Detailed Course Contents
CIT-4101 Computer Basics and Programming Fundamentals
Introducing Computer Systems, Interacting With Computer-Input Devices, Output Devices- Seeing, Hearing, and Printing Data.
Number Systems, Processing Data, Storing Data, Operating Systems, Networks, Internet Technologies.
Working with Office Automation & Application Software, Database Management, Development of Information Systems, Information Assurance: Security, Privacy, and Ethics.
Programming Basics: Programming Languages and the Programming Process, Programming Concepts, algorithm and logic.
Introduction to C: Evolution of C, lexical design and basic syntax, token, operator, identifier, simple data types; variables, constants, declarations; block structure, expressions and statements, compound statements, built-in function, I/O functions, control statements, branching, looping.
CIT-4102 Computer Basics and Programming Fundamentals Lab
Sessional works based on CIT-4101.
Atomic structure, quantum numbers, electronic configuration, and periodic table. Properties and uses of noble gases. Different types of chemical bonds and their properties. Molecular structure of compounds. Selective organic reactions. Different types of solutions and their compositions. Phase rule, phase diagram of monocomponent system. Properties of dilute solutions. Thermochemistry, chemical kinetics, chemical equilibria. Ionization of water and pH concept. Electrical properties of solution.
Chem-4106 Chemistry Lab
Sessional works based on Chem-4105.
Math-4105 Geometry & Differentia Calculus
Coordinate geometry of three dimensions-Rectangular coordinates. Direction cosines and angle between two lines. The plan and the straight lines. The equation of a sphere. The standard forms of equations of the central conicoids, cones and cylinders.
Applications. Curvature. Radius of curvature. Center of curvature.
Modern Physics: Michelson Morley's experiment, Galilean transformation, special theory of relativity, Lorentz transformation, relative velocity, length contraction, time dilation, mass-energy relation, Photo-electric effect, Compton effect, de-Broglie wave, Bohr's atom model, radioactive decay, half-life, mean-life, isotopes, nuclear binding energy, alpha beta & gamma decay.
Electricity and Magnetism: Electric charge, Coulomb's law, electric field: calculation of the electric field strength, E, a dipole in an electric field, electric flux and Gauss's law, electric potential V, relation between E and V, electric potential energy; Capacitors: capacitance, dielectric-en atomic view, Ampere's law, Faraday's law, Lenz's law, self inductance and mutual inductance; Magnetic properties of matter: magnetomotive force, magnetic field intensity, permeability, susceptibility, classification of magnetic materials, magnetisation curve.
Physical Optics: Theories of light: Huygen's principle and construction; Interference of light: Young's double slit experiment, Fresnel bi-prism, Newton's rings, interferometers; Diffraction of light: Fresnel and Fraunhoffer diffraction, diffraction by single slit, diffraction by double slit, diffraction gratings; Polarization: production and analysis of polarized light, optical activity.
Phys-4106 Physics Lab
Sessional works based on Phy-4105.
Updated on 28 August 2011