Level: 1 /Semester: 1

No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 EBS 101 Engineering Mathematics (1) 3 2 2 1 Nil
2 EBS 111 Engineering Mechanics (1) 3 2 2 0 Nil
3 EBS 121 Engineering Physics (1) 3 2 2 1 Nil
4 EBS 141 Engineering Drawing and Descriptive Geometry 3 2 2 0 Nil
5 CPE 012 Computers and Programming 2 1 1 2 Nil
6 UEB 02 Critical Thinking 2 2 0 0 Nil
Total 16

Level: 1 /Semester: 2

No. Course Code Course Title Cr. Contact Hours/Week Pre-requisite
L T P Total
1 EBS 102 Engineering Mathematics (2) 3 2 2 1 5 EBS 101
2 EBS 112 Engineering Mechanics (2) 3 2 2 0 4 EBS 111
3 EBS 122 Engineering Physics (2) 3 2 2 1 5 EBS 121
4 EME 081 Introduction to Production Technology 2 1 1 2 4 Nil
5 HUE 121 Engineering Perspective and Technology 2 1 0 2 3 Nil
6 UCS 01 Communication Skills (1) 1 1 0 0 1 Nil
7 UGE 00 English (0) 0 2 0 0 2 Nil
8 PCE 011 Introduction to Industrial Chemistry 2 1 1 2 4 Nil
Total 16

Entrepreneurship and Innovation

Definition and evolution of entrepreneurship and innovation. Role of innovation in entrepreneurship and organizational development. Innovation as a capability/ core competence. Understanding entrepreneurial and innovative individuals. Role of innovation in new growth firm creation (independent entrepreneurship). Role of innovation in established enterprise development (corporate entrepreneurship). Role of innovation in high growth or gazelle firms. Role of technology in innovation. Role of champions and culture in innovation. Implementing innovation. Measuring innovation performance. Some key issues in innovation management.

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Critical Thinking

Fundamental concepts of critical thinking (logic, argument analysis, rhetoric, reasoning with probabilities, the importance of background knowledge, etc.). The role that critical thinking principles play in good essay writing. The importance of critical thinking for personal development, participation in democratic society, and the pursuit of wisdom. How cognitive biases make us prone to errors in how we form beliefs and make judgments. How debates in science often turn on the meanings of key terms, like "theory", "fact" "hypothesis", and "law".

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Computers and Programming

Use of personal computers and software. Effects of computer technology on contemporary society. Productivity applications, Creation of Web pages, online behavior, Internet governance, AI, and Cyber security, and societal and ethical issues in computing; privacy, security, censorship and the changes in work, school, and entertainment fostered by computing. Computer impact issues of tomorrow. The meaning of the term "computer ethics" negative impacts that computer technology might bring to individuals.

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Communication Skills (1)

On successful completion of this course, the student should be able to express their feelings, ideas ad exchanging information and knowledge with others, build human relations with the group. Give and receive criticism, deal with different personality types, cooperation and better teamwork performance, better decision-making and problem solving.

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Engineering Mathematics (1)

Fundamental concepts and applications of differential and integral calculus of functions in one variable with emphasis on applications in different engineering related. Optimization and related rates problems are covered. Methods of integration of functions of single variable. Evaluation of average value of functions, calculation of areas between curves, and volumes of solids of revolutions.

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Engineering Mechanics (1)

The force system, vector analysis, equilibrium of force systems for particles versus rigid bodies. Moments and couples, analysis of structures such as plane trusses and frames, distributed force systems, centroid and composite bodies, moments of inertia. Friction.

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Engineering Physics (1)

Units, and Dimensions; Properties and classification of matter; Stress, strain, elastic modulus and Hooke's law; Vibrations and wave Motion, sound waves and introductory acoustics; Conservation of Energy and basics of Thermodynamics; Heat Transfer by conduction, convection and radiation; Fluid Statics: pressure variation in fluid at rest and buoyancy; Fluids in motion: viscosity, shear and normal stresses, frictionless flow. Emphasis on relevant applications in engineering.

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Engineering Drawing and Descriptive Geometry

Introduction, types of lines and lettering, drawing equipment and use of instruments, geometric constructions, the theory of projection, multi view representation, and deduction of the third view. Descriptive Geometry: Introduction, Mongean Projection: Representation of points, lines, planes. Representation of line intersection of two planes, Representation of point of intersection of a line and a plane, auxiliary planes, Intersection of curved surfaces.

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Engineering Mathematics (2)

Fundamental concepts and techniques of differential and integral calculus of functions in several variables. Partial differentiation, the chain rule, extrema of multivariable functions. Vectors in two and three dimensions, dot and cross products of vectors, the gradient and directional derivative. Double integration in rectangular and polar coordinates with emphasis on engineering applications of multiple integrals.

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Engineering Mechanics (2)

kinematics of particles: curvilinear motion and relative motion. Kinematics of rigid bodies in plane motion: relative velocity and acceleration and rotating axes. Kinetics of particles: Newton's law, work and energy, impulse and momentum and impact. Kinetics of rigid bodies in plane motion: translation, fixed axis rotation, general motion, work and energy and impulse and momentum.

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Engineering Physics (2)

Fundamentals of electrostatics, magnetism and electromagnetism. Electric dc and ac circuits. Electromagnetic waves, perception of color, Light sources, Light in various mediums and Illumination. Light propagation and interaction with obstacles (lighting of buildings). Geometrical optics and optical fibers. Interference, diffraction and polarization with electromagnetic waves, X-ray diffraction. Production, transport and distribution of electric energy. Emphasis on relevant applications in engineering.

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Introduction to Production Technology

State-of-the-art that accompanied the current industrial revolutions and popular industries' activities. General classification of common engineering materials. Types, and nature of conventional, nonconventional manufacturing. Advanced processes and their common machinery and tooling. Basic measurement techniques and quality. Fundamentals of cost analysis. Practical workshop training.

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Introduction to Production Technology

This course provides the students with the key development perspectives, which enable students to research, develop and communicate facts, concepts and reasoned arguments, within the context of their chosen engineering discipline. Obtain an early hands-on engineering experience by applying math, science and/or engineering principles to deal with practical problems integrated with engineering design and modern technology. Working both individually and co-operatively.

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