Thursday, October 29, 2015

ASSIGNMENT AND TEST SCHEDULE FOR BACK LOG OF DESIGN OF CONCRETE STUCTURE

ASSIGNMENT -1

ASSIGNMENT-2

TEST WILL BE HELD ON 15 NOVEMBER FROM THIS TWO ASSIGNMENT AND LAST DATE OF SUBMISSION OF THIS ASSIGNMENT ALSO 15 NOVEMBER. TIME- 12 PM.

CABIN NO- 8, ROOM NO -102, BLOCK-3

Friday, October 16, 2015

GIS assignment for backlog students (Shikha Saini)

GIS  ASSIGNMENT FOR BACKLOG STUDENTS 

Assignment -1                          SUBMISSION DATE : 20 Oct,15    T.M = 20



Q1.Write down the application of GIS in ground water exploration.                       
Q2. Explain the terms of Photogrammetry.
Q3.What is Data model and its types ?
Q4.What is EMR ? Explain in detail its effect in different wavelength regions .


Assignment -2
                                                                                                            T.M = 20
Q1.Write down about Image interpretation ? state the difference between digital and manual  interpretation .
Q2. Enumerate the application of remote sensing in various disciplines of civil engg .
Q3.Explain mapping and projections .
Q4.Elucidate the difference between GIS and GPS.

Thursday, October 15, 2015

Backlog Improvement Courses (for 2009, 10 and 11 Batch Students)

Backlog Improvement Courses (for 2009, 10 and 11 Batch Students)
DepartmentSubject CodeSubject NameTermFaculty Assigned
CEOEL 011Quantity Surveying VIISarmistha
CECVL 001Geoinformatic Engineering VShikha
CECVL 005Environmental Engineering-II VIIGaurav
CECVL 007Transportation Engineering-II VIIPrashant
CECVL 201Basics of Surveying IIIPrashant
CECVL 203Mechanics of Deformable Solids IIIChhavi
CECVL 301Fluid Mechanics and Hydraulics VPinaki
CECVL 302Foundation Engineering VSarmistha
CECVL 303Concrete Structures VChhavi
CECVL 401Advanced RCC VIINishant
CECVL 402Fluvial Hydraulics VIIPinaki
CECVL 451DESIGN LABVIINishant
CECVL 251SURVEYING LABIII Prashant Kumar
CE CVL 252ENGINEERING DRAWING LAB IIISarmistha
CE CVL 452FLUVIAL HYDRAULICS LABVII  Pinaki

Tuesday, October 13, 2015

Syllabus for mid term of subject concrete structure and mechanics of deformable solid for Mid Term

Mechanics of Deformable solid

unit- 1 and 2

Design of Concrete structure

unit- 1,2,3 and 4

surveying syllabus for mid term

Unit I: Introduction to Surveying
Definition, Branches of Surveying, Basic principles of Surveying, Basic measurements
and fixing of details, Importance of surveying to Civil Engineers, Co-ordinate systems,
Maps and Scales, Errors and their type in measurements
: Linear Measurements
Different methods of distance measurement, tape measurements, corrections to linear
measurements,
 Compass surveying
Bearing and Angles, Reference meridian, Compass surveying (Magnetic bearing,
magnetic declination, local attraction errors and adjustment. Compass traverse.

ADVANCE RCC SYLLABUS MTE

Syllabus for Advance RCC (Backlog):

1. Staircases
2. Footings
3. Flat Slabs

Nishant Rajoria

Wednesday, October 7, 2015

Backlog Syllabus For FM

For mid term-Unit 1,2

Backlog syllabus for Fluid Mechanics

Unit I

Section 1: Introduction
Fluid as continuum, physical properties of fluids, ideal and real fluids, Newtonian and Non-Newtonian Fluids, Fluid Statics, Pressure – density - height relationship, pressure measurement using Manometers, Pressure force on plane and curved surfaces, centre of pressure, buoyancy, stability of immersed and floating bodies, metacentric height, fluid mass subjected to uniform accelerations

Section 2: Kinematics of fluid flow
Steady and unsteady flows, uniform and non uniform flows, laminar and turbulent
flows, one, two and three dimensional flows, continuity equation, streamlines, streak lines and path lines, circulation and vorticity, rotational and irrotational flows,
velocity potential and  stream function, graphical and experimental methods of drawing flow nets,


Section 3: Dynamics of fluid flow
Euler’s equation of motion along a streamline and its integration, Bernoulli’s equation
and its applications – Pitot tube, Venturimeter, orificemeter, nozzles, momentum equation and its application to stationary and moving plates/vanes, pipe bends, problems related to combined application of energy and momentum equations.

Unit II

Section 4: Flow in Pipes
Reynold’s experiments, experimental determination of critical velocity, transition from laminar to turbulent flow, Laminar flow through circular tubes, major and minor losses in pipe lines, loss due to sudden contraction, expansion etc., Analysis of pipe networks, hardy Cross Method.

Section 5: Flow in open Channel
Comparison between open channel and pipe flow, uniform and non-uniform flows, uniform flow formulae, Chezy’s and Manning’s Formula, Hydraulically efficient channel section of rectangular, trapezoidal and circular type.

Section 6: Flow through mouthpieces and orifices
Hydraulic coefficients of orifice, bell method orifice, mouthpieces, Borda's mouthpieces, running free and submerged. Notches and Weirs: Rectangular, triangular and trapezoidal notches and weir, cippoletti and broad crested weir, aeration of nappe, cavitations submerged weir.


Books and References:
1. Fluid Mechanics – Streeter V.L. & Wylie E.B. (Tata McGraw Hill)
2. Mechanics of Fluid – Irving H. Shames (McGraw Hill)
3. Fluid Mechanics – John F Dougles (Pearson Publication)
4. Fluid Mechanics – R.J. Garde (New Age International Publication)
5. Introduction to Fluid Mechanics – James A. Fay (Prentice Hall India)
6. Fluid Mechanics and Machinery – C. S. P. Ojha, R. Berndtsson and
P. N. Chandramouli (Oxford University Press)
7. Fluid Mechanics – P.N. Modi and S. M. Seth(Standard Book House)
8. Fluid Mechanics – Gupta and Gupta (Wiley Edition)

Backlog FH syllabus

For Mid term- Unit-1 & 2

Backlog syllabus -CVL 402- Fluvial Hydraulics

Unit I:Introduction         
Origin, Properties of sediments, size, shape, fall velocity and its effects, orientation, grain size distribution
Difference between rigid and alluvial channels, Incipient motion of sediment particles
Different approaches to study sediment motion. Lift force approach, Tractive force approach, Theoretical and sub theoretical analysis of Shield, White and others.
Types of bed forms or regimes of flow         
Unit II
Complexities of regimes in Natural streams
Resistance of flow and velocity distribution in alluvial streams
Bed load transport and saltation, bed load equations, board on dimensional considerations, suspended load transport - mechanism
General equation of diffusion, Total load transport, microscopic and macroscopic method, suspended load sampling.
Unit III
Bed level variation in alluvial streams, stream bed changes during floods
Degradation, Aggradation, silting of reservoirs
Variation in plan form of streams
River training for flood control
Unit IV
Critical tractive force method for design of stable channels
Comparison of the design with traditional methods

Text Books:
1. Graf, W.H., Hydraulics of Sediment Transport, McGraw Hill International
2. R.J. Garde and K.G. Rangaraju, Mechanics of sediment transportation and alluvial stream problems, Wiley Eastern Ltd.

References:
3. A.J.Raudkivi, Loose boundary hydraulics, 3rd edition, Pergamon Press