[PDF] Civil Engineering Conventional & Objective Type – RS Khurmi

Civil engineering is one of the oldest and most fundamental branches of engineering that deals with designing, constructing, and maintaining the built environment. To excel in this field, one must have a strong foundation in the basics of civil engineering. This is where the book “Civil Engineering (Conventional & Objective Type)” by RS Khurmi and JK Gupta comes in handy.

Civil Engineering (Conventional & Objective Type) RS Khurmi & JK Gupta PDF
Civil Engineering (Conventional & Objective Type) RS Khurmi & JK Gupta PDF

This comprehensive textbook covers all the essential concepts of civil engineering and is an excellent resource for students, professionals, and anyone interested in the field. The book is divided into two parts, the conventional type, which covers the theoretical concepts, and the objective type, which includes multiple-choice questions to test the reader’s understanding of the subject.

[For the Students of UPSC (Engg. Services); IAS (Engg. Group); SSC-JE; B. Tech/B.E. / B.Sc. Engg.; Diploma and other Competitive Exams]

The authors have used simple language and included plenty of illustrations and diagrams to make the book easy to comprehend. Whether you’re preparing for competitive exams or looking to refresh your knowledge of civil engineering, this book is a must-have.

Civil Engineering (Conventional & Objective Type) Book – 7th Revised Edition

RS Khurmi & JK Gupta

“Civil Engineering: Conventional and Objective Type” has been a trusted resource for more than 30 years. It offers a comprehensive text accompanied by a collection of multiple-choice questions, which makes it an ideal study material for aspirants of various competitive examinations, such as GATE, UPSC, IAS, IES, and SSC-JE, among others. Additionally, it’s also useful for students preparing for university examinations.

Civil Engineering (Conventional & Objective Type )- R.S. Khurmi & J.K. Gupta
Civil Engineering (Conventional & Objective Type )- R.S. Khurmi & J.K. Gupta

The latest edition has 17 chapters that cover all the essential concepts of Civil Engineering in a detailed and simplified manner. The questions in the book are well-curated from reliable sources to give students an idea of how the questions are structured and what type of questions to expect on the exam day.

Book Details:-

Book Name:Civil Engineering (Conventional & Objective Type) book
Author/Publisher:RS Khurmi, KJ Gupta / S. Chand
Language:English
Edition:2023 (7th Revised)
No of Pages:617 Pages
File Type:PDF (Downloadable)
PDF Size:19.4 MB

Inside the Book:

I: ENGINEERING MECHANICS

  • 1.1 Introduction
  • 1.2 Force
  • 1.3 Resultant Force
  • 1.4 System of Forces
  • 1.5 Lami’s Theorem
  • 1.6 Moment of a Force
  • 1.7 Varignon’s Principle of Moments (or Law of Moments)
  • 1.8 Parallel Forces
  • 1.9 Couple
  • 1.10 Centre of Gravity
  • 1.11 Moment of Inertia
  • 1.12 Friction
  • 1.13 Limiting Friction
  • 1.14 Laws of Static Friction
  • 1.15 Laws of Dynamic or Kinetic Friction
  • 1.16 Coefficient of Friction
  • 1.17 Limiting Angle of Friction
  • 1.18 Angle of Repose
  • 1.19 Minimum Force Required to Slide a Body on a Rough Horizontal Plane
  • 1.20 Effort Required to Move the Body Up an Inclined Plane
  • 1.21 Effort Required to Move the Body Down an Inclined Plane
  • 1.22 Efficiency of an Inclined Plane
  • 1.23 Screw Jack
  • 1.24 Lifting Machine
  • 1.25 Systems of Pulleys
  • 1.26 Velocity Ratio of Lifting Machines
  • 1.27 Frame
  • 1.28 Speed
  • 1.29 Velocity
  • 1.30 Acceleration
  • 1.31 Equations of Linear Motion
  • 1.32 Newton’s Laws of Motion
  • 1.33 Mass, Weight and Momentum
  • 1.34 D-Alembert’s Principle
  • 1.35 Motion of a Lift
  • 1.36 Motion of Two Bodies Connected by a String
  • 1.37 Projectile
  • 1.38 Equation of the Path of a Projectile
  • 1.39 Angular Displacement
  • 1.40 Angular Velocity
  • 1.41 Angular Acceleration
  • 1.42 Equations of Angular Motion
  • 1.43 Simple Harmonic Motion
  • 1.44 Velocity and Acceleration of a Particle Moving with Simple Harmonic Motion
  • 1.45 Simple Pendulum
  • 1.46 Closely Coiled Helical Spring
  • 1.47 Compound Pendulum
  • 1.48 Centre of Percussion
  • 1.49 Torsional Pendulum
  • 1.50 Centripetal and Centrifugal Force
  • 1.51 Superelevation
  • 1.52 Collision of Two Bodies
  • 1.53 Work
  • 1.54 Power
  • 1.55 Energy
    OBJECTIVE TYPE QUESTIONS

II: STRENGTH OF MATERIALS

  • 2.1 Introduction
  • 2.2 Stress
  • 2.3 Strain
  • 2.4 Tensile Stress and Strain
  • 2.5 Compressive Stress and Strain
  • 2.6 Elasticity and Elastic Limit
  • 2.7 Young’s Modulus or Modulus of Elasticity
  • 2.8 Deformation of a Body under an External Force
  • 2.9 Shear Stress and Strain
  • 2.10 Shear Modulus or Modulus of Rigidity
  • 2.11 Stress in a Bar due to its Own Weight
  • 2.12 Stresses in Bars of Varying Sections
  • 2.13 Stresses in Bars of Uniformly Tapering Circular Section
  • 2.14 Stresses in Composite Bars
  • 2.15 Stresses due to Change in Temperature — Thermal Stresses
  • 2.16 Thermal Stresses in Bars of Tapering Section
  • 2.17 Primary or Linear Strain
  • 2.18 Secondary or Lateral Strain
  • 2.19 Poisson’s Ratio
  • 2.20 Volumetric Strain
  • 2.21 Bulk Modulus
  • 2.22 Bearing Stress or Crushing Stress
  • 2.23 Principal Stresses and Strains
  • 2.24 Stress on an Oblique Section of a Body Subjected to Direct Stresses in One Plane
  • 2.25 Stresses on an Oblique Section of a Body Subjected to Direct Stresses in Two Mutually Perpendicular Directions
  • 2.26 Stresses on an Oblique Section of a Body in One Plane Accompanied by a Simple Shear Stress
  • 2.27 Stresses on an Oblique Section of a Body Subjected to Direct Stresses in Two Mutually Perpendicular Directions Accompanied by a Simple Shear Stress
  • 2.28 Mohr’s Circle of Stresses
  • 2.29 Resilience
  • 2.30 Stress Induced in a Body Under Different Modes of Loading
  • 2.31 Types of Beams
  • 2.32 Types of Loading
  • 2.33 Shear Force and Bending Moment Diagrams
  • 2.34 Assumptions in Theory of Bending
  • 2.35 Bending Equation for Beams in Simple Bending
  • 2.36 Beams of Uniform Strength
  • 2.37 Beams of Composite Section (Flitched Beams)
  • 2.38 Shear Stresses in Beams
  • 2.39 Deflection of Beams
  • 2.40 Shear Stress in Shafts
  • 2.41 Strain Energy due to Torsion
  • 2.42 Shaft Subjected to Combined Bending and Torsion
  • 2.43 Springs
  • 2.44 Stiffness of a Spring
  • 2.45 Carriage Spring or Leaf Springs
  • 2.46 Closely Coiled Helical Springs
  • 2.47 Springs in Series and Parallel
  • 2.48 Riveted Joints
  • 2.49 Important Terms Used in Riveted Joints
  • 2.50 Failures of Riveted Joints
  • 2.51 Welded Joints
  • 2.52 Thin Cylindrical and Spherical Shells
  • 2.53 Change in Dimensions of a Thin Cylindrical Shell
  • 2.54 Thin Spherical Shells
  • 2.55 Thick Cylindrical and Spherical Shells
  • 2.56 Direct and Bending Stresses
  • 2.57 Limit of Eccentricity
  • 2.58 Columns and Struts
  • 2.59 Rankine’s Formula for Columns
  • 2.60 Dams and Retaining Walls
  • 2.61 Conditions for Stability of a Dam
  • 2.62 Active Earth Pressure
  • 2.63 Passive Earth Pressure
  • 2.64 Rankine’s Theory for Active Earth Pressure
  • 2.65 Reinforced Cement Concrete Beam
  • 2.66 Critical and Actual Neutral Axis
  • 2.67 Stresses due to Rotation
  • 2.68 Theories of Failure
  • 2.69 Mechanical Properties of Materials
  • 2.70 Stress-Strain Diagram for a Mild Steel Under Tensile Test
    OBJECTIVE TYPE QUESTIONS

III: HYDRAULICS & FLUID MECHANICS

  • 3.1 Introduction
  • 3.2 Important Terms Used in Hydraulics and Fluid Mechanics
  • 3.3 Properties of Liquid
  • 3.4 Pressure of a Liquid
  • 3.5 Pascal’s Law
  • 3.6 Atmospheric Pressure, Gauge Pressure and Absolute Pressure
  • 3.7 Measurement of Pressure
  • 3.8 Total Pressure and Centre of Pressure
  • 3.9 Lock Gates
  • 3.10 Archimedes’ Principle and Buoyancy
  • 3.11 Equilibrium of Floating Bodies
  • 3.12 Metacentre and Metacentric Height
  • 3.13 Fluid Kinematics
  • 3.14 Rate of Discharge
  • 3.15 Equation of Continuity
  • 3.16 Types of Flow Lines
  • 3.17 Continuity Equation for Three Dimensional Flow
  • 3.18 Types of Flows in a Pipe
  • 3.19 Velocity Potential
  • 3.20 Potential Line or Equi-potential Line
  • 3.21 Stream Function
  • 3.22 Flow Net
  • 3.23 Circulation
  • 3.24 Vorticity
  • 3.25 Dynamics of Fluid
  • 3.26 Different Types of Energies or Head of a Liquid in Motion
  • 3.27 Bernoulli’s Equation
  • 3.28 Euler’s Equation
  • 3.29 Venturimeter
  • 3.30 Orifice Meter and Pitot Tube
  • 3.31 Impulse Momentum Equation
  • 3.32 Kinetic Energy Correction Factor
  • 3.33 Momentum Correction Factor
  • 3.34 Orifice and Mouthpiece
  • 3.35 Hydraulic Coefficients
  • 3.36 Important Expressions used in Orifices and Mouthpieces
  • 3.37 Notches and Weirs
  • 3.38 Important Expressions used in Notches and Weirs
  • 3.39 Pipes and Channels
  • 3.40 Loss of Head due to Friction in Pipe
  • 3.41 Hydraulic Gradient and Total Energy Lines
  • 3.42 Pipes in Series or Compound Pipes
  • 3.43 Pipes in Parallel
  • 3.44 Syphon
  • 3.45 Power Transmitted through the Pipe
  • 3.46 Flow through Nozzle at the end of a Pipe
  • 3.47 Water Hammer
  • 3.48 Flow Through Open Channels
  • 3.49 Most Economical Section of a Channel
  • 3.50 Vortex Flow
  • 3.51 Viscous Flow
  • 3.52 Newton’s Law of Viscosity
  • 3.53 Viscous Resistance
  • 3.54 Compressible Flow of Fluids
  • 3.55 Velocity of Sound Wave
  • 3.56 Mach Number and its Importance
  • 3.57 Stagnation Point
  • 3.58 Flow Around Immersed Bodies
  • 3.59 Types of Forces Present in a Moving Liquid
  • 3.60 Dimensionless Numbers
    OBJECTIVE TYPE QUESTIONS

IV: HYDRAULIC MACHINES

  • 4.1 Introduction
  • 4.2 Impact of Jets
  • 4.3 Hydraulic Turbines
  • 4.4 Impulse Turbines
  • 4.5 Reaction Turbines
  • 4.6 Draft Tube
  • 4.7 Specific Speed
  • 4.8 Unit Speed, Unit Discharge and Unit Power
  • 4.9 Significance of Unit Speed, Unit Discharge and Unit Power
  • 4.10 Cavitation
  • 4.11 Centrifugal Pumps
  • 4.12 Multistage Centrifugal Pumps
  • 4.13 Specific Speed of Centrifugal Pump
  • 4.14 Net Positive Suction Head (NPSH)
  • 4.15 Model Testing and Similarity of Pumps
  • 4.16 Reciprocating Pump
  • 4.17 Air Vessels
  • 4.18 Miscellaneous Hydraulic Machines
    OBJECTIVE TYPE QUESTIONS

V: SURVEYING

  • 5.1 Introduction
  • 5.2 General Classification of Surveys
  • 5.3 Principles of Surveying
  • 5.4 Scales
  • 5.5 Measurement of Distance
  • 5.6 Instruments Used for Chaining
  • 5.7 Error in Length due to Incorrect Chain
  • 5.8 Chaining on Sloping Ground
  • 5.9 Correction for Slope
  • 5.10 Errors in Chaining
  • 5.11 Tape Correction
  • 5.12 Chain Surveying
  • 5.13 Instruments for Setting Out Right Angles
  • 5.14 Obstacles in Chaining
  • 5.15 Traverse Surveying
  • 5.16 Designation of Bearings
  • 5.17 Reduced Bearings
  • 5.18 Fore and Back Bearings
  • 5.19 Local Attraction, Dip and Magnetic Declination
  • 5.20 Theodolite Traversing
  • 5.21 Surveying Telescope
  • 5.22 Measurement of Horizontal Angles, Direct Angles, Deflection Angles and Vertical Angles
  • 5.23 Traverse Survey with a Theodolite
  • 5.24 Traverse Computations
  • 5.25 Balancing the Traverse
  • 5.26 Levelling
  • 5.27 Simple and Differential Levelling
  • 5.28 Reduction of Levels
  • 5.29 Contouring
  • 5.30 Methods of Contouring
  • 5.31 Interpolation of Contours
  • 5.32 Plane Table Surveying
  • 5.33 Methods of Plane Tabling
  • 5.34 Two Point Problem and Three Point Problem
  • 5.35 Curves
  • 5.36 Transition Curves
  • 5.37 Tacheometric Surveying
  • 5.38 Computation of Areas
    OBJECTIVE TYPE QUESTIONS

VI: BUILDING MATERIALS

  • 6.1 Introduction
  • 6.2 Stones
  • 6.3 Important Building Stones
  • 6.4 Bricks
  • 6.5 Manufacture of Bricks
  • 6.6 Classification of Bricks
  • 6.7 Special Bricks
  • 6.8 Building Tiles
  • 6.9 Lime
  • 6.10 Types of Lime
  • 6.11 Cement
  • 6.12 Testing of Portland Cement
  • 6.13 Mortar and Concrete
  • 6.14 Timber
  • 6.15 Seasoning of Timber
  • 6.16 Defects in Timber
  • 6.17 Paints
  • 6.18 Varnishes
  • 6.19 Lacquers
  • 6.20 Distempers
    OBJECTIVE TYPE QUESTIONS

VII: IRRIGATION ENGINEERING

  • 7.1 Introduction
  • 7.2 Classification of Soil Water
  • 7.3 Terms used in Irrigation
  • 7.4 Base Period, Delta and Duty
  • 7.5 Commanded Areas
  • 7.6 Methods of Distribution of Irrigation Water
  • 7.7 Consumptive Use of Water
  • 7.8 Hydrology
  • 7.9 Hydrological Cycle
  • 7.10 Hydrograph, Hyetograph
  • 7.11 Precipitation
  • 7.12 Average Depth of Precipitation
  • 7.13 Run-off and Catchment
  • 7.14 Estimation of Maximum Flood Discharge
  • 7.15 Irrigation Canals
  • 7.16 Canal Alignment
  • 7.17 Layout of Canal System
  • 7.18 Terms Relating to Canal Section
  • 7.19 Canal Lining
  • 7.20 Kennedy’s Silt Theory
  • 7.21 Lacey’s Theory
  • 7.22 Water Logging
  • 7.23 Canal Regulatory Works
  • 7.24 Regulators
  • 7.25 Escapes
  • 7.26 Canal Falls
  • 7.27 Canal Outlets or Modules
  • 7.28 Canal Head Works
  • 7.29 Weir or Barrage
  • 7.30 Bligh’s Creep Theory
  • 7.31 Khosla’s Theory
  • 7.32 River Training Works
  • 7.33 Types of River Training Works
  • 7.34 Cross-Drainage Works
    OBJECTIVE TYPE QUESTIONS

VIII: ENVIRONMENTAL ENGINEERING

  • 8.1 Introduction
  • 8.2 Sources of Water
  • 8.3 Yield of a Well
  • 8.4 Quantity of Water
  • 8.5 Forecasting Population
  • 8.6 Quality of Water
  • 8.7 Physical Examination of Water
  • 8.8 Chemical Examination of Water
  • 8.9 Living Organisms in Water
  • 8.10 Biological Tests
  • 8.11 Water Treatment
  • 8.12 Softening of Water
  • 8.13 Distribution of Water
  • 8.14 Water Distribution System
  • 8.15 Methods of Water Distribution System
  • 8.16 Sanitary Engineering
  • 8.17 Terms used in Sanitary Engineering
  • 8.18 Storm Sewage
  • 8.19 Design of Sewers
  • 8.20 Methods of Sanitation
  • 8.21 Sewerage Systems
  • 8.22 Classification of Sewers
  • 8.23 Sewer Joints
  • 8.24 Sewerage Appurtenances
  • 8.25 House Drainage
  • 8.26 Plumbing Systems
  • 8.27 Traps
  • 8.28 Privy
  • 8.29 Sewage Disposal
  • 8.30 Sewage Treatment
  • 8.31 Classification of Sewage Treatment
  • 8.32 Air Pollution
  • 8.33 Pollution Standard Index
    OBJECTIVE TYPE QUESTIONS

IX: HIGHWAY ENGINEERING

  • 9.1 Introduction
  • 9.2 Classification of Roads
  • 9.3 Components of a City Road
  • 9.4 Water Bound Macadam Roads
  • 9.5 Elements of Transportation Cost of Highway
  • 9.6 Various Components of a Road Surface
  • 9.7 Camber
  • 9.8 Superelevation
  • 9.9 Gradient
  • 9.10 Sight Distance
  • 9.11 Curves
  • 9.12 Transition Curve
  • 9.13 Vertical Curves
  • 9.14 Procedure for Fixing Alignment of a Hill Road
  • 9.15 Important Terms Used in Hill Roads
  • 9.16 Classification of Hill Roads
  • 9.17 Geometrics of Hill Road
  • 9.18 Construction of Hill Roads (Retaining Walls, Breast Walls and Parapets)
  • 9.19 Flexible Pavement
  • 9.20 Structure of a Road
  • 9.21 Flexible Pavement Design
  • 9.22 Group Index Method
  • 9.23 California Bearing Ratio (C.B.R) Method
  • 9.24 Concrete Pavements
  • 9.25 Stresses in Concrete Pavements
  • 9.26 Thickness of the Slab
  • 9.27 Joints in Concrete Pavement
  • 9.28 Criteria for Highway Design
  • 9.29 Traffic Engineering
  • 9.30 Traffic Signs
  • 9.31 Traffic Signals
  • 9.32 Types of Signals
  • 9.33 Signal Systems
    OBJECTIVE TYPE QUESTIONS

X: RAILWAY ENGINEERING

  • 10.1 Introduction
  • 10.2 Railway Gauges
  • 10.3 Rail Sections
  • 10.4 Length of Rail
  • 10.5 Rail Joints
  • 10.6 Coning of Wheels
  • 10.7 Tilting of Rails
  • 10.8 Hogging of Rails
  • 10.9 Buckling of Rails
  • 10.10 Creep of Rails
  • 10.11 Wear of Rails
  • 10.12 Fish Plates
  • 10.13 Sleepers
  • 10.14 Types of Sleepers
  • 10.15 Sleeper Density
  • 10.16 Ballast
  • 10.17 Railway Fastenings and Fixtures
  • 10.18 Gradient
  • 10.19 Superelevation
  • 10.20 Cant Deficiency
  • 10.21 Negative Superelevation or Cant
  • 10.22 Curves
  • 10.23 Plate Laying
  • 10.24 Railway Station
  • 10.25 Platform
  • 10.26 Railway Yards
  • 10.27 Important Terms Used in Rails
  • 10.28 Points and Crossings
  • 10.29 Crossings
  • 10.30 Track Junctions
  • 10.31 Signalling
  • 10.32 Signalling System
  • 10.33 Interlocking
    OBJECTIVE TYPE QUESTIONS

XI: SOIL MECHANICS & FOUNDATION

  • 11.1 Introduction
  • 11.2 Properties of Fine Grained Soil
  • 11.3 Three Phase System of Soil
  • 11.4 Technical Terms used in Soil Mechanics
  • 11.5 Important Relationships Between Soil Parameters
  • 11.6 Determination of Properties of Soils
  • 11.7 Sensitivity of Clays
  • 11.8 Soil Structure
  • 11.9 Permeability
  • 11.10 Seepage Pressure
  • 11.11 Flow Lines and Equipotential Lines
  • 11.12 Exit Gradient
  • 11.13 Stress Conditions in Soil
  • 11.14 Compressibility and Consolidation
  • 11.15 Coefficient of Compressibility
  • 11.16 Coefficient of Consolidation
  • 11.17 Degree of Consolidation
  • 11.18 Shear Strength of Soils
  • 11.19 Angle of Internal Friction
  • 11.20 Coulomb’s Law
  • 11.21 Earth Pressure
  • 11.22 Coefficient of Earth Pressure
  • 11.23 Active Earth Pressure of Cohesive Soils
  • 11.24 Foundations
  • 11.25 Bearing Capacity of Soil
  • 11.26 Terzaghi’s Analysis
    OBJECTIVE TYPE QUESTIONS

XII: BUILDING CONSTRUCTION

  • 12.1 Introduction
  • 12.2 Types of Foundations
  • 12.3 Types of Shallow Foundations
  • 12.4 Foundations for Black Cotton Soils
  • 12.5 Types of Deep Foundations
  • 12.6 Classification of Piles
  • 12.7 Pile Driving
  • 12.8 Coffer Dams
  • 12.9 Caissons
  • 12.10 Design of Shallow Foundations
  • 12.11 Damp-proofing
  • 12.12 Cavity Wall
  • 12.13 Scaffolding
  • 12.14 Shoring
  • 12.15 Underpinning
  • 12.16 Stone Masonry
  • 12.17 Classification of Stone Masonry
  • 12.18 Brick Masonry
  • 12.19 Bonds in Brick Work
  • 12.20 Retaining Walls and Breast Walls
  • 12.21 Partition Wall
  • 12.22 Flooring
  • 12.23 Stairs
  • 12.24 Arches
  • 12.25 Classification of Arches
  • 12.26 Doors and Windows
  • 12.27 Types of Doors and Windows
  • 12.28 Roofs
  • 12.29 Technical Terms Used in Pitched Roofs
  • 12.30 Types of Pitched Roofs
    OBJECTIVE TYPE QUESTIONS

XIII: CONCRETE TECHNOLOGY

  • 13.1 Introduction
  • 13.2 Properties of Concrete
  • 13.3 Classification of Concrete
  • 13.4 Functions of Ingredients of Cement
  • 13.5 Composition of Cement Clinker
  • 13.6 Setting and Hardening of Cement
  • 13.7 Types of Cements
  • 13.8 Testing of Portland Cement
  • 13.9 Aggregate
  • 13.10 Specific Gravity and Bulk Density of Aggregate
  • 13.11 Properties of Aggregate
  • 13.12 Bulking of Sand
  • 13.13 Deleterious Materials in Aggregates
  • 13.14 Fineness Modulus
  • 13.15 Water
  • 13.16 Admixtures
  • 13.17 Water Cement Ratio
  • 13.18 Workability
  • 13.19 Measurement of Workability
  • 13.20 Concrete Grades
  • 13.21 Methods of Proportioning Concrete
  • 13.22 Storing of Ingredients of Concrete
  • 13.23 Production of Concrete
  • 13.24 Stripping of Forms
    OBJECTIVE TYPE QUESTIONS

XIV: REINFORCED CEMENT CONCRETE STRUCTURES

  • 14.1 Introduction
  • 14.2 Assumptions in R.C.C. Beam Design
  • 14.3 Direct Tension and Compression in Concrete
  • 14.4 Design of R.C.C. Structures
  • 14.5 Design of Singly Reinforced Beams
  • 14.6 Types of Beam Sections
  • 14.7 Shear Stress in Reinforced Beams
  • 14.8 Bond Stress
  • 14.9 Doubly Reinforced Section
  • 14.10 T-beam
  • 14.11 Columns
  • 14.12 Slabs
  • 14.13 Reinforcement in Slabs
  • 14.14 Bending Moment in Slabs
  • 14.15 Two Ways Slabs
  • 14.16 Flat Slab
  • 14.17 Circular Slab
  • 14.18 Ribbed, Hollow Block or Voided Slab
  • 14.19 Foundations
  • 14.20 Design of Shallow Foundations
  • 14.21 Design of Deep Foundations
  • 14.22 Retaining Walls
  • 14.23 Earth Pressure on Retaining Walls
  • 14.24 Staircase
  • 14.25 Prestressed Concrete
  • 14.26 Losses in Prestressing
  • 14.27 Analysis of Prestress
  • 14.28 Concept of Load Balancing
  • 14.29 Ultimate Load Theory or Load Factor Method of R.C.C. Design
    OBJECTIVE TYPE QUESTIONS

XV: STEEL STRUCTURES DESIGN

  • 15.1 Introduction
  • 15.2 Structural Steel Sections
  • 15.3 Important Terms
  • 15.4 Riveted Joints
  • 15.5 Assumption in the Theory of Riveted Joints
  • 15.6 Failures of a Riveted Joint
  • 15.7 Eccentric Riveted Connections
  • 15.8 Welded Joints
  • 15.9 Compression Members
  • 15.10 Euler’s Formula
  • 15.11 Angle Iron Struts
  • 15.12 Compression Member Composed of Two Components Back-to-Back
  • 15.13 Lacing and Battening for Built-up Columns
  • 15.14 Batten Plates
  • 15.15 Perforated Plates
  • 15.16 Eccentrically Loaded Column
  • 15.17 Column Splice
  • 15.18 Column Bases
  • 15.19 Tension Members
  • 15.20 Net Sectional Area
  • 15.21 Design of Axially Loaded Tension Member
  • 15.22 Tension Member Subjected to Bending
  • 15.23 Tension Splice
  • 15.24 Lug Angle
  • 15.25 Beams
  • 15.26 Design Considerations of a Beam
  • 15.27 Design of Beams
  • 15.28 Built-up Beams
  • 15.29 Lintels
  • 15.30 Jack Arch Roofs
  • 15.31 Beam and Column Connections
  • 15.32 Plate Girder
  • 15.33 Design of a Plate Girder
    OBJECTIVE TYPE QUESTIONS

XVI: CONSTRUCTION MANAGEMENT

  • 16.1 Introduction
  • 16.2 Functions of Construction Management
  • 16.3 Classification of Construction Works
  • 16.4 Construction Stages
  • 16.5 Construction Team
  • 16.6 Resources in a Construction Project
  • 16.7 Construction Planning
  • 16.8 Construction Scheduling
  • 16.9 Organisation
  • 16.10 Principles of Organisation
  • 16.11 Methods of Planning and Scheduling
  • 16.12 Bar Chart or Gantt Chart
  • 16.13 Milestone Chart
  • 16.14 Network Planning and Scheduling (NWPS)
  • 16.15 Terms used in Network Planning Methods
  • 16.16 Critical Path Method (CPM)
  • 16.17 Programme Evaluation Review Technique (PERT)
    OBJECTIVE TYPE QUESTIONS

XVII: ENGINEERING GEOLOGY

  • 17.1 Introduction
  • 17.2 General Geology
  • 17.3 Petrology
  • 17.4 Engineering Geology
  • 17.5 Indian Geology
  • 17.6 Our Solar System
  • 17.7 Parts of the Earth
  • 17.8 Earth’s Crust
  • 17.9 Interior of the Earth
  • 17.10 Palaeontology
  • 17.11 Mineralogy
  • 17.12 Physical Properties of a Mineral
  • 17.13 Physical Properties of Some Important Minerals
  • 17.14 Petrology
  • 17.15 Rocks
  • 17.16 Igneous Rocks
  • 17.17 Classification of Igneous Rocks
  • 17.18 Engineering Properties of Igneous Rocks
  • 17.19 Description of Igneous Rocks
  • 17.20 Sedimentary Rocks
  • 17.21 Classification of Sedimentary Rocks
  • 17.22 Description of Sedimentary Rocks
  • 17.23 Metamorphic Rocks
  • 17.24 Metamorphism
  • 17.25 Classification of Metamorphic Rocks
  • 17.26 Description of Metamorphic Rocks
  • 17.27 Physical Geology
  • 17.28 Rock Weathering
  • 17.29 Engineering Importance of Rock Weathering
  • 17.30 Geological Work of Wind
  • 17.31 Structural Geology
  • 17.32 Important Terms Used in Structural Geology
  • 17.33 Field Geology
  • 17.34 Hydrology
  • 17.35 Hydrologic Cycle
  • 17.36 Earth Movements and Volcanic Activities
  • 17.37 Earthquakes
  • 17.38 Earthquake Problems in India
  • 17.39 Engineering Considerations of Earthquakes
  • 17.40 Landslides
  • 17.41 Volcanoes
  • 17.42 Products of Eruption
  • 17.43 Civil Engineering Geology
  • 17.44 Road Metals
  • 17.45 Building Stones
  • 17.46 Physiography of India
  • 17.47 Physiographic Divisions of India
  • 17.48 Mountains
  • 17.49 Indian mountains
  • 17.50 Valleys
  • 17.51 Indian Lakes
  • 1752 Stratigraphy of India
  • 17.53 The Archaean System
  • 17.54 The Dharwar System
  • 17.55 The Cuddapah System
  • 17.56 The Vindhyan System
  • 17.57 The Cambrian System
  • 17.58 The Gondwana System
  • 17.59 Coal
  • 17.60 Petroleum
    OBJECTIVE TYPE QUESTIONS

Key Features of this Book:

  • Over 5000 Objective Questions with Hints
  • At the end of each chapter, you will find the solutions to these questions.
  • Ultimately, this book aims to fulfill the needs of engineering students and gain recognition from educators.

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