COURSE OBJECTIVES To introduce the operation, programming, and application of microprocessors. 1.0 Introduction to Computer Architecture:(4 hours) 1.1 Automated calculator and stored program computer, Von Neuman, Harvard and modified Harvard architectures, principle elements – CPU, memory, control and input/output units 1.2 Simple stored program computer architecture, basic registers 1.3 Introduction to register transfer language (RTL) …
Course Objectives To introduce and apply electric magnetic circuit concepts to electromechanical energy conversion to explain and predict the performance of basic devices such as transformer, electromagnets and rotating electric machines. 1.0 Magnetic Circuit Concepts:(5 hours) 1.1 Ohm’s law for magnetic circuits 1.2 Magnetic potential sources, electric current, permanent magnetic materials 1.3 Ferromagnetic materials, magnetic …
Course Description: This course is designed for the B. E. Level I year II part students of Civil, Mechanical and III year I part students of Electrical, Electronics and Computer. It intends to develop and strengthen in students the communication skills in the English language with emphasis on writing, reading and speaking. Course Objectives: This …
COURSE OBJECTIVES To introduce the fundamentals of analysis of electronic circuits containing modern electronic components. 1.0 Linear Device Models:(6 hours) 1.1 Voltage-controlled voltage source model 1.2 Voltage-controlled current source model 1.3 Input and output resistance 1.4 Voltage and power gain calculations 1.5 Reverse transfer concept and the hybrid-pi circuit 1.6 Voltage gain calculations using the …
Objectives: Course objectives is to provide fundamental knowledge of Data Structure and its design. To provide the knowledge of various algorithms. 1.0 Concept of data structure( 2 hours) 1.1 Abstract Data Type 1.2 Implementation of Data structure 2.0 The Stack and Queue( 6 hours) 2.1 Stack as an ADT 2.2 Stack operation 2.3 Stack application: …
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Course Objectives To learn visual programming by carrying out a small project. During the project, the student will learn visual programming tool (JAVA/Visual Basic/Visual C++ or any current trend of visual tool). The student will also learn to formulate project documentation for his/her final year project. The project may be on the following areas or …
COURSE OBJECTIVES The purpose of this course is to round out the student’s preparation for more sophisticated applications with an introduction to linear algebra, a continuation of the study of ordinary differential equations and an introduction to vector calculus. 1. Matrices and determinants(8 hours) 1.1 Matrix and determinants. 1.2 Vector spaces 1.3 Linear transformations 1.4 …
Course Objectives It is assumed that students have taken Mathematics I or an equivalent introduction to calculus as a prerequisite. Major topics to be covered are (a) two and three-dimensional vectors and some associated linear algebra (b) infinite series (c) first order differential equations. 1. Plane curves and Polar coordinates.(4 hours) 1.1 Plane curves. 1.2 …
Course Objectives To present the theory of numerical computational procedures for solving engineering problems. Solution of ordinary and partial differential equations will be included. 1.0 Solution of Nonlinear Equations:(10 hours) 1.1 Review of calculus, continuity, differentiability, intermediate value theorem, Taylor’s theorem 1.2 Absolute, relative, and round off errors, error bounds for computational errors 1.3 Bisection …
1. Fundamentals( 2 hours) 1.1 Evolution of Computer 1.2 Classification 1.2.1 Operation: Analog and Digital 1.2.2 Uses: General purpose and Specific purpose 1.2.3 Capacity: Mainframe, Mini, Personal, and Super computer 2. Basic Architecture( 7 hours) 2.1 Building blocks of a PC 2.1.1 CPU 2.1.2 Memory 2.1.3 Input 2.1.4 Output 2.2 The Storage devices: Floppy Disk …