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ECU 200: ENGINEERING MATHEMATICS V
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| bet | 5/48 | | Sana | 02.01.2024 | | Hajmi | 327 Kb. | | #129611 |
Bog'liq BACHELOR OF SCIENCE ELECTRICAL ELECTRONICS ENGINEERINGECU 200: ENGINEERING MATHEMATICS V
Techniques of integration: Powers of trigonometric functions; standard subscription including trigonometric and hyperbolic functions and partial fractions, integration by parts: double integrals and change of order of integration: Applications of integration: Kinematics of simple harmonic motion and oscillators, arc length, plane and surface area, and volume in Cartesian coordinates: Mass, Moment and Centre of mass; Sequences and Series: Sequences and Convergence, Infinite series, Power series, Taylor and Maclaurin series, Binomial theorem and binomial series. L'Hopital's rule. Rolle's Theorem. Numerical integration: Euler, Trapezoidal, Mid-ordinate, and Simpson’s rules.
EEE 200: INTRODUCTION TO MATERIAL SCIENCE
Structure, crystallography and solidification of material, alloys, ceramics, glasses and polymers: Micro and macro structures: Crystal structure metals: Mechanical properties: Cooling curves: Alloy theory and equilibrium diagrams: Iron properties and methods of production; iron carbon phase diagrams; types, properties, uses and heat treatment of plain carbon steels; stainless steels and cast iron: Mechanical properties; Ductile-brittle transitions. Fracture, toughness. Strengthening methods: Non-destructive testing techniques: Environmental effects on material; corrosion and photo damage; Thermal, optical and electrical properties.
EEE 201: THERMODYNAMICS
The concept of the zeroth law of thermodynamics: Concept of state functions: Work, heat, internal energy and Enthalpy: First law of thermodynamics: Steady flow energy equation, applications to boilers, condensers and turbines: The concept of heat engine and a heat pump: Second law of thermodynamics; entropy; thermodynamic temperature; thermodynamic properties of steam (steam tables and Mollier diagram) Power production: Carnot and Rankine Vapour power cycles; steam power plants performance: A simple refrigeration cycle: Heat transfer: Modes of heat transfer, Fourier’s Law; One dimensional, conduction through composite walls, and axi-symmetric heat conduction: Natural and forced convection: principles, heat transfer coefficient and its use: Radiation: Black and grey body radiation. Heat exchangers: types and determination.
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