6. Quantum Mechanics II
... which is a sine wave moving in the x direction. Notice that, unlike classical waves, we are not taking the real part of this function. is, in fact, complex. In general, the wave function is complex. But the physically measurable quantities must be real. These include the probability, position, mom ...
... which is a sine wave moving in the x direction. Notice that, unlike classical waves, we are not taking the real part of this function. is, in fact, complex. In general, the wave function is complex. But the physically measurable quantities must be real. These include the probability, position, mom ...
Lecture Presentation Chp-10
... where, A is the duct crosssectional area and is the fluid mass flow rate (e.g., kg/s). For an incompressible fluid, the density is constant. ...
... where, A is the duct crosssectional area and is the fluid mass flow rate (e.g., kg/s). For an incompressible fluid, the density is constant. ...
PARTICLE IN AN INFINITE POTENTIAL WELL
... September 2013 We will now look at the solutions of a particle of mass m confined to move along the x-axis between 0 to L. This is achieved by making the potential 0 between x = 0 and x = L and V = ∞ for x < 0 and x > L (see Figure 1). In quantum mechanics this model is referred to as particle in a ...
... September 2013 We will now look at the solutions of a particle of mass m confined to move along the x-axis between 0 to L. This is achieved by making the potential 0 between x = 0 and x = L and V = ∞ for x < 0 and x > L (see Figure 1). In quantum mechanics this model is referred to as particle in a ...
Phonons II
... • Be careful! Phonons do not carry momentum like photons do. They can interact with particles as if they have a momentum. For example, a neutron can hit a crystal and start a wave by transferring momentum to the lattice. • However, this momentum is transferred to the lattice as a whole. The atoms th ...
... • Be careful! Phonons do not carry momentum like photons do. They can interact with particles as if they have a momentum. For example, a neutron can hit a crystal and start a wave by transferring momentum to the lattice. • However, this momentum is transferred to the lattice as a whole. The atoms th ...
