Engineering Mechanics : Statics 2022
Statics
What you'll learn
General Principles and Force Vectors
Particle Equilibrium
Moments of Force System
Rigid Body Equilibrium
Structural Analysis
Internal Forces
Dry Friction
Center’s (center of gravity, centroid, center of volume, etc.)
Moments of Inertia
Requirements
Some basics of Mathematics from the school
Description
This course contains several sections as follows: 1. General Principles and Force Vectors Fundamental concepts in Mechanics Units of Measurements in SI and FPS Numerical calculations and main steps for analysis Vectors and Scalars Vector Operations Coplanar Forces addition and resultant Cartesian vectors and their resultant Position vectors Force vector along specific line of action Vectors dot product 2. Particle Equilibrium and Force System Particle idealization and concept of its equilibrium Free body diagram concept of a particle in the 2D and 3D systems Analysis of a particle under different coplanar and 3D forces Moment of a force in scalar form Cross product of vectors and its application, especially moment Simplification of a force system and its moment and resultant Simplification of a simple distributed loads 3. Rigid Body Equilibrium and Dry Friction Rigid body idealization and its equilibrium concept Free body diagram of a rigid body in the 2D and 3D systems Defining rigid body supports in 2D and 3D systems Identification of a statically determinacy and constraints Providing equations of equilibrium for a rigid body in 2D and 3DAnalysis of a rigid body in 2D and 3D systems under different situations Dry friction characteristics and concept Identifying and analysis the dry friction problems 4. Structural Analysis and Internal Forces Truss idealization and simple truss Zero force member Joint method analysis for the truss analysis Method of section for truss analysis Space trusses Frames and Machines Internal forces in structural members Shear diagram for Beams Moment diagram for Beams 5. Center of Gravity, Centro id and Moment of Inertia Centre of gravity of a body Centroid and centre of mass of a body Composite bodies centres and centroid Moments of Inertia for areas concept and definition Moments of Inertia for simple area calculation Parallel Axes Theorem Radius of gyration for an area Moment of Inertia for composite areas
Overview
Section 1: General Principles and Force Vectors
Lecture 1 Introduction Introduction to Mechanics, units, numerical calculations and mai
Lecture 2 Scalars and Vectors_1
Lecture 3 Scalars and Vectors_2
Lecture 4 Coplanar Forces Addition
Lecture 5 Cartesian Vectors
Lecture 6 Position vectors and force vector along a line _Introduction
Lecture 7 Position vectors and force vector along a line _Examples
Lecture 8 Vectors Dot Product
Section 2: Equilibrium of a particle and Force system Resultants
Lecture 9 Free body diagram and particle equilibrium in 2D
Lecture 10 Particle equilibrium in 3D
Lecture 11 Moment of a force (principle, scalar and vector form) and vector cross product
Lecture 12 Moment about a specific line or axis
Lecture 13 Simplification of force system and couple moment
Lecture 14 A couple moment
Lecture 15 Simplification and reduction of a distributed loading system
Section 3: Rigid Body Equilibrium and Dry Friction
Lecture 16 Free body diagram of a rigid body and its equilibrium in 2D
Lecture 17 Two and three force members
Lecture 18 Analysis of a rigid body using EOE in 2D
Lecture 19 Free body diagram of a rigid body and its equilibrium in 3D
Lecture 20 Analysis of a rigid body using EOE in 3D
Lecture 21 Dry Friction (Characteristics and problems)
Section 4: Structural Analysis and Internal Forces
Lecture 22 Simple Trusses and Method of Joints
Lecture 23 Method of Sections for the analysis of 2D trusses
Lecture 24 Space trusses analysis using the method of joints
Lecture 25 Analysis of Frames and Machines1
Lecture 26 Analysis of Frames and Machines 2
Lecture 27 Method of Sections to Determine Internal Forces
Lecture 28 Shear and Moment Equations and Diagrams
Section 5: Center of Gravity, Centroid and Moment of Inertia
Lecture 29 Concept and definition of centers
Lecture 30 Centers determination using integration
Lecture 31 Centers calculations of composite bodies
Lecture 32 Concept and definition of Moment of Inertia and radius of gyration
Lecture 33 Moment of Inertia determination using integration
Lecture 34 Moment of Inertia for regular shapes
Lecture 35 Moment of Inertia for composite areas
Engineering Students,People who want to prepare for engineering entrance exam and qualification,People who are passionate in learning mechanics
Published 12/2022
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 6.29 GB | Duration: 18h 14m
Download
http://s6.alxa.net/one/2022/12/Engi...cs.Statics.rar
Statics
What you'll learn
General Principles and Force Vectors
Particle Equilibrium
Moments of Force System
Rigid Body Equilibrium
Structural Analysis
Internal Forces
Dry Friction
Center’s (center of gravity, centroid, center of volume, etc.)
Moments of Inertia
Requirements
Some basics of Mathematics from the school
Description
This course contains several sections as follows: 1. General Principles and Force Vectors Fundamental concepts in Mechanics Units of Measurements in SI and FPS Numerical calculations and main steps for analysis Vectors and Scalars Vector Operations Coplanar Forces addition and resultant Cartesian vectors and their resultant Position vectors Force vector along specific line of action Vectors dot product 2. Particle Equilibrium and Force System Particle idealization and concept of its equilibrium Free body diagram concept of a particle in the 2D and 3D systems Analysis of a particle under different coplanar and 3D forces Moment of a force in scalar form Cross product of vectors and its application, especially moment Simplification of a force system and its moment and resultant Simplification of a simple distributed loads 3. Rigid Body Equilibrium and Dry Friction Rigid body idealization and its equilibrium concept Free body diagram of a rigid body in the 2D and 3D systems Defining rigid body supports in 2D and 3D systems Identification of a statically determinacy and constraints Providing equations of equilibrium for a rigid body in 2D and 3DAnalysis of a rigid body in 2D and 3D systems under different situations Dry friction characteristics and concept Identifying and analysis the dry friction problems 4. Structural Analysis and Internal Forces Truss idealization and simple truss Zero force member Joint method analysis for the truss analysis Method of section for truss analysis Space trusses Frames and Machines Internal forces in structural members Shear diagram for Beams Moment diagram for Beams 5. Center of Gravity, Centro id and Moment of Inertia Centre of gravity of a body Centroid and centre of mass of a body Composite bodies centres and centroid Moments of Inertia for areas concept and definition Moments of Inertia for simple area calculation Parallel Axes Theorem Radius of gyration for an area Moment of Inertia for composite areas
Overview
Section 1: General Principles and Force Vectors
Lecture 1 Introduction Introduction to Mechanics, units, numerical calculations and mai
Lecture 2 Scalars and Vectors_1
Lecture 3 Scalars and Vectors_2
Lecture 4 Coplanar Forces Addition
Lecture 5 Cartesian Vectors
Lecture 6 Position vectors and force vector along a line _Introduction
Lecture 7 Position vectors and force vector along a line _Examples
Lecture 8 Vectors Dot Product
Section 2: Equilibrium of a particle and Force system Resultants
Lecture 9 Free body diagram and particle equilibrium in 2D
Lecture 10 Particle equilibrium in 3D
Lecture 11 Moment of a force (principle, scalar and vector form) and vector cross product
Lecture 12 Moment about a specific line or axis
Lecture 13 Simplification of force system and couple moment
Lecture 14 A couple moment
Lecture 15 Simplification and reduction of a distributed loading system
Section 3: Rigid Body Equilibrium and Dry Friction
Lecture 16 Free body diagram of a rigid body and its equilibrium in 2D
Lecture 17 Two and three force members
Lecture 18 Analysis of a rigid body using EOE in 2D
Lecture 19 Free body diagram of a rigid body and its equilibrium in 3D
Lecture 20 Analysis of a rigid body using EOE in 3D
Lecture 21 Dry Friction (Characteristics and problems)
Section 4: Structural Analysis and Internal Forces
Lecture 22 Simple Trusses and Method of Joints
Lecture 23 Method of Sections for the analysis of 2D trusses
Lecture 24 Space trusses analysis using the method of joints
Lecture 25 Analysis of Frames and Machines1
Lecture 26 Analysis of Frames and Machines 2
Lecture 27 Method of Sections to Determine Internal Forces
Lecture 28 Shear and Moment Equations and Diagrams
Section 5: Center of Gravity, Centroid and Moment of Inertia
Lecture 29 Concept and definition of centers
Lecture 30 Centers determination using integration
Lecture 31 Centers calculations of composite bodies
Lecture 32 Concept and definition of Moment of Inertia and radius of gyration
Lecture 33 Moment of Inertia determination using integration
Lecture 34 Moment of Inertia for regular shapes
Lecture 35 Moment of Inertia for composite areas
Engineering Students,People who want to prepare for engineering entrance exam and qualification,People who are passionate in learning mechanics
Published 12/2022
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 6.29 GB | Duration: 18h 14m
Download
http://s6.alxa.net/one/2022/12/Engi...cs.Statics.rar
