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Based on the syllabus of Pokhara University. Applied Mechanics Complete Handwritten PU.pdf

Based on the syllabus of Pokhara University(PU), Bachelor of Civil Engineering(BE). Building Technology Complete Note.pdf

This is the link for a zip file where you can find almost all subjects notes for ioe Semester II which includes Applied Mechanics Engineering Physics Basic Electrical Engineering Basic Electronics Engineeeing Engineering Drawing II Engineering Mathematics II Note:To download Please make sure that copy link and paste in some browser or open it with chrome browser.Dont open it with google drive. https://drive.google.com/file/d/1cE1ojbv6jAKx0eGqxKZJqSQSFAIrUYhc/view?usp=drivesdk

Based on the syllabus of Tribhuvan University(TU), Institute of Engineering(IOE), Bachelor in Civil Engineering(BCE) 5th semester. Foundation Engineering Complete.zip

Numerical method note4.pdf

thermodynamics handwritten.pdf

TOS 1 Note TU.pdf

Based on the syllabus of Pokhara University. It covers all the chapters of Strength of Materials(SOM). SOM Handwritten Notes PU.pdf

soil meachanics Handwritten.pdf

Based on the Syllabus of Pokhara University(PU). Water Supply Note.pdf

Based on the syllabus of Pokhara University!! Soil Mechanics Tutorial Soln PU.pdf

EPP Notes and Slides.zip

Estimation and Costing.pdf

CIVIL ENGINEERING MATERIALS CEM Note PU.pdf

Based on the syllabus of TU(IOE), Bachelor of civil engineering (BCE) 6th semester. Communication English.zip

Water Supply Engineering Course Objective: This course is aimed at teaching the students the functions of the various components of the water supply system, water resources and their utilization, determination of water demand, water quality, intake construction, water treatment technology and construction of water mains and distribution. 1.Introduction [2 hours] Importance of water Definition of types of water Pure and impure water Potable and wholesome water Polluted and contaminated water Historical development of water supply system Objectives of water supply system Schematic diagram of typical water supply system Components of water supply system and their functions 2.Sources of Water [4 hours] Classification of sources of water Surface sources Rivers Streams Lakes Ponds Impounded reservoir Numerical on capacity determination of impounded reservoir Ground sources Confined and unconfined aquifers Springs Wells Infiltration galleries and wells Selection of water sources 3.Quantity of Water [5 hours] Per capita demand of water Design and base periods Typical design and base periods Selection basis Design and base years Types of water demand Domestic demand Livestock demand Commercial demand Public/municipal demand Industrial demand Fire fighting demand Loss and wastage Total water demand Variation in demand of water Peak factor Factors affecting demand of water Population forecasting - necessity and methods Arithmetical increase method Geometrical increase method Incremental increase method Decrease rate of growth method Numerical on population forecasting and water demands 4.Quality of Water [5 hours] Impurities in water, their classification and effects Suspended impurities Colloidal impurities Dissolved impurities Hardness and alkalinity Types of hardness Types of alkalinity Relation between hardness and alkalinity Numerical on hardness and alkalinity Living organisms in water Algae Bacteria Viruses Worms Water related diseases Water borne diseases Water washed diseases Water based diseases Water vector diseases Transmission routes Preventive measures Examination of water Physical examination of water(tests for temperature, color and turbidity) Chemical examination of water (tests for pH, suspended, dissolved and total solids) Biological examination of water(multiple tube and membrane fermentation method), most probable number Water quality standard for drinking purpose 5.Intakes [3 hours] Definition Site selection of an intake Classification of intake Characteristics of intake River intakes Reservoir intake Spring intake 6.Water Treatment [14 hours] Objectives of water treatment Treatment processes and impurity removal Screening Purpose Coarse, medium and fine screens Plain Sedimentation Purpose Theory of settlement Derivation of Stoke's law Temperature effect on settlement Ideal sedimentation tank Types of sedimentation tank Design of sedimentation tank Numerical on theory and design of sedimentation tank Sedimentation with coagulation Purpose Coagulants (types and their chemical reactions) Mixing devices (purpose and types) Flocculation tanks Clarifier Jar test Filtration Purpose Theory of filtration Types of filters Slow sand filter Rapid sand filter Pressure filter Numerical on dimensions and units of filters Disinfection Purpose Methods of disinfection (introduction only) Chlorination (theory, chlorine demand, chlorine dose, residual chlorine, contact time Types of chlorine (hypochlorites, chloramines, liquid/gas chlorine) Forms of chlorination (plain chlorination, pre chlorination, post chlorination, double chlorination, multiple chlorination, breakpoint chlorination, super chlorination, dechlorination) Factors affecting efficiency of chlorination Softening Purpose Removal of temporary hardness Boiling method Lime treatment method Removal of permanent hardness Lime soda method Zeolite method Ionizaton method Miscellaneous treatmentsAeration Purpose Methods of aeration Removal of iron and manganese Removal of color, odor and taste 7.Reservoirs and Distribution System [6 hours] System of supply Continuous system Intermittent system Clear water reservoirs Service reservoirs Purpose and Construction Types of service reservoirs Numerical on capacity determination of service reservoirs Layout of distribution system Tree system Grid iron system Ring system Radial system Design of distribution system Pipe hydraulics Design criteria Design steps Hard cross method Numerical on design of branched and looped water distribution systems 8.Conveyance of Water [3 hours] Pipe materials Requirements of good material Types of pipe material – CI, GI, steel, concrete, PVC, PPR, DI pipes Pipe joints Purpose Types – socket and spigot, flanged, expansion, collar and screwed socket joints Laying of pipes Valves and Fittings [3 hours]Valves Purpose Types – sluice, reflux, safety, air and drain valves Fittings Purpose Types – stop cocks, water taps, bends, reducers, tees Break pressure tank – purpose and construction Public standpost Purpose Location flows Construction Maintenance of water supply system Necessity Methods-regular and emergency References: BC. Punmia, Ashok Kuamr Jain and Arun Kumar Jain, "Water Supply Engineering", Laxmi Publications (P) Ltd., New Delhi, 1998 P.N. Modi, "Water Supply engineering", Standard Book House, Delhi, 1998 G.S. Birdie and J.S. Birdie, "Water Supply and Sanitary Engineering", Dhanpat Rai Publishing Company (P) Ltd,. New Delhi, 2002 K.N. Duggal, "Elements of Environmental Engineering"' S. Chand and company Ltd.., New Delhi, 1997 Practical: Determination of temperature, color, turbidity and pH Determination of suspended, dissolved and total solids Determination dissolved oxygen by Winkler method Determination of optimum dose of coagulant by jar test apparatus Tutorials: Introduction (1 hour) Definitions, Schematic diagrams of typical Urban and Rural water supply systems Sources of Water (1 hour) Definitions, Numerical on capacity determination of impounded reservoir by analytical method Quantity of Water (2 hours) Definitions, Numerical on population forecasting by Arithmetical Increase Method, Geometrical Increase Method, Incremental Increase Method and Decrease Rate of Growth Method, Numerical on determination of water demands of a community Quality of Water (2 hours) Definitions, Relation between hardness and alkalinity, Numerical on hardness and alkalinity, Numerical on water quality Intakes (1 hour) Definitions, Typical figures of River, Reservoir and Spring intakes Water Treatment (3 hours) Definitions, Derivation of Stoke's law of settlement, Design criteria of sedimentation tank, Numerical on theory and design of sedimentation tank, Numerical on determination of size and numbers of filters, Numerical on chlorine demand, chlorine dose and residual chlorine Reservoirs and Distribution System (3 hours) Definitions, Consumption pattern, Criteria of service reservoir capacity determination, Numerical on determination of service reservoir capacity, Pipe hydraulic, Design criteria of distribution systems, Derivation of flow correction by Hardy Cross Method Conveyance of Water (1 hour) Definitions, Typical figures of pipe joints Valves and Fittings (1 hour) Definitions, Typical figures of valves Water Supply Notes (IOE).pdf

Helpful for both Tribhuvan University(TU) and Pokhara University(PU) as well. Electrical Engineering Materials Manual.pdf

Based On the syllabus of Pokhara University(PU), Bachelor of Civil Engineering(BE). Engg Hydrology PU Handwritten.pdf

Based on the Syllabus of Pokhara University (PU), Bachelor of civil engineering(BE) . Design Of Steel PU.pdf

Based on the syllabus of Tribhuvan University(TU), Institute of Engineering (IOE). Thermodynamics Manual.pdf

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

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

Engineering Hydrology.pdf