Wave Optics Module Model Library
... upon an infinite dielectric medium (n1.5) and is partially reflected and partially transmitted. If the electric field is p-polarized—that is, if the electric field vector is in the same plane as the Poynting vector and the surface normal—then there will be no reflections at an incident angle of r ...
... upon an infinite dielectric medium (n1.5) and is partially reflected and partially transmitted. If the electric field is p-polarized—that is, if the electric field vector is in the same plane as the Poynting vector and the surface normal—then there will be no reflections at an incident angle of r ...
- White Rose eTheses Online
... of great technological interest due to their proposed application in magnetic memory [6] and logic [7, 8] technologies. The suitability of using DWs for these applications stems from their particle-like properties, which allows them to be transported around complex networks of nanowires [8] in a sim ...
... of great technological interest due to their proposed application in magnetic memory [6] and logic [7, 8] technologies. The suitability of using DWs for these applications stems from their particle-like properties, which allows them to be transported around complex networks of nanowires [8] in a sim ...
A blowout numerical model for the supernova remnant G352.7−0.1
... the radio maps can be identified as resulting from the dense ring of material that forms at the cloud–ISM interface. The fact that it is noticeably elliptical in the observations can be explained by a projection effect when the structure is seen at an angle with respect to the line of sight. The sec ...
... the radio maps can be identified as resulting from the dense ring of material that forms at the cloud–ISM interface. The fact that it is noticeably elliptical in the observations can be explained by a projection effect when the structure is seen at an angle with respect to the line of sight. The sec ...
Dipole moment transitions in OH: theory
... with L̂ the electronic orbital angular momentum, Ŝ the electronic spin, and R̂ the nuclear rotation, while v is the vibration quantum number and Ω is the projection quantum number of Jˆ on the OH bond axis. Using microwave transitions also the X 2 Π3/2 , J = 3/2, v = 0, e state is populated, where ...
... with L̂ the electronic orbital angular momentum, Ŝ the electronic spin, and R̂ the nuclear rotation, while v is the vibration quantum number and Ω is the projection quantum number of Jˆ on the OH bond axis. Using microwave transitions also the X 2 Π3/2 , J = 3/2, v = 0, e state is populated, where ...
Magnetism - Reocities
... All magnetic materials are made up of tiny regions called domains. These domains have north and south poles. Each domain is a magnet in itself. In an ordinary piece of iron, domains are oriented randomly. The magnetic effect is absent. But in a magnet, those domains are properly oriented. Therefore ...
... All magnetic materials are made up of tiny regions called domains. These domains have north and south poles. Each domain is a magnet in itself. In an ordinary piece of iron, domains are oriented randomly. The magnetic effect is absent. But in a magnet, those domains are properly oriented. Therefore ...
Fields - Univerzita Karlova v Praze
... 10.1 Describing fields Gravitational fields • A uniform field, however, has the lines perfectly parallel. The Earth's gravitational field can be considered to be uniform on the scale of small things such as cars, balls, and planes. • For small heights at this scale (a few dozen kilometres), the stre ...
... 10.1 Describing fields Gravitational fields • A uniform field, however, has the lines perfectly parallel. The Earth's gravitational field can be considered to be uniform on the scale of small things such as cars, balls, and planes. • For small heights at this scale (a few dozen kilometres), the stre ...
James Clerk Maxwell - Math Tutorials and More by George
... In the history of physics there are three individuals who stand out above all others. They are Isaac Newton, James Clerk Maxwell, and Albert Einstein. Each of these men dramatically changed the way we look at the physical world — Isaac Newton with his laws of motion, James Clerk Maxwell with his ele ...
... In the history of physics there are three individuals who stand out above all others. They are Isaac Newton, James Clerk Maxwell, and Albert Einstein. Each of these men dramatically changed the way we look at the physical world — Isaac Newton with his laws of motion, James Clerk Maxwell with his ele ...
Understanding Motion
... eventually go into a circular orbit around the Earth. However, without the gravity of the Earth, the ball would continue in a straight line forever.) What Galileo discovered is that, within any reasonable large space—say, a laboratory—it is “natural” for the ball to continue to roll horizontally in ...
... eventually go into a circular orbit around the Earth. However, without the gravity of the Earth, the ball would continue in a straight line forever.) What Galileo discovered is that, within any reasonable large space—say, a laboratory—it is “natural” for the ball to continue to roll horizontally in ...
