langrange's Method of Undetermined Multiplier		01:00:18min
	Lecture 19 Successive Differentiation		01:29:41min
	Lecture 20 Radius of Convergence, Ratio Test, Cauchy Root Test with Examples		00:59:24min
	Lecture 21 Convergence of Logrithmic Series, Convergence of Exponential Series, Convergence of Trigonometric Series		00:26:23min
	Lecture 22 Find the Continuity of any Function, Rules to Find Derivatives		00:40:54min
	Lecture 23 D.E. of First Order & First Degree, Exact D.E., Linear D.E., Bernoulli's D.E., Euler's Rule to find G.S. & D.E.		01:54:28min
	Lecture 24 First Order & Higher Degree, Solvable for p, y & x, Clairuat's Equation		00:49:40min
	Lecture 25 Second Order D.E. with Constant Co-efficient		00:47:01min
	Lecture 26 Second Order D.E. with Variable Co-efficient		01:35:07min
	Lecture 27 Differential Equation of order n		01:12:01min
	Lecture 28 Definition & Types of Matrices, Addition, Subtraction & Multiplication of Matrices		00:52:49min
	Lecture 29 Adjoint of a Square Matrix, Rank of a Matrix, Normal Form, Linear System of Equations		00:58:22min
	Lecture 30 Eigen Value & Eogen Vector of a Matrix, Properties of Eogen Values		01:05:17min
	Lecture 31 Caley-Hamilton Theorem, Diagonal Form of a Matrix, Modal Matrix, Use of Scientific Calculator		01:38:06min
	Lecture 32 Gauss Elimination Method, Gauss Jordan Elimination Method		00:30:02min
	Lecture 33 Formation of PDE, First Order PDE, (Linear & Non-Linear)		00:48:25min

Requirements

BE/B.Tech. (Pursuing)

Description

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