hindu college of engineering, sonepat …hcesonepat.org/hce/wp-content/uploads/2018/02/ce6.pdf ·...

HINDU COLLEGE OF ENGINEERING, SONEPAT

LECTURE PLAN

SEMESTER/CLASS SESSION

SUBJECT: DSS -1 SUBJECT CODE : CE

SESSIONAL MARKS: 25 THEORY MARKS: 75 DURATION OF EXAMS: 3 HOURS

NAME OF TEACHER : CHIRAG ROHILLA DEPARTMENT : CIVIL ENGINEERING

OBJECTIVES OF CONCERNED SUBJECT:

Ability to perform analysis and design of steel members and connections.

Ability to design steel structural systems.

Familiarity with professional and contemporary issues.

OUTCOME OF CONCERNED SUBJECT:

Understanding of design philosophies and behavior of structural steel. Ability to design steel framing system and connections of a building in a team setting.

Ability to analyze and design of tension members, flexural members , beams and columns.

Lecture

No. Lecture Dates TOPICS TEXT/REFERENCE BOOKS

1 08.01.2018 Introduction to subject DR. S.K. DUGGAL BY

MCGRAW HILL PUBLICATION

2 09.01.2018 Loads, structural steels and their specifications

structural elements, steel vs. concrete

3 10.01.2018 design approaches—elastic and limit state

methods, design specifications as per IS: 800

4 15.01.2018 structural layout, strength and stiffness

considerations

5 16.01.2018 efficiency of cross-section, safety and

serviceability considerations.

6 17.01.2018 Riveting and bolting, their types, failure of riveted

joint.

7 23.01.2018 efficiency of a joint, design of riveted joint

8 24.01.2018 efficiency of a joint, design of riveted joint

9 29.01.2018 concentric riveted joints, advantages and disadvantages of bolted connections

10 30.01.2018 stresses in bolts, types of welded joints, design of

welded joint subjected to axial loads

11 31.01.2018 welded joints subjected to eccentric loads

6th JAN. - JUNE 2018

12 5.02.2018 Semi-rigid and rigid connections.

13 6.02.2018 Tension member :- Types of sections, net area, net

effective area for angles

14 7.02.2018 tees, design of tension members

15 12.02.2018 design of tension members

16 13.02.2018 tension splice, high strength steel cables.

17 19.02.2018 Axially loaded columns, effective length,

slenderness ratio

18 20.02.2018 Allowable stresses, general specifications

19 21.02.2018 design of axially loaded members

20 26.02.2018 laced and battened columns and their design

21 27.02.2018 built up compression members

22 5.03.2018 eccentrically loaded columns and their design

23 12.03.2018 column splice and its design

24 13.03.2018 encased columns.

25 14.03.2018 Flexural Members: Design criteria, permissible

stresses

26 19.03.2018 laterally supported beams and their design

27 20.03.2018 laterally unsupported beams and their design

28 21.03.2018 web buckling, web crippling, built up beams,

encased beams

29 26.03.2018 members subjected to bending and compression

30 27.03.2018

Plate Girders: Introduction, weight and economic

depth, design of flanges, design of web,

curtailment of flange plates

31 28.03.2018

intermediate and bearing stiffeners, design of a

riveted and welded plate girders, web and flange

splice.

32 02.04.2018

Column Bases: Introduction, slab base, gusseted

base, column base subjected to moment, grillage

foundation

33 03.04.2018 Tubular Structures: Permissible stresses, tube

columns and compression members

34 04.04.2018 tube tension members, tubular roof trusses, joints

in tubular trusses

35 09.04.2018 tubular beams and purlins

36 10.04.2018

Aluminium Structures: Permissible stresses,

tension members, compression members, local

buckling of compression members,

37 11.04.2018 design of beams and connections

38 16.04.2018 revision

TEXT/REFERENCE BOOKS:

A. P.DAYARATNAM , WHEELER PUBLICATION

B. DSS BY DR. SK DUGGAL , MCGRAW HILL PUBLICATION

C.

Home Assignments: 4 –5 assignments are given during the semester.

Evaluation Procedure

1. Surprise Quiz/ Tutorial Test 5 Marks

2. Assignment / Project / Performance in the Class 5 Marks

3. Minor Tests (Two tests having equal weightage)

Minor Test I : 06 – 09 March, 2018

Minor Test II : 17 -20 April, 2018

15 Marks

4. Major test (University Examination) 75 Marks

Attendance Record – Candidate should attend at least75% attendance of the total classes held of the

subject

Chamber consultation hour: Any vacant period.

Note:

1. In the semester examination, the examiner will set 08 questions in all selecting two from each unit (1

& 2 from unit I, 3 & 4 from unit II, 5 &6 from unit III and 7 & 8 from unit IV). The students will be

required to attempt only 5 questions selecting at least one question from each unit. All questions will

carry equal marks.

2. The use of scientific calculator will be allowed in the examination. However, programmable

calculator and cellular phone will not be allowed.


LECTURE PLAN


SUBJECT: Environmental Engineering-II SUBJECT CODE : CE-312B


NAME OF TEACHER : Tanmay Gupta DEPARTMENT : Civil engg. Dept.

OBJECTIVES OF CONCERNED SUBJECT: To learn about sewage, sewerage system, total quantity of sewage

produced, treatment plants and treatment units.

OUTCOME OF CONCERNED SUBJECT: Students will get knowledge about Sewerage scheme which includes sewage

pipes, collection and treatment units.

Lecture


1. 10.01.2018 Sewerage system: Generation and Estimation

of Community Sewage

Environmental Engineering-II

S.K. Garg

2. 11.01.2018 Estimation of community sewerage(contd.) Environmental Engineering-II

S.K. Garg

3. 12.01.2018 Flow variations and self-cleansing velocity


S.K. Garg

4. 17.01.2018 Design of sewers (circular shape) Environmental Engineering-II

S.K. Garg

5. 18.01.2018 Design of sewers(contd.) (egg shaped)


S.K. Garg

6. 19.01.2018 Characteristics of sewage: Aerobic

decomposition, anaerobic decomposition


S.K. Garg

7. 24.01.2018 Testing and analysis of sewer, BOD, COD

and TOD


S.K. Garg

8. 25.01.2018 Population equivalent and relative stability Environmental Engineering-II

S.K. Garg

9. 31.01.2018

Treatment of sewage: flow diagram of sewage

treatment, Basic principles of sewage

treatment; Introduction to unit, operations and

processes - primary treatment units such as


S.K. Garg


screening

10. 01.02.2018 grit chamber, and Sedimentation tanks Environmental Engineering-II

S.K. Garg

11. 02.02.2018 Secondary treatment units such as different

types of aerobic suspended and attached

growth systems


S.K. Garg

12. 07.02.2018

tertiary treatment Sludge Handling and

disposal – thickening, stabilization,

dewatering, drying and disposal.


S.K. Garg

13. 08.02.2018

tertiary treatment Sludge Handling and

disposal – thickening, stabilization,

dewatering, drying and disposal.(contd.)


S.K. Garg

14. 09.02.2018 Sewage treatment units design: ASP Environmental Engineering-II

S.K. Garg

15. 15.02.2018 Sewage treatment units design: TF


S.K. Garg

16. 16.02.2018 Sewage treatment units design: stabilization

ponds.


S.K. Garg

17. 21.02.2018 Treated effluent disposal: Disposal into

surface water bodies


S.K. Garg

18 01.03.2018 REVISION for sessional

19 14.03.2018 Reuse for irrigation and aqua-culturing Environmental Engineering-II

S.K. Garg

20 15.03.2018 Land disposal; Disposal through injection into

groundwater Environmental Engineering-II

S.K. Garg

21 16.03.2018 Indian standards for disposal of effluent. Environmental Engineering-II

S.K. Garg

22 21.03.2018 Low cost sanitation systems – Imhoff tanks,

septic tank Environmental Engineering-II

S.K. Garg

23 28.03.2018 stabilization ponds;; oxidation ponds Environmental Engineering-II

S.K. Garg

24. 30.03.2018 constructed wetland systems Environmental Engineering-II

S.K. Garg

25 04.04.2018

Plumbing: Sewage pumping and pumping

stations, Sewer connections for houses and

buildings


S.K. Garg

26 05.04.2018 Construction and Maintenance of sewers Environmental Engineering-II

S.K. Garg

27. 06.04.2018 REVISION for sessional

28. 11.04.2018 REVISION for sessional

29. 12.04.2018 REVISION for final


A. Environmental Engineering-II S.K. Garg








15 Marks



subject


Note:




carry equal marks.




LECTURE PLAN


SUBJECT: FOUNDATION ENGINEERING SUBJECT CODE : CE-306B


NAME OF TEACHER : DURVESH YADAV DEPARTMENT : CIVIL ENGINEERING

OBJECTIVES OF CONCERNED SUBJECT: Students will learn how to design shallow, deep foundations, retaining walls,

and slopes. Students will learn how to utilize their knowledge in soil mechanics to perform various types

of engineering calculations. This includes consolidation analysis for foundations, and stability analysis of slopes and

retaining walls. Outcomes.

OUTCOME OF CONCERNED SUBJECT: Soil investigations for design of foundations and informing and teaching

the skills design of shallow foundations & deep foundations. Including subsurface exploration to evaluate soil,

structure behavior and to obtain the necessary design parameters. Student ability to analyze geotechnical concepts &

data available in the literature for site specific projects.

Lecture


1 08/01/2018 Introduction to soil exploration: scope, sample

disturbances

Soil Mechanics & Foundation

Engineering, by K.R. Arora,

Standard Publishers, New Delhi

2 09/01/2018 Soil exploration for different structures, spacing,

significant depth

3 11/01/2018 Boring and sampling techniques, types of samples

4 15/01/2018 Penetration test (SCP,DCPT and SPT)

5 16/01/2018 Geophysical methods

6 18/01/2018 Design of Shallow Foundation: Bearing Capacity,

Definitions, depth of foundation

7 19/01/2018 Terzaghi’s general bearing capacity equation, IS

code equation

8 23/01/2018 Factors affecting bearing capacity. Settlements for

clays and sands

9 25/01/2018 Permissible settlements, bearing capacity by

penetration tests, plate load test

10 01/02/2018 Types of Shallow Foundations, Design Criteria,

VI JAN. - JUNE 2018

Stability

11 02/02/2018 Shear, and Settlement Failures, Influence of

eccentric and inclined loads

12 05/02/2018 Pile Foundations: Types, function,

13 06/02/2018 Load carrying capacity of single pile, group

action, spacing of piles,

14 08/02/2018 Selection of piles, pile driving formulae,

equipment, point, bearing and friction piles.

15 09/02/2018 Negative skin friction, Piles subjected to lateral

loads,

16 12/02/2018 Settlement of pile groups, under reamed piles.

17 13/02/2018 Wells: Introduction, components, shapes

18 15/02/2018 Stability of well foundation,

19 16/02/2018 Terzaghi’s method of analysis

20 19/02/2018 Sinking of well, tilts and shifts.

21 20/02/2018 Stability of Slopes: Infinite slope, types of failure

total and effective stress analysis

22 26/02/2018 Method of slices, Swedish’s circle method

23 27/02/2018 Taylor’s stability numbers, concept of factors of

safety

24 01/03/2018 Friction circle method, effect of sudden draw

down and submergence

25 05/03/2018 Earth Pressures at rest condition

26 12/03/2018 Rankine and Coulomb’s theories for active and

passive conditions

27 13/03/2018 Rehbann’s and Culmann’s graphical methods

28 15/03/2018 Open cuts, Retaining Walls

29 16/03/2018 States of plastic equilibrium,Influence of

surcharge

30 19/03/2018 Foundation in Difficult Grounds

31 20/03/2018 Ground Improvement techniques

32 26/03/2018 Drainage and dewatering

33 27/03/2018 Foundation in Swelling Soils

34 30/03/2018 Use of Soil reinforcement.

35 01/04/2018 Machine Foundation: Definition, types

36 02/04/2018 Spring mass analogy, coefficient of elastic

uniform compression, design criteria.

37 03/04/2018 Free and damped vibration

38 05/04/2018 Block foundation test, Cyclic plate load test

39 06/04/2018 Mathematical models

40 09/04/2018 Problem of machine foundation

41 10/04/2018 Water table, wall friction

42 12/04/2018 REVISION

43 16/04/2018 REVISION

44 23/04/2018 REVISION

45 24/04/2018 REVISION

46 26/04/2018 REVISION

47 27/04/2018 REVISION


A. Soil Mechanics & Foundation Engineering, by K.R. Arora, Standard Publishers, New Delhi

B. A Text Book of Soil Mechanics Foundation Engg. By VNS Murthy – U.B.S, New Delhi.

C. Foundation Analysis and Design, by J.E. Bowles McGraw Hill Book Company, NewYork.








15 Marks



subject


Note:




carry equal marks.




LECTURE PLAN


SUBJECT: REINFORCED CONCRETE DESIGN-II

SUBJECT CODE : CE-302 B


NAME OF TEACHER : MR. SUNDER SINGH DEPARTMENT : CIVIL ENGINEERING


The objective of this course is to describe the behavior of reinforced concrete components and structures,

which leads to analysis and design of concrete structures reinforced.


1. After learning the course, the students should be able to: 1. Assess loads prepare layout, analyze, and design and detail

of various structural elements for RC framed structure up to G+3.

2. Identify the typical failure modes of RC building, retaining walls, water tanks, flat slabs & pre stressed concrete

sections.

Lecture


1 08/01/2018 Design of Isolated footings.

Reinforced Concrete Structures, P.

C. Varghese, Tata McGraw Hill

2 09/01/2018 Design of Isolated footings. Limit State Design of Reinforced

Concrete, A.K. Jain, Nem Chand

and Bros., Roorkee

3 10/01/2018 Design of Combined footings IS:456 2000



6 16/01/2018 Design of rectangular, trapezoidal.

Plain and Reinforced concrete, Vol.

2, O P Jain and J. Krishna, Nem

Chand and Bros., Roorkee

7

17/01/2018 Design of rectangular, trapezoidal.

8 18/01/2018 Design of strip, strap, raft footings

IS:456 2000

9 23/01/2018 Design of strip, strap, raft footings IS:456 2000

10 24/01/2018 Design of strip, strap, raft footings

IS:456 2000


11 29/01/2018

Continuous Beams and slabs: Basic assumptions,

Moment of inertia, settlements, Modification of

moments,

Limit State Design of Reinforced

Concrete, A.K. Jain, Nem Chand

and Bros., Roorkee

12 30/01/2018 Continuous Beams and slabs: Basic assumptions, Moment of inertia, settlements, Modification of moments,

13 31/01/2018

Continuous Beams and slabs: Basic assumptions,

Moment of inertia, settlements, Modification of

moments,

14 02/02/2018

Maximum moments and shear, redistribution of

moments for single and multi-span beams, design

examples.

15 5/02/2018

Maximum moments and shear, redistribution of

moments for single and multi-span beams, design

examples.

16 06/02/2018 Flat slabs: Advantages of flat slabs, general design considerations,

17 07/02/2018 Flat slabs: Advantages of flat slabs, general design

considerations,

18 09/02/2018 Approximate direct design method

19 12/02/2018 Approximate direct design method

20 13/02/2018 Design of flat slabs, design examples

21 16/02/2018 Design of flat slabs, design examples

22 19/02/2018 Design of curved beams in plan: Analysis and

Design of curved beams fixed at both ends


Design of curved beams fixed at both ends


Design of Ring beams


Design of Ring beams

26 27/02/2018 Design of Domes: Meridional and hoop stress in

spherical domes, Design


spherical domes, Design


conical domes, Design


conical domes, Design

30 14/03/2018 Retaining walls: Design of cantilever retaining

walls

31 16/03/2018 Retaining walls: Design of cantilever retaining

walls

32 19/03/2018 Retaining walls: Design of counter fort type

retaining walls.

33 20/03/2018 Retaining walls: Design of counter fort type

retaining walls.

34 21/03/2018 Water Tanks: Estimation of Wind and earthquake

forces, design requirement

. IS 3370 2009

35 26/03/2018 WaterTanks: Rectangular and cylindrical

underground

. IS 3370 2009

36 27/03/2018 WaterTanks: Intze tanks . IS 3370 2009

37 28/03/2018 Water Tanks: design considerations, design

examples. . IS 3370 2009

38 30/03/2018 Water Tanks: Design examples.

39 02/04/2018 Water Tanks: Design examples.

40 03/04/2018 Revision

41 04/04/2018 Revision

42 06/04/2018 Revision

43 09/04/2018 Revision

44 10/04/2018 Revision

45 11/04/2018 Revision

46 16/04/2018 Revision


A. Reinforced Concrete Structures, P. C. Varghese, Tata McGraw Hill

B. Limit State Design of Reinforced Concrete, A.K. Jain, Nem Chand and Bros., Roorkee

C. Plain and Reinforced concrete, Vol. 2, O P Jain and J. Krishna, Nem Chand and Bros., Roorkee

D. IS: 456 2000, IS 3370 2009








15 Marks



subject


Note:




carry equal marks.



HINDU COLLEGE OF ENGINEERING,

SONEPAT

LECTURE PLAN


SUBJECT: RWS SUBJECT CODE :HUM302B


NAME OF TEACHER : ANITA KUCHHAL DEPARTMENT :Applied Science

OBJECTIVES OF CONCERNED SUBJECT: To develop competence for report writing.

OUTCOME OF CONCERNED SUBJECT: Able to write complex writings and techniques

Lecture

No.

Lecture

Dates TOPICS TEXT/REFERENCE BOOKS

1 30/01/18 Meaning of report and its importance

Borowick, Jerome. N. Technical

Communication and its Applications. New

Delhi:PHI2000

2 13/02/18 Types of reports

3 20/02/18 Format of reports

4 27/02/18 Structure of reports

5 13/03/18 Use of illustrations

6 20/03/18 Preliminary steps and procedure of

writing reports

7 27/03/18 Technical reports

8 03/04/18 Business reports


A. Guffey, Mary Ellen. Business Communication: Process & Product. USA: South

western College Publishing, 2000.

B. Kumar, Sanjay and Pushp Lata. Communication Skills. Delhi: OUP, 2011







15 Marks

6th CSE JAN. - JUNE 2018




subject


Note:




carry equal marks.




LECTURE PLAN


SUBJECT: STRUCTURAL ANALYSIS III

SUBJECT CODE : CE-308B


NAME OF TEACHER : SIDDHARTH UTREJA DEPARTMENT : CIVIL

OBJECTIVES OF CONCERNED SUBJECT: The principal objective of structural analysis is to ensure the

reliability and durability of structures, given an economically sound expenditure of materials. Problems of the

analysis of structures that are subject to dynamic loads are considered in the dynamics of structures.


Ability to analyze statically determinate trusses, beams, and frames and obtain internal loading

Ability to solve statically indeterminate structures using matrix (stiffness) method

Ability to use modern structural analysis software.

Lecture


1. 8/1/18 Introduction: Introduction to matrix algebra, systems approach.

SS. BHAVIKATTI VOL .2 & 3

2. 10/1/18 Introduction: Introduction to matrix algebra,

systems approach.

3. 11/1/18 force and displacement methods and their comparison

4. 12/1/18 Matrix Force Method: Introduction to flexibility

approach

5. 15/1/18 Choice of redundant, static equilibrium matrix, deformation compatibility matrix, member flexibility matrix

6. 17/1/18 static equilibrium and deformation compatibility checks

7. 18/1/18 Application for trusses, continuous beams and rigid frames

8. 19/1/18 Numerical problems


10. 25/1/18 The matrix displacement or Stiffness Method:

Conditions of stress strain relationship

6TH JAN. - JUNE 2018

11. 29/1/18 equilibrium and compatibility

12. 31/1/18 Application for trusses, continuous beams and

rigid frames.


14. 2/2/18

Formulation of various matrices: Static

equilibrium matrix - deformation compatibility

matrix

15. 5/2/18 member stiffness matrix, global stiffness matrix,

external load matrix

16. 7/2/18 static equilibrium and deformation, compatibility checks and effects of support settlement and lack of fit.

17. 8/2/18 Conversion of member loads into joint loads.

Partitioning of global stiffness matrix.





22. 19/2/18 Direct Stiffness Method: Derivation of global

matrix from energy considerations,

23. 21/2/18 transformation matrices, member stiffness matrix

with respect to member coordinate system,

24. 26/2/18 member stiffness matrix for global coordinates

and global stiffness matrix



27. 15/3/18 Displacement boundary conditions

28. 16/3/18 computer generation of global stiffness matrix,

29. 19/3/18 effect of temperature and lack of fit


31. 26/3/18 Finite Element Method: Introduction and basic

concepts.

32. 28/3/18 Energy approach and variation principles in Finite

Element Method


Element Method


Element Method

35. 4/4/18 Various element shapes, 1-D bar element

36. 5/4/18 Continued

37. 6/4/18 Continued

38. 9/4/18 Revision-I

39. 11/4/18 Revision-II

40. 16/4/18 Revision- III

41. 26/4/18 Revision- IV

42. 27/4/18 Revision- V


A. Basic Structural Analysis, C.S. Reddy, Tata McGraw Hill Publication.

B. Matrix method of Analysis, Martin, McGraw Hill Book Company, New York








15 Marks



subject


Note:




carry equal marks.




LECTURE PLAN


SUBJECT: TRANSPORTATION ENGINEERING -ІІ SUBJECT CODE: CE 310B


NAME OF TEACHER: MR. NAVEEN KUMAR DEPARTMENT: CIVIL ENGINEERING


i) To provide the knowledge of components of permanent way and geometric design of railway tracks

ii) To gain the knowledge about airport engineering, its components such as design of runway, airport capacity etc.


i) The student will get the opportunity to implement Research on the topic of his/her own interest.

ii) The student will be sound in designing the railway tracks and runways

Lecture

No.

Lecture

Dates TOPICS

TEXT/ REFERENCE

BOOKS

1-3

23/01/18,

24/01/18,

25/01/18

Unit I:

Introduction: Role of railways in transportation, historical

development of railways.

Permanent way and components: gauges in railway tracks,

typical railway track cross-section, coning of wheels,

Function of rails, requirement of rails, types of rail sections –

comparison of rail types

B , C

4-5 30/01/18,

31/01/18

Unit I:

Length of rail, rail wear, rail failures, creep of rails, rail

fixtures and fastenings – Fish plates, spikes, bolts, chairs,

keys, bearing plates.

A, B

6-7 06/02/18,

07/02/18

Unit I:

Sleepers: Functions and requirements of sleepers,

classification of sleepers, timber, metal and concrete sleeper,

comparison of different types of sleepers, spacing of sleepers

and sleeper density.

B, C

8 08/02/18 Unit I:

Ballast: Function and requirements of ballast, types,

comparison of ballast materials. C

B.TECH. CE 6TH JAN. - JUNE 2018

9-11

09/02/18,

13/02/18,

15/02/18

Unit II:

Geometric Design: Vertical and horizontal alignment,

horizontal curves, super elevation, equilibrium, cant and cant

deficiency, length of transition curve, gradients and grade

compensation. Stations and yards, and their classification

B, C

12-13 16/02/18,

20/02/18

Unit II:

Points and Crossings: introduction, necessity of points and

crossings, turnouts, points and crossings, design of a simple

turnout.

A, B

14-15

21/02/18,

27/02/18

Unit III:

Track safety, Signaling and Interlocking: objects of

signaling, engineering principle of signaling, classification,

control of train movements, absolute, automatic block system,

centralized control system, ATS.

B, C

16 01/03/18 REVISION FOR MINOR-I

17-18 13/03/18,

14/03/18

Unit III:

Interlocking: definition, necessity and function, methods of

interlocking, mechanical devices for interlocking.

B, C

19-21

15/03/18,

16/03/18,

20/03/18

Unit III:

Traction and tractive resistance, stresses in track, Equipments,

Mechanized Maintenance, Track Recording & track

Tolerances, Mass Rapid Transport Systems, High Speed

Trains, Present & Future, modernization of railway tracks,

railway systems in modern era.

B, C

22-23

21/03/18,

27/03/18

Unit III:

Tunnels: sections of tunnels—advantages, limitations and

suitability, shafts, pilot tunnels, methods of driving tunnels in

rocks and soft grounds. Stress around the tunnels.

B , C

24-26

28/03/18,

30/03/18,

03/04/18

Unit IV:

Airport Engineering: Brief history of air transport: Aircraft

characteristics. Airport site selection, various surveys for site

selection. Classifications of obstructions, Imaginary surfaces,

Approach zone and turning zone. Runway orientation, basic

runway length, corrections for elevation, temperature &

gradient, airport classifications.

D, E

27-29

04/04/18,

05/04/18,

06/04/18

Unit IV:

Airport Design: runway geometric design, airport capacity,

factors controlling taxiway layout, geometric design standards

for taxiway holding aprons. Terminal area, building area,

parking area, apron, hanger typical airport layouts. LCN/PCN

method of rigid pavement design. Trend growth of Domestic

Air Traffic in India, Air Cargo.

D, E

30-31 10/04/18,

11/04/18

Unit IV:

Air traffic control aids: visual aids, marking and lighting of

runway and apron area, wind and landing direction indicator D, E

REMAINING

LECTURES REVISION FOR MINOR-II & SEMESTER EXAMINATION


A. Railway Engineering by Arora and Saxena, Dhanpat Rai & Sons, New Delhi

B. Railway Engineering by Rangawala, Charotar Publishing House

C. Railway Engineering by M.M. Aggarwal

D. Airport Planning and Design by Khanna, Arora & Jain, Nem Chand & Brothres, Roorkee

E. Airport Engineering by Rangawala, Charotar Publishing House


Evaluation Procedure:


2. Performance in the Class 5 Marks




15 Marks


Attendance Record – Candidate should attend at least 75% attendance of the total classes held of the subject

Chamber Consultation Hour: Any vacant period.

Note:

1. In the semester examination, the examiner will set 08 questions in all selecting two from each unit (1 & 2

from unit I, 3 & 4 from unit II, 5 &6 from unit III and 7 & 8 from unit IV). The students will be required to

attempt only 5 questions selecting at least one question from each unit. All questions will carry equal

marks.

2. The use of scientific calculator will be allowed in the examination. However, programmable calculator and

cellular phone will not be allowed.

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