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EEE 202: COMPUTER PROGRAMMING II
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| bet | 6/48 | | Sana | 02.01.2024 | | Hajmi | 327 Kb. | | #129611 |
Bog'liq BACHELOR OF SCIENCE ELECTRICAL ELECTRONICS ENGINEERINGEEE 202: COMPUTER PROGRAMMING II
Programming in high level languages: Data type and declarations, statements expressions and assignments: Constants, variables, arrays, relations, arithmetical, logic operations and expressions decisions and loop control structure, input and output statements functions and procedures: Interactive programming structures; data structures; non-procedural structures and commands: Application of high-level languages to scientific problems.
EEE 203: CIRCUIT THEORY I
Basic Circuit Concepts and Components: Resistor, Inductor and Capacitor. Impedance Z: Resistance R, Capacitance C and Inductance L: AC and DC sources: Voltage sources and Current Sources: Circuit elements in series and in parallel: Steady-state linear DC circuit analysis: Techniques of circuit analysis: Kirchhoff’s laws, superposition theorem, Thevenins theorem, Compensation theorem, reciprocity theorem. Maximum power transfer: Steady-state single-phase AC circuit analysis: Sinusoidal excitation and phasors, admittance and conductance: Average and effective value of A.C waveforms, node and mesh circuit analysis: A.C steady state analysis, node voltage network analysis: Thevenins and Nortons theorems in a.c. Networks: Computer Aided Circuit Analysis: Introduction to the use of Computer-Aided Design (CAD) tools such as PSPICE for AC and DC circuit simulation and analysis.
EEE 205: PHYSICAL ELECTRONICS
Atomic structure and Quantum concepts: atomic structure, energy levels in an isolated atom, quantization, inter-atomic forces, bonds and bands: Schrodinger wave equation: Potential wave problem: Electrical conduction; Electrical conduction in metals, classical and quantum free electron theories, band theory, distinction between metals, insulators and semi-conductors, intrinsic and extrinsic semi-conductors; intrinsic and extrinsic semiconductors: Fermi energy; conductivity and its variation with temperature; experimental techniques for determination of the energy barrier: Currents in a p-n junction: the diode equation; junction capacitance, the aviator diode, characterization of the junction; tunnelling phenomenon; physics of the solar cell and the light-emitting diode. Gaseous and Plasma Processes: arc, glow discharges.
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