The Harmonic Oscilla..
... Now, we want to solve this equation; i.e., to find the set of functions ψ(x) which, when operated on by the operator Ĥ , yield a constant (E) times the function itself. The wavefunctions should also be finite, single-valued, and continuous throughout the range from x → -∞ to x → ∞. As in the case o ...
... Now, we want to solve this equation; i.e., to find the set of functions ψ(x) which, when operated on by the operator Ĥ , yield a constant (E) times the function itself. The wavefunctions should also be finite, single-valued, and continuous throughout the range from x → -∞ to x → ∞. As in the case o ...
Commentary - Absurd Being
... Where two troughs or two peaks in the wave meet they combine to produce a light patch but if a trough and a peak meet they cancel each other out and leave a shadow. However, when this experiment is reproduced with individual particles, such as electrons, as opposed to light (which is an electromagne ...
... Where two troughs or two peaks in the wave meet they combine to produce a light patch but if a trough and a peak meet they cancel each other out and leave a shadow. However, when this experiment is reproduced with individual particles, such as electrons, as opposed to light (which is an electromagne ...
Slide 1 - Mr Lundy`s Room
... the obstacle compared to the wavelength. If the obstacle is much smaller than the wavelength, the wave is barely affected (a). If the object is comparable to, or larger than, the wavelength, diffraction is much more significant (b, c, d). ...
... the obstacle compared to the wavelength. If the obstacle is much smaller than the wavelength, the wave is barely affected (a). If the object is comparable to, or larger than, the wavelength, diffraction is much more significant (b, c, d). ...
EM Waves
... •Some charge accumulates on each rod •This creates an electric field •The charging involves a current •This creates a magnetic field •It constantly reverses, creating a wave •Works best if each rod is ¼ of a wavelength long •The power in any direction is ...
... •Some charge accumulates on each rod •This creates an electric field •The charging involves a current •This creates a magnetic field •It constantly reverses, creating a wave •Works best if each rod is ¼ of a wavelength long •The power in any direction is ...
PART 1 Identical particles, fermions and bosons. Pauli exclusion
... Here ϕ1 and ϕ2 are spin wave functions of the first and the second nucleus respectively. U is the wave function of the center of mass motion. V is the wave function of the relative motion. Spin of the nucleus is zero, S = 0. Hence ϕ1 = ϕ2 = 1. ...
... Here ϕ1 and ϕ2 are spin wave functions of the first and the second nucleus respectively. U is the wave function of the center of mass motion. V is the wave function of the relative motion. Spin of the nucleus is zero, S = 0. Hence ϕ1 = ϕ2 = 1. ...
Sections 3 - Columbia Physics
... contrast with the previous case there is a characteristic length: d involving the mass and the Planck’s constant we can construct the characteristic energy: E* ...
... contrast with the previous case there is a characteristic length: d involving the mass and the Planck’s constant we can construct the characteristic energy: E* ...
Review
... We can find other operators which operate on (x,t) that correspond to other physical quantities. For example, since K p 2 2m , we can write momentum squared operator ...
... We can find other operators which operate on (x,t) that correspond to other physical quantities. For example, since K p 2 2m , we can write momentum squared operator ...
May 2011 - Maths Genie
... Two particles P and Q have masses 0.3 kg and m kg respectively. The particles are attached to the ends of a light inextensible string. The string passes over a small smooth pulley which is fixed at the top of a fixed rough plane. The plane is inclined to the horizontal at an angle , where tan = 3 ...
... Two particles P and Q have masses 0.3 kg and m kg respectively. The particles are attached to the ends of a light inextensible string. The string passes over a small smooth pulley which is fixed at the top of a fixed rough plane. The plane is inclined to the horizontal at an angle , where tan = 3 ...
Chapter 13
... • Earth can be though of as a nest of shells, one within another and each attracting a particle outside the Earth’s surface • Thus Earth behaves like a particle located at the center of Earth with a mass equal to that of Earth ...
... • Earth can be though of as a nest of shells, one within another and each attracting a particle outside the Earth’s surface • Thus Earth behaves like a particle located at the center of Earth with a mass equal to that of Earth ...
EMR and the Bohr Model of the Atom
... as a stream of particles “photons” • photon- a quantum of light • energy of these photons could be calculated by Planck’s equation • stated that the photons strike the electrons therefore ejecting them from the metal ...
... as a stream of particles “photons” • photon- a quantum of light • energy of these photons could be calculated by Planck’s equation • stated that the photons strike the electrons therefore ejecting them from the metal ...
Conservation of Energy and Momentum
... 46. Electromagnetic (EM) waves (from low frequency to high frequency) are: radio waves, ________________________, _________________________, ____________________________, _________________________, x-rays and _______________________________. These are different ________________________ (or wavelengt ...
... 46. Electromagnetic (EM) waves (from low frequency to high frequency) are: radio waves, ________________________, _________________________, ____________________________, _________________________, x-rays and _______________________________. These are different ________________________ (or wavelengt ...
ψ ψ ψ ψ ψ ψ ψ ψ ψ ψ ψ ψ ψ ψ ψ ψ ψ ψ
... are there for this system? Separate variables and obtain the eigenfunctions and eigenvalues. What are the degeneracies of the three lowest energy levels? There will be 6 quantum numbers. Call the three particles 1,2,3 respectively. Incorporate the relative mass into the quantum number part of the ex ...
... are there for this system? Separate variables and obtain the eigenfunctions and eigenvalues. What are the degeneracies of the three lowest energy levels? There will be 6 quantum numbers. Call the three particles 1,2,3 respectively. Incorporate the relative mass into the quantum number part of the ex ...
Space For Refection
... 1) A white snooker ball moving at 5ms-1 strikes a red ball and pots it. Both balls have a mass of 1kg. If the white ball continued in the same direction at 2ms-1 what was the velocity of the red ball? 2) A car of mass 1000kg heading up the M1 at 50ms-1 collides with a stationary truck of mass 8000kg ...
... 1) A white snooker ball moving at 5ms-1 strikes a red ball and pots it. Both balls have a mass of 1kg. If the white ball continued in the same direction at 2ms-1 what was the velocity of the red ball? 2) A car of mass 1000kg heading up the M1 at 50ms-1 collides with a stationary truck of mass 8000kg ...