“Travelling  Is Almost  Like Talking With  Those Of Other  Centuries”

INDUSTRIAL LINKAGE
CIVIL SOCIETY

SYLLABUS

                             Undergraduate                   |              Graduate

THEORY PAPERS                             LABORATORIES

MATHEMATICS -I

MATHEMATICS - II

PHYSICS - I

CHEMISTRY - I

MECHANICS

THERMODYNAMICS

BASIC ELECTRONICS

ELECTRICAL ENGINEERING

COMMUNICATIVE  ENGLISH

BUSINESS COMMUNICATION IN ENGLISH

DATA STRUCTURE USING C

PROGRAMMING IN C

LABORATORIES 

PHYSICS

CHEMISTRY

PROGRAMMING IN C

DATA STRUCTURE

WORKSHOP - I

WORKSHOP - II

ENGINEERING DRAWING - I

ENGINEERING DRAWING - II

COMMUNICATIVE ENGLISH

BUSINESS COMMUNICATION

                          THEORY PAPERS:

 

BSCM 2101   MATHEMATICS -I(3-1-0)

The  intent  of  the  mathematics  courses  for  engineering  students is  three  fold(1)  modeling: converting  given  data  of  a physical  situation  into  a  mathematical  form (2) solving  by  standard  techniques  and  (3)  interpreting  the  results.  it is  expected  that  students  should  not  only  know  different  mathematical  form   but  should  also  be  conversant  with  different  applications.

Module -I
  Calculus: Curve tracing, curvature, asymptotes, Ordinary  differential  Equation: First order  different  equations, separable  equations  exact  differential equation,  Bernoulli’s  equation  application  to  electric  circuits.

Module-II
  Linear differential equations of second and higher order, homogeneous equation with constant coefficients. Euler  Cauchy  equations, solution  by  indeterminate  co-efficient, solution  by  variation  of  parameters, modeling  of  electric  circuits.

Module-III
  Series solution of differential equation: Power series method, Legendery's equation, Legendery’s polynomial. Bessel’s functions j(x).

Module -IV
Laplace transformation and its use in solving differential equations.  Convolution, integral equations. Laplace transformation and its use in solving differential equations. Convolution, integral equations.

  The course is covered by:
  (1) Calculus: Gorakh Prasad:
  (2) Advance engineering mathematics- E. Kreyszig
             John Wiley & son’s inc.-8th edition
             Chapter 1(1.1- 1.7)
             Chapter 2(2.1- 2.10, 2.12)                                                                    
                Chapter 4(4.1- 4.6)
             Chapter 5(5.1-5.7)
                                                                                                                
                                   
                                                    


BSCM 2102 MATHEMATICS - II (3-1-0)

Module -I
  Linear  algebra:  matrices, vectors, determinants  and  linear  system  of  equations ,matrices  and  linear  system  of  equations, matrix  eigen  value  problems,  symmetric, skew  symmetric  and  orthogonal  matrices.

Module -II
  Complex matrices: Hermitian, skew hermitian and unitary matrices, Similarity of matrices. Vector differential calculus: grad, div, curl, vector integral calculus.

Module -III
Linear integrals, Green theorem:  surface integrals, Gauss theorem, stocks theorem

Module -IV
Fourier  series:  Fourier  series,  Expansions functions  of  any  period  ,even and  odd functions , half  range  expansion.
 Courses covered by: Advance engineering mathematics by E.Kreyszig, 8th Edition
   Chapter 6(6.1-6.7)
Chapter 7(7.1- 7.5)
Chapter 8(8.1-8.4, 8.9-8.11)
Chapter 9(9.1-9.9)
Chapter 10 (10.1-10.4) 
                                                                                                                 
BSCP 2101 PHYSICS-1(3-0-0)

  This one -semester physics core course is divided into three parts. The  part-1  covers  oscillations, waves and  wave  optics;  the part-||  introduces  some  basic  concepts  in  electromagnetism  and  the  part-|||  includes  introductory  aspects  of  quantum  mechanics.

 PART- I

UNIT-1(OSCILLATIONS AND WAVES)

    The  aim  of  this  unit  is to  familiarize  the  students  with  basic  features  of  different  oscillatory systems  and  waves  in  general. the  topics  included  in  this  unit  should  be  treated  qualitatively.

 a) Oscillatory  System: Simple  harmonic  oscillation  ,damped  harmonic  oscillation ,forced  vibration  resonance, coupled  oscillation.

b) Waves  as  periodic  variation  quality  in  space  and  time, wave  equation, longitudinal  and transverse  waves, progressive and  stationary  waves. Examples of different waves.

c) Reflection  and transmission of waves  at  boundary  of  two  media , Dispersion  of  polychromatic  wave.

 UNIT-2(INTERFERENCE)

   The principle  of  superposition  of  waves  is  extended  to  the  interference  of  light  waves. Some system for production of observable interference pattern is covered.

a) Superposition of waves: two -beam superposition, multiple beam super positions, coherent& incoherent superposition.

b) Two  source  interference  pattern (Young's double slit) ,intensity distribution; transverse  section straight  fringe; longitudinal  section- circular  fringe .

c) Newton's rings, Determination of wave length of light, refractive index of liquid.

 UNIT-3(DIFFRACTION)

 Diffraction  of  lighten waves  at  some  simple  obstacles  are  to be covered  in this  unit, Both Fresnel  and Fraunhofer  pattern are  included.

a) Huygens’s principle, Fresnel and Fraunhofer diffraction, zone plate.

b) Fraunhofer diffraction due to a single slit.

c) Plane transmission grating-diffraction spectra, determination of wave length of light, dispersion.

 UNIT-4(POLARIZATION)

  The unit covers elementary features of polarization of light waves.

a) Polarization of transverse waves, plane, circular, and elliptical  polarized  light .Polarization

b) Double refraction; Nicol  prism, Quarter -wave plate-construction  and  use.

c) Production  and  analysis  of  circular  and  elliptically  polarized light.

d) Optical rotation, Sacharimeter, construction and use.

 PART-II

 UNIT-5(ELECTROMAGNETISM)

     Students  will be  familiarized  with  some  basic  terms  used  in  vector  calculus  prior  to  development  of  Maxwell's  electromagnetic  wave  equations. No  proof  of  theorem  and  laws  included  in  this  unit is  expected-statement  and  interpretation  should  suffice.

      Vector  calculus: gradient, divergence, curl of  vector  field,  Gauss  divergence  theorem,  Stoke's  theorem, Green's  theorem.

       Gauss's  law  of electrostatics  in  free  space  and  in  a medium, Electric  displacement D,  Magnetic induction  B  and  magnetic  intensity  H. Amperes  circuital  law,  displacement  current, Faraday's law  of  electromagnetic  induction.

         Maxwell's  electromagnetic  equation  in  differential  form  and  in  integral  form.

 UNIT-6

       some  aspects  of  propagation  of  EM waves  are  o  be  covered  in  this unit.

       Electromagnetic  energy  density,  poynting  vector, poynting  theorem , vector  potential  and  scalar  potential. Electromagnetic  waves  equation for E  and B , transverse  nature  and  speed  of  em  waves, wave  equation  in terms  of  scalar  and  vector  potentials. Propagation  of  em  waves  in  ionized  media.

 PART-III

 UNIT-7(QUANTUM  PHYSICS)

        This  unit  deals  with  elementary  concepts  of  quantum  physics  and  basic  formulation  to  deal  with  physical system.

1      Need  for  Quantum physics     - Historical  overview: Particle aspect of radiation     - Black body radiation, Photoelectric effect  pair production Compton scattering Atomic  transition  and  spectroscopy-Bohr Model  of  hydrogen  atom, spectral  lines         Heisenberg uncertainty principle: Statement & interpretation and examples  Wave Aspect of particle -matter waves: De broglie hypothesis

2. Basic features of Quantum -Transmission from deterministic to probabilistic BN states of  a system - SCHRODINGER equation time dependent and time independent wave packets.

 UNIT-8(Application of quantum)
    This unit deals with application of quantum Mechanics to specific problems.
Solutions of -One dimensional problem:
Free particles    -continuous States
Potential steps     -Boundary conditions, Reflection, Transmission
Potential barrier     - tunneling
Infinite deep potential Well -energy eigen value, eigen function

BOOKS RECOMMENDED
1 OPTICS- A.K.Ghatak
2 Geometrical and physical optics-P.K.Chakraboty
3 electricity & magneto- D.C.Tayal
4 Concepts of modern physics-A.Beiser
5 Quantum Mechanics, 3rd Edition, E.Merzbacher, John Wiley NY (1998) 
6 Quantum Mechanics: Foundation and Applications, A. Bohm, 2nd Edition, Springer Verlag(1986)
7 Quantum Mechanics: Concepts and Applications. N.Zettli, John WILEY & Sons (2001)
8 Physics-|.B.B.Swain & P.K.Jena, Kitab Mahal, Cuttack
                                                                                                                 

BSCC 2101 CHEMISTRY - I (3- 0- 0)

Module - I             
        (TO DEVELOP BASIC CONCEPTS OF QUANTUM MECHANICS AND ITS APPLICATIONS IN BONDING)
1.        Structure bonding: failure of classical mechanics, uncertainty principle, wave nature of particles, Schrödinger equation (need not be derived), interpretation of wave functions, molecular orbital theory of diatomic and metallic bonding.
                                                                                          (no. of lectures = 7)

2.        Phase rule: one and two component systems: H2O, S, and Cd- Bi, Fe- C systems
                                                                                          (no. of lectures = 5)
                                                   
Module - II
            (TO DEVELOP BASIC CONCEPTS ABOUT THE RATES OF REACTIONS AND EMF, ELECTRODE POTENTIAL AND CONSTRUCTION OF VARIOUS TYPES OF                    CELLS)

1.       Reaction kinetics & catalysis
          Collision theory order and molecularity; kinetics of zero, 1st and 2nd order reactions; activation energy, theory of absolute reaction rate, homogenous and heterogeneous catalysis.
                                                                         (no. of lectures =7)

Module-III
             
    (To develop basic concepts of electro chemistry and solid state)
1. ELECTROCHEMISTRY:
      Electrochemical cells , emf and free energy change of electrochemical reactions , electrode potentials  and measurements with reference to standard hydrogen electrode and their application to redox process , measurement of emf , determination of ph ; dry cells ,fuel cells  and storage cells.
                               (no. of lectures = 7)

2. Slid state: crystals systems, bravis lattices, closed packed structures, ionic solids, crystal defects including schottky and frenkel defects
                                    (no. of lectures =4)

Module -IV
(TO DEVELOP BASIC CONCEPTS OF THERMODYNAMICS AND ITS APPLICATIONS TO CHEMICAL SYSTEMS)

1. Physics, chemical, ionic equilibrium physical equilibrium, chemical equilibrium: law of mass action, relation between Kp Kc, expression for equilibrium constant, Le Chateliers principle.
    Ionic equilibrium: ionisation of strong and weak electrolytes, pH, buffer solution , Ostwald dilution law, common ion effect..

2. The free energy concepts; applications to gases; Gibbs helmholtz equation; free energy change and criterion of spontaneity of chemical reactions and chemical equilibrium. Physical, ionic, and chemical equilibrium.
                                      ( no. of lectures = 9)

BENG 1101 MECHANICS  (3-0-0) 

Module -I (11 hours)

     Concurrent forces on a plane - composition, resolution and equilibrium of concurrent coplanar forces, methods of moment, friction (chapter 1)
     parallel forces in a plane- general case of  parallel  forces , center of parallel forces, center of parallel  forces and center of gravity - centroids of composite plane figure and curves (chapter 2-2.1 to 2.4)

Module- II (11 hours)

 General case of forces in a plane- composition and equilibrium of forces in a plane - plane trusses- methods of joints and methods of sections , principles of virtual work- equilibrium  of ideal systems .
Moment of inertia - plane figure with respect to an axis in its plane and perpendicular to the plane - parallel axis theorem (chapter 3- 3.1 to 3.4, 5.1 , appendix a.1 to a.3)

 Module-III(11 hours)  

Rectilinear translation - kinematics -principles of dynamics - D'alemberts principle - momentum and impulse work and energy -impact (chapter 6)

Module -IV(7 hours)

CURVILINEAR translation - kinematics - equation of motion - projectile - D'alembert's principle for curvilinear motion 
 Kinematics of rotation of rigid body (chapter 7.1 to 7.4, 8.1)

                            BENG 1105 BASIC ELECTRONICS (3-1-0)

 Module -I(11 lectures)

 1.  In introduction of modern electronics: signals, frequency spectrum, analogue and digital signals, amplifiers, digital logic inverter, ics.

2.  basic electronics semiconductor concepts ; intrinsic semiconductor materials ,energy levels; mobility, conductivity n and p type concept of hole, majority and minority  carriers ,mechanism    of current flow

3.    semiconductor diode : p n  junction , forward - bias condition , reverse bias condition ,v-i characteristic , diode equation ,zener region ,silicon vrs germanium , dc resistance levels . ac resistance, simplified equivalent circuits of a diode , diode specification sheets , application of diode as a rectifier , clamper ,clipper ,and detector

Module -II (12 lectures)   
     
4.    BIPOLAR  junction transistors  : transistor construction , transistor operation , common - emitter configuration , V- I  characteristics , biasing ,load line dc analysis , transistor specification sheets , transistor testing ,small signal analysis ,analysis of ceamplifier  and emitter follower frequency response of amplifier  

 5.   field - effect transistor :  structure and principle of operation of the enhancement - type and depletion - type MOSFETS V-I  characteristics  dc biasing , landline , dc analysis ,small signal  equivalent circuit model  base configuration of single stage ic , mos amplifier  ,the cmos common - source and common - drain amplifiers analysis . Cmos digital, logic inverter, voltage transfer characteristics, current flow and power dissipation.

 Module -III (11 lectures)

 6.  Feed back amplifiers ands oscillators: types of feedback, advantages of negative feedback, barkhasuen criterion of oscillation, crystal oscillator.

7.   Operational amplifiers   : the ideal op amp, inverting and non inverting configurations, equivalent circuit model op amp application in integration, differentiation and summing of circuits, op amp as differential amplifier, CMRR

8.   DIGITAL ELECTRONICS : BOOLEAN ALGEBRA ,  binary arithmetic’s , hexa-decimal number and their conversion , logic gates : and , or, nand, nor ,ex-or  ,their realization ,general idea about adder, multiplier ,multiplexer memories ,flip flops ,shift registers ,counter and da and ad converters..

 Module -IV(8 hours)

9.  PRINCIPLE OF COMMUNICATION; basic of modulation and demodulation techniques, am systems basics of digital communication techniques ,sampling and ,quantization ,ad & da converters, digital modulation pcs systems ,general idea about noise
10. ELECTRONICS: oscilloscope, time base, displaying a wave form in oscilloscope digital multimeter.
11..  fiber optics communication : a simplified  fiber optic communication ,systems ,principle of operations advantages : enormous bandwidth ,noisy immunity ,high data rate.

 BENG 1102 BASIC ELECTRICAL ENGINEERING (3-1-0)
 

Module-I:

1. DC NETWORKS; kirchoffs law, node, and mesh analysis, delta -star and star delta conversions. Superposition principles, thevenin and Norton’s theorem transients in RLRC, circuits with d.c. excitation.

2. single phase ac circuits :single phase emf generation , average and effective values of  sinusoids j operations ,complex presentation of impedances ,phasor diagrams ,power factor , power in complex notation , solution of series and parallel circuits ,introduction to resonance in series RLC circuit.

Module -II:

 3. THREE PHASE AC CIRCUIT :  three phase emf generation , delta and star connection ,line and phase quantities ,solution of 2 - phase circuits with balanced loads  power in 3 - phase balanced circuits

4.  Magnetic circuits: b-h curve, hysteresis, permeability and reluctance solution of simple magnetic circuits, hysteresis and eddy current loses. 

MODULE -III

5.    Transformers: construction and principle of operation of single phase transformer, emf equation, and single phase auto transformer

6.  dc machines: principle of operation of generator and motor, emf equation, methods of excitation, speed equation of d.c. motor, speed control of d.c. shunt motor

7.  Three phase introduction motor: construction and principle of operation, types, slip torque characteristics

8.  Introduction to single phase introduction motor

MODULE -IV

9.  ELECTRICAL MEASURING INSTRUMENTS ;  DC PMMC  instruments extension of range ,moving iron ammeters and voltmeters , dynamometer watt meters ,energy meter

10.  POWER SUPPLY SYSTEMS; principle of generation - thermal, hydel and nuclear, transmission and distribution of electrical energy.

11. Industrial applications of electrical energy

                                                                                                                 
                                                                
                                     HSSM  4101  COMMUNICATIVE  ENGLISH  (2-0-0)

UNIT I     COMMUNICATION

      1.1    Verbal and non - verbal spoken and written
      1.2    language functions -descriptive, expressive and social
      1.3    top inform, enquire, attract, influence, regulate and entertain
          1.4 bias-free and plain English
          1.5 Formal and informal

UNIT II            COMMUNICATIVE GRAMMAR

     2.1      Time, tense and aspect
     2.2       verbs of states and events
     2.3       stamens, questions and responses
     2.4      omission of information
     2.5      expressing emotions and attitude: hope, pleasure,       disappointment, regret    approval, surprise

UNIT III           THE SOUNDS OF ENGLISH

     1,.1      LENGTH OF VOWELS - LONG VOWELS // I: A;) as in feel , card, court, food, and first  respectively
     1.2      short vowels /e, x, n/ as in pen, bag, and sun respectively
     1.3       consonants  /f,v,q,x,s,z / as in fine ,vast, thought, theme ,song, zoo, shame, pleasure ,and judge respectively
     1.4       stress pattern
     1.5       intonation - rising and falling
     1.6       friendly communication -greetings, farewells, introductions, thanks, apologizes, regrets, good wishes, congratulations, condolences, offers

UNIT -IV             DOING THINGS WITH WORDS
      1.1       To ask for information, help, permission,
      1.2        To instruct, command, request, accept, refuse, prohibit, persuade, promise

                     HSSM 4102 BUSINESS COMMUNICATION IN ENGLISH (2-0-0)

MODULE I      WRITING -I 

   1.1       PARAGRAPH WRITING - TOPIC SENTENCE , cohesion and coherence- sentence linkers (so, but, however, etc..)

   1.2       P reparation of a business report  - writing a business proposal - format , length ,structure

MODULE II     WRITING -II

   2.1      Preparing notes - writing business letters and e - mail messages
   2.2     documentation    :  references, notes and bibliographies

Module -III    WRITING -III
  
   3.1     Writing a curriculum vitae (both chronological and functional) along with an application for a job
   3.2     public relations - concept and relevance - pr in a business organization - handling tje media.

Module-IV     MEETING AND PRESENTATION

1.1        ORGANISING a meeting, preparing an agenda, chairing, a meeting drafting resolutions, writing minutes.
 1.2        Making an oral presentation
 1.3        facing an interview
                                                                                                                   
                                                                                                                 

                                    BENG 1103 THERMODYNAMICS (3-0-0)

Module I

1.       BASIC CONCEPTS AND DEFINITIONS : SCOPE  of thermodynamics , macroscopic and microscopic approaches ; definition of fixed mass (closed systems) and control volume( open system) , properties (extensive and intensive) , state and its representation on a property diagram , process and its representation , cyclic process( or cycle) and its representation  characteristics of properties (point and path functions) ; reversible and irreversible processes; thermal, mechanical and chemical equilibrium, thermodynamic equilibrium ,zeroth law of thermodynamics and temperature , measurement of temperature and calibration of thermometers , the ideal gas  temperature scale ; measurement of pressure , bordon pressure gage and manometers,  gage and absolute pressures

2. p-v relations of pure substances: definition of a pure substances ,p-v-t, surfaces and planes for pure substances, specific volumes of saturated liquid , wet vapour ,and super heated vapour . Introduction to steam tables with respect to specific volume, pressure, and temperature. Ideal gases and their p-v-t relation, real gases and gas mixtures.

Module II     

 3.  Energy and mass interactions: work interaction (definition and calculation) different modes of work: heat interaction; mass interaction of control volume.

4.    First law of thermodynamics
      
         (i)   formal statements (using cyclic processes)  , first law of thermodynamics of fixed masses (closed systems)  and introduction of internal energy as a thermodynamic property , first law for control volumes 9open systems0 and introduction of enthalpy , as a thermodynamic property: definition of specific heats and their use in calculation of internal energy  and enthalpy with emphasis on ideal gases
Module III

(II) APPLICATION OF FIRST LAW OF THERMODYNAMICS to different processes  of fixed masses (closed systems) and control volumes  (open systems only steady and uniform flow need to be considered ) use of steam tables in finding internal energy and enthalpy of steam at different conditions , calculations for gases with ideal gas assumptions

 
 Module -IV       

5.  SECOND LAW THERMODYNAMICS: Kelvin -Planck and clausius statement of second law, reversible and irreversible engines and their efficiency, thermodynamic temperature scale, definition of entropy and its calculations for various processes of pure

                                                                                                                  
  
                                                 BSCE 3101 PROGRAMMING IN C (3-0-0)  

Module-I

INTRODUCTION TO COMPUTERS Evolution of computers, processor families  - Intel, Motorola, and series ,basic concepts of computer organizations , cpu, memory , ram, rom, eprom, i/o units such as hard disk ,floppy disk , cd rom writer ,scanner ,printers,keyboards,power supplies  etc,..

Module II   

     NUMBER REPRESENTATION IN COMPUTERS, BINARY REPRESENTATION  of numbers , integers, floating point numbers , negative number representation , arithmetic operations , multiplication , addition , subtraction, division , overflow, and under flow exceptions

Module-III 
    
 INTRODUCTION TO PROGRAMMING AND PROGRAMMING LANGUAGES, EVOLUTION OF PROGRAMMING languages, flow charts, structured programming, the compilation process, object code, source code,   executable code, operating systems, interpretations, linkers, loaders, etc

MODULE IV    

C LANGUAGES FUNDAMENTALS :CHARACTER SET , IDENTIFIERS, keywords , data types, constant and variables , statements ,and , expressions, operators, precedence of operators ,input - output assignments , control structures , decision making and branching , decision  making and loops 

Module-V

 ARRAYS AND STRINGS : One dimensional, multidimensional and their applications, declarations, manipulations, &string handling functions

 Module-VI     

C FUNCTIONS :MONOLITHIC VS MODULAR PROGRAMS , USER DEFINED VS  standard functions , formal vs. accurate arguments  , functions category , functions prototypes , parameter passing recursion , storage classes : auto , extern ,global ,static,  

Module-VII    

POINTERS :POINTER VARIABLES AND ITS IMPORTANCE, pointer arithmetic, passing parameters by reference

MODULE VIII   

STRUCTURES, UNION AND FILE HANDLING :Declaration of structures ,pointer to pointer , pointer to structure , pointer to function  ,unions, dynamics memory allocations ,unions ,. File management.

                                    BSCE 3102 DATA STRUCTURE USING C

Module-I

DEVELOPMENT OF ALGORITHMS: notations and analysis, storage structures for arrays - sparse matrices - structures and arrays of structures, stacks and queues: representation and applications. 

 Module-II

LINKED LISTS; singly listed lists - linked stacks and queues - operations on polynomials –linked Dictionary-Doubly Linked Lists-Circularly Linked lists. Dynamic storage management –Garbage collection and compaction.

Module-III

Binary tree:-Binary search tree –General tree tree traversing   Operations on Binary search tree expression Manipulation-Symbol table construction-Height balanced trees.
Module-IV

Graphs: Representation of graphs –Path matrix –BFS, DFS-Bi-connected Graphs –Topological sort-shortest path problems. Strings-Representation-Manipulation-Pattern Matching.
Module-V

Sorting Techniques: Selection, Bubble, Insertion, Merge, heap, quick, Radix and address calculation. Linear searching –Binary Searching .Hash Table Methods.
Text Books:

1. Data structure in c by Tanenbaum.
2. Fundamentals of Data structure by Sahany

Reference Book: Data structures, By Tremblay and Sorenson.
                                                                                                                 

                            LABORATORIES 

                                                     BENG 9101 ENGINEERING DRAWING –I (0-0-3)

 Concepts of Orthographic Projection, First-Angle Projection, Projection of points, Projection of straight lines, projection of planes, Projection of Solids, Intersection of surfaces, Development of Surfaces, Isomeric Projection
Text: Engineering Drawing by N.D.Bhatt & V.M.PanchalCharotar Publishing house, Anand
Chapter -5, 7,8,9,15,20

                                                      BENG 9101 ENGINEERING DRAWING-II (0-0-3)

 Sectional view of solids, Full section, half section, Screw threads, Screw Fasteners. Cutter Joints and Knuckle Joints, Rivets and Riveted joints,PullyIntroduction to computer aided drafting
Text: Engineering Drawing by N.D.Bhatt & V.M.PanchalCharotar Publishing house,Anand
Chapter: 5,7,8,9,12,15,20

                                                      BCSE 9101’C’ PROGRAMING LABORATORY

Introduction to OS :Linux /UNIX,DOS,Windows,VI editor, Shell Programming (on UNIX) ,File handling ,directory structures, file permissions, creating and editing simple ‘c’ programme ,Compilation and execution.
C programming on variables and expressions assignment, simple arithmetic Loops, if else, case statements, break, continue go to
Single and multi dimensional arrays
Function, recursion, file handling in c
Pointers, address operators, declaring pointers and operations on pointers
Address of an array, structures, Pointers to structures, dynamic memory allocation

                                       BCSE 9102 DATA STRUCTURES IN ‘C’ LABORATORY(0-0-3)

Stack: Problems on stack, Evaluation on arithmetic expression in Infix, Prefix, Postfixes
Queue: Problems of queue, circular queues, insertion and deletion in queues.
List: Problems on single linked list, doubly linked list with list operation, circular list
Trees: Creation of binary trees, determination of depth of binary trees, counting nodes, tree traversal, balanced tree
Graphs: Problems on graph, Breadth first search, Depth first search
Heap:  Problems on heap, Operations on heap, Heap sort, priority queues
Searching and searching algorithm: Problems on binary search, Selection sort Quick sort, Bubble sort, Merge sort.

                                                      BCSE 9103 WORK SHOP PRACTICE-I (0-0-3)

Carpentry practice: Use of Carpentry tools and making a joint such as Dove tail joint or Mortise or tenon joint or making stool.
Fitting practice: Use of hand tools in fitting, preparing a male and female joint of M.S. or making a paper weight of M.S.
Smithy Practice: Making a hexagonal headed blank for Bolt.

                                                     BENG  9104  WORKSHOP  PRACTICE—II (0-0-3)

Welding Practice: Gas welding & Electric Arc welding Practice.
A joint such as a Lap Joint, a T-joint or a Butt Joint is to be prepared or to make furniture.
Machining: (i) Strapped cylindrical Turning of a job and Thread-cutting in lathe.
              (ii)shaping
              (iii)Milling

                                                    BSCP  9101  PHYSICS—I  LABORATORY (0-0-3)

A student is expected to perform ten experiments from the list given below.

• Determination of young’s modulus by Searle’s method.
• Determination of Rigidity modulus by static method.
• Determination of surface tension by capillary rise method.
• Determination of acceleration due to gravity by Bar/ Kater’s pendulum.
• Determination of thermal conductivity by Lee’s method.
• Determination of wave length of light by Newton’s ring apparatus.
• Determination of grating element of a diffraction grating.
• Plotting of characteristic curve of a PN junction diode.
• Plotting of characteristic curve of BJT.
• Verification of laws of vibration of string by using sonometer.
• Determination of wavelength of laser source by diffraction grating method.
• Study of Hall Effect.
• Study of RC circuit.
• Study of power source- output impedance.
• Study of photoemission.

                                                   BSCC  9101  CHEMISTRY LABORATORY—I (0-0-3)
                                                            (ANY TEN EXPERIMENTS MAY BE DONE)

• Determination of amount of sodium hydroxide and sodium carbonate in a mixture.
• Determination of total hardness of water by EDTA method.
• Estimation of calcium in limestone.
• Determination of percentage of available chlorine in a sample of bleaching powder.
• Preparation of Phenolphthalein.
• Preparation of Aspirin.
• Preparation of buffer solution and determination of pH of Buffer solution.
• Standardization of KMnO4 using sodium oxalate.
• Determination of Ferrous iron in Mohr salt by Potassium permanganate.
• Determination of partition coefficients of Iodine between benzene and water.
• Determination of rate const. of acid catalyzed hydrolysis reaction.
• Determination of concentration of colored substance by Spectrophotometer.
• Determination of dissolved oxygen in a sample of water.
• Determination of viscosity of lubricating oil by RED-Wood Viscometer.
• Determination of flash point       of given oil by Pensky_Marten’s flash point approach.

                                     HSSM  9101  COMMUNICATION  PRACTICE LABORATORY—I (0-0-2)

Some tasks

• Make a list of nonverbal communication.
• How body language is casually conditioned?
• Take passages of descriptive, expressive and social functions and analyse them.
• Expressive (exposing feeling) language in English and your mother-tongue.
• Make a list of sexist language (e.g.-poetess, chairman).
• Mentally retarded should be mentally challenged. Make a list of similar expressions.
• Say formula expressions (Thank you, sorry, hallo, that’s right) with proper intonation.
• Make a list of words which should be avoided because they sound pompous. Which words would you use instead of them?
• How to express pleasure, regret, and approval?
• Time and tense are not the same. Give some examples.
• Take similar vowels and consonants and practice them in pair of words.
• Practice, stress and intonation in connected speech.
• Conversation practice in familiar situations (Play the roll of a tailor and a customer, for example).
• Ask for specific information (can you tell me where the railway station is?)
• Making a request (can I borrow your scooter, please?)
• asking for permission (Do you mind if I smoke?)
• Say the following pairs of words
   
• Beg, bag, full, fool, sit, seat, same, shame, judge, jazz, major, measure.
• Progress as noun verb, similarly, object, record, and supplement, perfect (adj.), and perfect (v.)
• Say the following words with correct stress. Teacher College, village, building, ago, above, apart, accuse, advice, education, examination, individual (The list is only illustrative and not exhaustive).

                                                                                                         

                                HSSM  9102  COMMUNICATION PRACTICE – LABORATORY-II (0-0-2)

Some task

• Write a paragraph with the topic sentence “Protection of environment should not be at the cost of development”. Identify the supporting details and sentence connectors.
• Make notes from a given passage.
• Prepare a short bibliography on the list of groups prescribed in this course.
• Write a letter complaining to a firm, which supplied defective computers.
• Write a functional CV of your own.
• Prepare an agenda of Mock meeting.
• Imagine that you are chairing the meeting. How would you go about it?
• How would you propose a vote of thanks?
• Make an oral presentation on a new product your company has brought out/ make seminar presentations.
• Make a checklist for preparing for an interview.
• Hold a Mock job interview.
• Prepare the agenda for a meeting you are organizing.

     (The list is only illustrative and not exhaustive).