Chapter 2 - Physics & Astronomy
... • if the system is linear, then the wave equation may be split into separate equations for superposed components; i.e., if y1 and y2 are wave solutions, then so is any superposition of them • if sinusoidal solutions are allowed, then the wave shape at any time may be written as a superposition of si ...
... • if the system is linear, then the wave equation may be split into separate equations for superposed components; i.e., if y1 and y2 are wave solutions, then so is any superposition of them • if sinusoidal solutions are allowed, then the wave shape at any time may be written as a superposition of si ...
Instructor: Dr. Ju Xin
... T/Th: 09:30~10:45, SSC 004 Office Hours: M: 1:00~2:00; W: 11:00~11:45; T//Th: 10:45-11:45, 2:00~3:00; or walk-in. Catalog Description: Presents some of the fundamental concepts and phenomena that constitute modern physics, including studies of the quantum nature of radiation, atomic structure and sp ...
... T/Th: 09:30~10:45, SSC 004 Office Hours: M: 1:00~2:00; W: 11:00~11:45; T//Th: 10:45-11:45, 2:00~3:00; or walk-in. Catalog Description: Presents some of the fundamental concepts and phenomena that constitute modern physics, including studies of the quantum nature of radiation, atomic structure and sp ...
powerpoint
... 2. The superposition of two waves is also a wave function 3. The light intensity is proportional to the square amplitude of the wave function ...
... 2. The superposition of two waves is also a wave function 3. The light intensity is proportional to the square amplitude of the wave function ...
Atom and Light
... The apparent change in wavelength or frequency of radiation due to relative motion between the source and the observer along the line-of-sight. If the relative motion between the source and the observer is moving away from each other, the observed spectral line is longer than the lab wavelength, it ...
... The apparent change in wavelength or frequency of radiation due to relative motion between the source and the observer along the line-of-sight. If the relative motion between the source and the observer is moving away from each other, the observed spectral line is longer than the lab wavelength, it ...
(2)
... It is very interesting to note that by using the concept of displacement current found from Maxwell’s equation’s the current density is frequency dependent see equation (7). Using the ordinary expression of electric power equations (4) and (5) shows that the power is frequency dependant. Using these ...
... It is very interesting to note that by using the concept of displacement current found from Maxwell’s equation’s the current density is frequency dependent see equation (7). Using the ordinary expression of electric power equations (4) and (5) shows that the power is frequency dependant. Using these ...
wave
... Schrödinger's famous tought experiment poses the question: when does a quantum system stop existing as a mixture of states and become one or the other? (More technically, when does the actual quantum state stop being a linear combination of states, each of which resemble different classical states, ...
... Schrödinger's famous tought experiment poses the question: when does a quantum system stop existing as a mixture of states and become one or the other? (More technically, when does the actual quantum state stop being a linear combination of states, each of which resemble different classical states, ...
PDF
... t). The right hand side of the equation represents in fact the Hamiltonian operator (or energy operator) HΨ(r, t), which is represented here as the sum of the kinetic energy and potential energy operators. Informally, a wave function encodes all the information that can be known about a certain quan ...
... t). The right hand side of the equation represents in fact the Hamiltonian operator (or energy operator) HΨ(r, t), which is represented here as the sum of the kinetic energy and potential energy operators. Informally, a wave function encodes all the information that can be known about a certain quan ...
Module code SP-2301 Module Title Concepts in Modern Physics
... On successful completion of this module, a student will be expected to be able to: Lower order : 30% - understand the basic principles related to modern physics, which includes relativity, matter waves, energy quantisation, x-ray and also laser generation, and the nuclear structure Middle orde ...
... On successful completion of this module, a student will be expected to be able to: Lower order : 30% - understand the basic principles related to modern physics, which includes relativity, matter waves, energy quantisation, x-ray and also laser generation, and the nuclear structure Middle orde ...
Quantum numbers
... Both felt the electron acted like a standing wave. (see slinky) Theorizing that the electron acts like a wave, and has a wave function That represents the x, y and z coordinates of the electron. A specific wave function is often called an orbital. ...
... Both felt the electron acted like a standing wave. (see slinky) Theorizing that the electron acts like a wave, and has a wave function That represents the x, y and z coordinates of the electron. A specific wave function is often called an orbital. ...
May 2001
... A spinless particle of mass m is confined to move in two dimensions. On the x̂ axis we place a grid that can be modeled by the following potential: ...
... A spinless particle of mass m is confined to move in two dimensions. On the x̂ axis we place a grid that can be modeled by the following potential: ...
Double-Slit Experiment
... Conclusions from Einstein and Plank: Energy is quantized. It can occur only in discrete units called ______________. de Broglie: Corrected equation to account for relationship between mass and wavelength: m= de Broglie equation: ...
... Conclusions from Einstein and Plank: Energy is quantized. It can occur only in discrete units called ______________. de Broglie: Corrected equation to account for relationship between mass and wavelength: m= de Broglie equation: ...
