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I am teaching mechanical engineering courses, including thermo-fluid courses and numerical courses.
I am teaching mechanical engineering courses, including thermo-fluid courses and numerical courses.
EMH 102: Fluid Mechanics
EMH 102: Fluid Mechanics
Introduction
This course cover various aspects of fluid flow benaviour, introduction and application of Navier-Stokes equation, compressible flow, classification and performance characteristics of turbomachinery.
EMH 222: Fluid Dynamics
EMH 222: Fluid Dynamics
Introduction
This course is an Introduction to the ideal & viscous fluid flow theories, different forms of fundamental laws in fluid dynamics, boundary layer, concept of compressible flow, adiabatic and isentropic flow with area changes, normal shockwave, converging & diverging flow and turbomachines.
EMH 342: Heat Transfer
EMH 342: Heat Transfer
Introduction
From the study of thermodynamics, the energy can be transformed by the interactions of a system with its surroundings. These interactions are known as work and heat. However, thermodynamics deals with the end states of the process during the interaction occurred and provides no information concerning the nature or the time rate these interactions occurred. The heat transfer course will extend the thermodynamics analysis through study of the modes of heat transfer and through the development of relations to analyse the heat transfer rates.
EMH 342: Heat Transfer
EMH 342: Heat Transfer
Introduction
This course covers advanced topics in applied computational methods for partial differential equations, focusing on modern methods in mathematical modelling, solution, and scientific visualization of physical problems. Modern programming languages are used for solving problems found in physics and engineering including applications of numerical methods with the Internet of Things.
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