A Basics of Civil Engineering Drawing is the pictorial representation of any physical thing that may be a part of a machine, a building, a dam, or any other elaborate structure. It is possible to explain the shape of some simple objects in words, but not complex ones. It doesn’t matter how long or detailed a book is in describing a building’s shape, the reader will still be unable to see it. Words cannot accurately convey an object’s shape, leaving only three options: photos, models, and drawings.
Even if a dense book is written to describe the shape of a structure, the reader will be unable to visualize the exact shape of that building with all of its tiny nuances. It is safe to say that describing the shape of an object in words is nearly impossible, leaving just three options: camera images, models, and drawings.
Drawing instruments are used to draw straight lines, circles, and curves accurately concisely. The drawing tools are like the drawing board, mini drafter, instrument box containing compass, divider, etc.. set squares, protractor, french curves, drawing sheet, pencils, erasers.
About the author of Basics of Civil Engineering Drawing:
Zahid Ahmad Siddiqui
Zahid Ahmad Siddiqi, Ph.D., is a Professor in the Civil Engineering Department of the University of Engineering and Technology, Lahore. He is the author of the previous edition of this book published in 1992 besides various editions of four more books on subject titles “Steel Structures”, “LRFD Steel Design Aids”, “Concrete Structures, Part-I” and “Concrete Structures, Part-II”. Also has a teaching, research, and practical design experience of almost 27 years. Zahid Ahmad Siddiqui has vast experience of teaching undergraduate and graduate students of Civil Engineering. And is actively involved in the field design of sizeable concrete and steel structures. Learn more about him.
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The strength of materials, often known as mechanics of materials, is a study that deals with the behavior of strong items that are subjected to stresses and strains. To construct a total hypothesis of the versatile and plastic conduct of materials, the researchers began with the consideration of the conduct of one and two-dimensional individuals from structures whose stress conditions can be approximated as two dimensional and then added up three measurements to form a total hypothesis of the versatile and plastic conduct of materials. Stephen Timoshenko was a seminal figure in the history of mechanics of materials, having made significant contributions to the field.
Various ways for determining the weights and strains in auxiliary individuals, such as bars, sections, and shafts are frequently mentioned in the course of the assessment of the quality of materials. When predicting the reaction of a structure under stacking and its vulnerability to different disappointment modes, the techniques used take into account the properties of the materials, such as their yield quality, extreme quality, Young’s modulus, and Poisson’s proportion; in addition, the mechanical component’s plainly visible properties (geometric properties, such as its length and width) as well as limit requirements, as well as unexpected changes in geometry, such as gaps, are taken into consideration.
The following are some of the features of The Strength of Materials:
- This book offers several formulas for estimating the stresses and strains in structural members such as beams, columns, and shafts.
- There was a lot of useful information in this book about stress and strain calculation methodologies.
- Discover how to obtain the excellent knowledge and fundamental concepts contained within this book.
- It is possible to find all of the fundamental difficulties in this book.
- Problems are solved by using simple approaches and illustrations to visualise the solution.
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