Applied Mechanics | Syllabus | Marking Scheme | First Year | 2066

APPLIED MECHANICS

CE  401

Lecture   :  3
Year      :  1
Tutorial  :  2
Part      :  II

Course Objective :
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

Basic Electrical Engineering | First year | Syllabus | Marking Scheme | 2066

BASIC ELECTRICAL ENGINEERING

EE 401

Lecture    : 3
Year       :  I
Tutorial   : 1
Part       :  I/II
Practical  : 3/2

Course Objectives: After completion of this course the student will understand the fundamental concept of DC, AC & 3-phase electrical circuits.

1  General Electric System (6 hours)
1.1  Constituent parts of an electrical system (source, load, communication & control)
1.2  Current flow in a circuit
1.3  Electromotive force and potential difference
1.4  Electrical units
1.5  Ohm’s law
1.6  Resistors, resistivity
1.7  Temperature rise & temperature coefficient of resistance
1.8  Voltage & current sources

2  DC circuits (4 hours)
2.1  Series circuits
2.2  Parallel networks
2.3  Krichhhof’s laws
2.4  Power and energy

Engineering Physics | Syllabus | Marking Scheme | First Year | 2066

ENGINEERING PHYSICS

SH 402

Theory    : 4
Year      : I
Tutorial  : 1
Part      : I/II
Practical : 2

Course objectives: To provide the concept and knowledge of physics with the emphasis of present day application. The background of physics corresponding to Proficiency Certificate Level is assumed.

1  Oscillation:  (7 hours)
1.1  Mechanical Oscillation: Introduction
1.2  Free oscillation
1.3  Damped oscillation
1.4  forced mechanical oscillation
1.5  EM Oscillation: Free, damped and Forced electromagnetic oscillation

2  Wave motion   (2 hours)  
2.1  Waves and particles,
2.2  Progressive wave,
2.3  Energy, power and intensity of progressive wave

Engineering Drawing I | IOE | First Year | Syllabus | Marking Scheme | 2066

ENGINEERING DRAWING I

ME 401

Lectures     : 1  

Year     : I

Tutorial     :   

Part      : I

Practical    : 3     

                       
Course Objective:            
To develop basic projection concepts with reference to points, lines, planes and geometrical solids. Also to develop sketching and drafting skills to facilitate communication.

1.       Instrumental Drawing,  Technical Lettering Practices and Techniques  (2 hours)
1.1.            Equipment and materials                
1.2.            Description of drawing instruments, auxiliary equipment and drawing materials 
1.3.            Techniques of instrumental drawing   
1.4.            Pencil sharpening, securing paper, proper use of T- squares, triangles, scales dividers, compasses, erasing shields,  French curves, inking pens
1.5.            Lettering strokes, letter proportions, use of pencils and pens, uniformity and appearance of letters, freehand techniques, inclined and vertical letters and numerals, upper and lower cases, standard English lettering forms

COMPUTER PROGRAMMING | C | Syllabus | Marking Scheme | IOE |

COMPUTER PROGRAMMING

CT 401

Lecture : 3 

Year : I

Part  : I

Practical : 3

Course Objective:      To acquaint the student with computer software and high level programming languages. Emphasis will be given on developing computer programming skills using computer programming in C and FORTRAN languages.

1.              Overview of computer software & programming languages  (2 hours)

1.1.       System software

1.2.       Application software

1.3.       General software features and recent trends

1.4.       Generation of programming languages

1.5.       Categorization of high level languages

Engineering Mathematics I | BE Syllabus | Marking Scheme

ENGINEERING MATHEMATICS I

EG ……SH

Lecture:  3 
Year: I
Tutorial: 2
Part: I
Practical :

Course Objectives:     
To provide students a sound knowledge of calculus and analytic geometry to apply them in their relevant fields.

1.          Derivatives and their Applications   (14 hours)

1.1.       Introduction

1.2.       Higher order derivatives

1.3.       Mean value theorem

1.3.1.     Rolle’s Theorem

1.3.2.     Lagrange’s mean value theorem

1.3.3.     Cauchy’s mean value theorem

1.4.       Power series of single valued function

1.4.1.     Taylor’s series

1.4.2.     Maclaurin’s series

1.5.       Indeterminate forms; L’Hospital rule

1.6.       Asymptotes to Cartesian and polar curves

1.7.       Pedal equations to Cartesian and polar curves; curvature and radius of curvature