BASIC ELECTRONICS | Syllabus | Marking Scheme | BE First Year Second Part

BASIC ELECTRONICS ENGINEERING

EX 451

Lecture  :   3

Year  :   I

Tutorial  :  1 

Part  :   II

Practical  :   3/2

Course Objectives:

•  To understand the language of electronics, elements and their functionality

•  Basic understanding of analog systems and their applications

•  Basic understanding of digital systems and their applications

1.  Basic Cirtuits Concepts   (4 hours)

1.1  Passive components: Resistance, Inductance, Capacitance; series, parallel combinations; Kirchhoff's law: voltage, current; linearity

1.2  Signal sources: voltage and current sources; nonideal sources; representation under assumption of linearity; controlled sources: VCVS, CCVS, VCCS, CCCS; concept of gain, transconductance, transimpedance.

1.3  Superposition theorem; Thevenin's theorem; Norton's theorem

1.4  Introduction to filter

2.  Diodes  (7 hours)

2.1  Semiconductor diode characteristics

2.2  Modeling the semiconductor diode

2.3  Diode circuits: clipper; clamper circuits

2.4  Zener diode, LED, Photodiode, varacters diode, Tunnel diodes

2.5  DC power supply: rectifier-half wave, full wave (center tapped, bridge), Zener regulated power supply

Engineering Drawing II | BE First Year Second Part | Syllabus

ENGINEERING DRAWING II

ME 451

Lecture:  1

Year:      1

Tutorial: 0

Part:        II

Practical:3

COURSE OBJECTIVE: 

To make familiar with the conventional practices of sectional views. To develop basic concept and skill of pictorial drawing and working drawings. Also to make familiar with standard symbols of different engineering fields.

 

COURSE OUTLINE:

1. Conventional Practices for Orthographic and Sectional Views (12hours)

1.1 Conventional Practices in Orthographic views: Half Views and Partial Views, Treatment of Unimportant Intersections, Aligned Views, Treatment for Radially Arranged Features, Representation of Fillets and Rounds

1.2 Conventional Practices in Sectional views: Conventions for Ribs, Webs and Spokes in Sectional View, Broken Section, Removed Section, Revolved Section, Offset Section, Phantom Section and Auxiliary Sectional Views

1.3 Simplified Representations of Standard Machine Elements

Engineering Mathematics II | BE Syllabus | First Year Second Part | IOE | 2066

ENGINEERING MATHEMATICS II

SH 451

Lecture: 3

Year: 1

Tutorial: 2

Part: II

Course Objectives:

i) To develop the skill of solving differential equations and to provide knowledge of vector algebra and calculus

ii) To make students familiar with calculus of several variables and infinite series

1.  Calculus of two or more variables  (6 hours)

1.1.  Introduction: limit and continuity

1.2.  Partial derivatives 

1.2.1.  Homogeneous function, Euler’s theorem for the function of 

two and three variables 

1.2.2.  Total derivatives

1.3.  Extrema of functions of two and three variables; Lagrange’s Multiplier

2.  Multiple Integrals  (6 hours)

2.1.  Introduction

2.2.  Double integrals in Cartesian and polar form; change of order of integration

2.3.  Triple integrals in Cartesian, cylindrical and spherical coordinates;

2.4.  Area and volume by double and triple integrals

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