Search result for Phd in chemical physics Online Courses & Certifications
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Advanced Fluid Mechanics 2: The Navier-Stokes Equations for Viscous Flows
by Gareth McKinley , Bavand Keshavarz , John Liu , Emily Welsh- 0.0
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12 Weeks
This course is the second of a three-course sequence in incompressible fluid mechanics consisting of Advanced Fluid Mechanics 1: Fundamentals; Advanced Fluid Mechanics 2: The Navier-Stokes Equations for Viscous Flows, and Advanced Fluid Mechanics 3: Potential Flows, Lift, Circulation & Boundary Layers. The series is based on material in MIT’s class 2....
$99
Advanced Fluid Mechanics 1: Fundamentals
by Gareth McKinley , Bavand Keshavarz , John Liu , Emily Welsh- 0.0
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12 Weeks
This course is the first of a three-course sequence in incompressible fluid mechanics: Advanced Fluid Mechanics: Fundamentals, Advanced Fluid Mechanics: The Navier-Stokes Equations for Viscous Flows, and Advanced Fluid Mechanics: Potential Flows, Lift, Circulation & Boundary Layers. The series is based on material in MIT’s class 2....
$99
Advanced Fluid Mechanics 3: Potential Flows & Boundary Layers
by Gareth McKinley , Bavand Keshavarz , John Liu , Emily Welsh- 0.0
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12 Weeks
Learn to analyze the structure of high Reynolds number inviscid flows using potential flow theory, the roles of vorticity generation in viscous boundary layers, circulation and lift, flow separation, and transition to turbulence. Applications are drawn from hydraulics, aero & hydrodynamics as well as the chemical process industries. Surface Tension Phenomena in engineering systems...
$99
From Atoms to Materials: Predictive Theory and Simulations
by Alejandro Strachan , Sam Reeve , David Guzman- 0.0
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10 Weeks
Explore this five-unit course and discover a unified framework for understanding the essential physics that govern materials at atomic scales. The course starts with an introduction to quantum mechanics and its application to understand the electronic structure of atoms and the nature of the chemical bond....
$49
Electrodynamics: Analysis of Electric Fields
by Seungbum Hong- 4.8
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Approx. 11 hours to complete
In addition, we will introduce polarization, dielectrics, and how electric fields create dipoles. The approach taken in this course complements traditional approaches, covering a fairly complete treatment of the physics of electricity and magnetism, and adds Feynman’s unique and vital approach to grasping a picture of the physical universe. The Electric Field in Various Circumstances (cont'd)...
Electrodynamics: In-depth Solutions for Maxwell’s Equations
by Seungbum Hong- 4.8
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Approx. 19 hours to complete
This course is the fourth course in the Electrodynamics series, and is directly proceeded by Electrodynamics: Electric and Magnetic Fields. The approach taken in this course complements traditional approaches, covering a fairly complete treatment of the physics of electricity and magnetism, and adds Feynman’s unique and vital approach to grasping a picture of the physical universe....
Electrodynamics: Electric and Magnetic Fields
by Seungbum Hong- 4.8
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Approx. 12 hours to complete
In addition, we will cover the basics of the electromotive force and how it can be used to build different devices. Furthermore, this course uniquely provides the link between the knowledge of electrodynamics and its practical applications to research in materials science, information technology, electrical engineering, chemistry, chemical engineering, energy storage, energy harvesting, and other materials related fields....
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Genomics: Decoding the Universal Language of Life
by Dr. Gene E. Robinson- 4.6
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Approx. 36 hours to complete
The ability to regrow a torn ligament, the clues that might predict the onset of mental illness, the nutritional potential of crops, and even the history of life itself, are all encoded in genomes. - Nigel Goldenfeld, Professor of Physics - Brendan Harley, Assistant Professor of Chemical and Biomolecular Engineering Predicting Problems in Pregnancy Lamarck in the 21st Century...
Smart Materials: Microscale and Macroscale Approaches
by Yury Galyametdinov , Fedor Senatov , Artem Bezrukov- 4.9
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Approx. 17 hours to complete
Smart materials represent a cutting-edge global trend both in fundamental science and emerging technologies. Smart materials science is a truly interdisciplinary area at the intersection of physics, chemistry, chemical engineering, mathematical simulations, nanotechnology, biotechnology, and etc. Identify the properties of smart materials that can be valuable in a specific area of application....
The Science of Gastronomy
by King L. Chow , Lam Lung Yeung- 4.6
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Approx. 25 hours to complete
All topics covered have a strong basis in biology, chemistry, and physics application. 1: How do we feel the texture in our mouth? 2: We can also feel pain and have self-awareness in our mouth! 4: Why some plants are not green in color? 8: What are the prominent tastes in fruits and vegetables?...
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