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Based on the syllabus of Pokhara University(PU), Bachelor of Civil Engineering(BE) 6th Semester. Concrete Note PU.pdf

Description: A Textbook of Strength of Materials contains twenty five chapters. This edition has been thoroughly revised and made up-to-date. A large number of numerical problems from different B.E. degree examinations have been added with solution at proper places. At the end of each chapter, highlights, theoretical questions and many unsolved numerical problems with answers have been given for the students to practice them. Three advanced topics--stresses due to rotation in thin and thick cylinders, bending of curved bars and theories of failures of the materials have also been added. These chapters have been written in such a simple and easy-to-follow language that even an average student can understand them easily by self-study. A large number of Objective Type Multiple Choice Questions, asked in the most of the competitive examinations, have been incorporated in this edition with answers and explanations to make this edition more useful for competitive examinations. Table of Contents Chapter 1. Simple Stresses and Strains Chapter 2. Elastic Constants Chapter 3. Principal Stresses and Strains Chapter 4. Strain Energy and Impact Loading Chapter 5. Centre of Gravity and Moment of Inertia Chapter 6. Shear Force and Bending Moment Chapter 7. Bending Stresses in Beams Chapter 8. Shear Stresses in Beams Chapter 9. Direct and Bending Stresses Chapter 10. Dams and Retaining Walls Chapter 11. Analysis of Perfect Frames Chapter 12. Deflection of Beams Chapter 13. Deflection of Cantilevers Chapter 14. Conjugate Beam Method, Propped Cantilevers and Beams Chapter 15. Fixed and Continuous Beams Chapter 16. Torsion of Shafts and Springs Chapter 17. Thin Cylinders and Spheres Chapter 18. Thick Cylinders and Spheres Chapter 19. Columns and Struts Chapter 20. Riveted Joints Chapter 21. Welded Joints Chapter 22. Rotating Discs and Cylinders Chapter 23. Bending of Curved Bars Chapter 24. Theories of Failure Chapter 25. Unsymmetrical Bending and Shear Centre Chapter 26. Objective Type Questions Subject Index DOWNLOAD PDF

Description Building Materials is a comprehensive book for undergraduate students of civil engineering. The book comprises of chapters on the manufacturing process, physical and mechanical properties, economics, and applications of building materials. In addition, the book consists of a plethora of solved and unsolved questions for thorough practice and revision. This book is essential for civil engineering students preparing for various competitive examinations such as GATE, IES, etc. About S. K. Duggal Dr. S. K. Duggal is an Indian author and educationist. He is a professor in the Department of Civil Engineering at MNNIT, Allahabad. His research interests include topics like earthquake engineering, ferro cement, and reliability. He has authored books like Design Of Steel Structure, Limit State Design Of Steel Structures, Earthquake Resistant Design Of Structure, etc. building_materials_duggal.pdf

What Is Staircase? A staircase is a set of steps that lead from one floor to another. It is provided to allow the means of ascending and descending between the various floors of the building. The room or enclosure of the building, in which the staircase is located, is known as a staircase. The opening or space occupied by the stairs is known as the staircase. In a domestic building, the stairs must be centrally located to facilitate access to all rooms. In public buildings, the stairs must be located close to the entrance. Stairs can be built with wood, bricks, stone, steel or reinforced concrete. Stairs provide access and communication between floors of multi-story buildings and are a pathway through which fire can spread from floor to floor. Therefore, the staircase must be surrounded by walls, floors, roof, and fire-resistant doors. It is desirable that the wall and ceiling coverings are non-combustible and with the low flame spread. Another important aspect in the design of stairs is the aspect of strength. It must be designed to carry certain loads, similar to those used for floor design. What Is Dog-Legged Staircase? The dog-legged staircase is one of the simplest forms of stairs in which a flight of stairs goes up to a half step before turning 180 degrees and continuing upwards. It is also called Dog Legged Staircase, because of its appearance in sectional elevation. It is a very common and popular type of staircase and is used in public and residential buildings. It consists of two flights that run in opposite directions, separated by a landing in the middle space or a quarter in space and a set of rollers. The dog-legged stair is so named because the slope of the staircase is similar to the dog’s leg. When the available space is equal to twice the width of the stairs, the dog-legged staircase is used. From the design point of view, the advantage of this staircase lies in its compact layout and better circulation. Therefore, it finds application in almost all types of buildings, whether residential, commercial or institutional. It is common to find sketching such a staircase in architectural projects. But such a simple staircase does not result in a smooth handrail, which is one of the essential components of any staircase. Handrails are provided to provide assistance and protection and must be fixed at a convenient height from ground level. They must be of satisfactory size and shape to allow them to be easily grasped by the hand. Details of Dog-Legged Staircase The stairs provide access to several floors of the building. The staircase consists of a series of steps (flights) with landings at appropriate intervals. The stairs are made up of individual steps. Each step consists of a tread and a riser. The floor is the flat part you step on. The riser is the vertical part (up and down) between each step of the stair. step and riser. Dog-Legged Staircase is the most economical staircase. These stairs are arranged with two adjacent flights, parallel to an average landing. Where space is less, a dog-legged staircase usually provided, resulting in economical use of the available space. In this type of staircase, the landing is provided according to the level at which the direction of the flight changes. Advantages of Dog-Legged Staircase Efficient use of space: This type of staircase covers much less area than straight They allow for a more compact stair arrangement. Privacy: These stairs are great if you want to separate one floor from another for any reason. As the top floor cannot be seen and vice versa, these stairs offer ample privacy to users. Disadvantages of Dog-Legged Staircase Difficult to build: These stairs are not very easy to build. Handrails on these stairs also need careful planning.

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A must have book for all civil engineers. 🙂 DISCLAIMER: We are not a publisher of this book. This e-book link has been collected from other websites on internet. All the rights on this book belongs and reserved to Respective Publishers. Our all E-book, Content and resource are free to download and usable for Learners, Students and Practitioner who are not eligible to purchase book. Note- Always purchase the original book from the respective author if you can. DOWNLOAD PDF

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Highway Engineering by SK Khanna and C E G Justo is a book where you can learn the basic concept of Road and Transportation Engineering. Table of Content 1. Introduction 2. Highway Development and Planning 3. Highway alignment and surveys 4. Highway geometric Design 5. Traffic Engineering 6. Highway Materials 7. Design of Highway Pavement 8. Highway Construction 9. Soil Stabilized Roads 10. Highway Maintenance 11. Highway Drainage 12. Hill Roads 13. Road Side Development 14. Highway Economics and Finance Index DISCLAIMER: We are not a publisher of this book. This e-book link has been collected from other websites on internet. All the rights on this book belongs and reserved to Respective Publishers. Our all E-book, Content and resource are free to download and usable for Learners, Students and Practitioner who are not eligible to purchase book. Note- Always purchase the original book from the respective author if you can. DOWNLOAD PDF

This course has been designed to provide basic knowledge of engineering mechanics to the students of all branches of engineering so that it would be helpful for them to understand structural engineering stress analysis principles in later courses or to use basics of mechanics in their branch of engineering. This course shall be considered as an introduction: common for all engineering faculties of Tribhuvan University in the first year of undergraduate. Emphasis has been given to Statics. 1. Introduction (2 hours) 1.1 Definitions and scope of Applied Mechanics 1.2 Concept of Rigid and Deformed Bodies 1.3 Fundamental concepts and principles of mechanics: Newtonian Mechanics 2. Basic Concept in Statics and Static Equilibrium (4 hours) 2.1 Concept of Particles and Free Body Diagram 2.2 Physical meaning of Equilibrium and its essence in structural application 2.3 Equation of Equilibrium in Two Dimension 3. Forces acting on particle and rigid body (6 hours) 3.1 Different types of Forces: Point, Surface Traction and Body Forces - Translational Force and Rotational Force: Relevant Examples 3.2 Resolution and Composition of Forces: Relevant Examples 3.3 Principle of Transmissibility and Equivalent Forces: Relevant Examples 3.4 Moments and couples: Relevant Examples 3.5 Resolution of a Force into Forces and a Couple: Relevant Examples 3.6 Resultant of Force and Moment for a System of Force: Examples 4. Center of Gravity, Centroid and Moment of Inertia (6 hours) 4.1 Concepts and Calculation of Centre of Gravity and Centroid: Examples 4.2 Calculation of Second Moment of Area / Moment of Inertia and Radius of Gyration: And Relevant usages 4.3 Use of Parallel axis Theorem: Relevant Examples 5. Friction (2 hours) 5.1 Laws of Friction, Static and Dynamic Coefficient of Friction, Angle of Friction: Engineering Examples of usage of friction 5.2 Calculations involving friction in structures: Example as High Tension Friction Grip bolts and its free body diagram 6. Analysis of Beams and Frames (9 hours) 6.1 Introduction to Structures: Discrete and Continuum 6.2 Concept of Load Estimating and Support Idealizations: Examples and Standard symbols 6.3 Use of beams/frames in engineering: Concept of rigid joints/distribute loads in beams/frames. 6.4 Concept of Statically/Kinematically Determinate and Indeterminate Beams and Frames: Relevant Examples 6.5 Calculation of Axial Force, Shear Force and Bending Moment for Determinate Beams and Frames 6.6 Axial Force, Shear Force and Bending Moment Diagrams and Examples for drawing it. 7. Analysis of Plane Trusses (4 hours) 7.1 Use of trusses in engineering: Concept of pin joints/joint loads in trusses. 7.2 Calculation of Member Forces of Truss by method of joints: Simple Examples 7.3 Calculation of Member Forces of Truss by method of sections: Simple Examples 8. Kinematics of Particles and Rigid Body (7 hours) 8.1 Rectilinear Kinematics: Continuous Motion 8.2 Position, Velocity and Acceleration of a Particle and Rigid Body 8.3 Determination of Motion of Particle and Rigid Body 8.4 Uniform Rectilinear Motion of Particles 8.5 Uniformly Accelerated Rectilinear Motion of Particles 8.6 Curvilinear Motion: Rectangular Components with Examples of Particles 9. Kinetics of Particles and Rigid Body: Force and Acceleration (5 hours) 9.1 Newton’s Second Law of Motion and momentum 9.2 Equation of Motion and Dynamic Equilibrium: Relevant Examples 9.3 Angular Momentum and Rate of Change 9.4 Equation of Motion-Rectilinear and Curvilinear 9.5 Rectangular: Tangential and Normal Components and Polar Coordinates: Radial and Transverse Components Applied Mechanics.pdf

This book is written by Mahesh Chandra Luitel. It is based on the syllabus of Tribhuvan University, Institute of Engineering(IOE). I did not create this pdf file, it is taken from the various source and i am sharing this for educational purpose. You can download the file from the link given below. DOWNLOAD PDF

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Title: Mastering AutoCad 2019 And AutoCad LT 2019 Publication: Sybex Author: George Omura, Brain C Benton Pages 1062 Edition 1st Language English Format PDF Pdf Size 47 mb DOWNLOAD PDF

TABLE OF CONTENT IN THIS BOOK Solution Manual of Mechanics of materials Chapter 1 Introduction- concept of Stress Chapter 2 stress and strain- axial loading Chapter 3 Torsion Chapter 4 Pure bending Chapter 5 Analysis and Design of beams for bending Chapter 6 Stresses in beams and thin walled members due to shear Chapter 7 Transformations of Stress and strain Chapter 8 Principle stress under given loading Chapter 9 Deflection of beams Chapter 10 Columns Chapter 11 Energy Methods DOWNLOAD PDF

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Table of Contents Define Material Define and Assign Beams Sections Define Assign Column _ Define and Assign Slab Section properties Add Stairs to Assign and Slab Define Load Cases and Load Combination Replicate Specify Meshing Option for Shell Element (Slab Draw Dummy Walls and Assign Wind Load Assign Spring Run View Analysis Download

Based On the syllabus of Pokhara University(PU). 🙂 structure analysis II.pdf

This tutorial solution is based on the syllabus of Tribhuvan University, Institute of Engineering (IOE). But it is equally helpful for other universities as well. water supply Tutorial Solutions.pdf

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Engineering Hydrology.pdf