4. Example 2.5 in your textbook points out that the operators å and p can be...
If you answered this previously, you were wrong. Please help me out here. I’m trying to understand this and it’s very confusing. The ground state and first excited state wavefunctions for the harmonic oscillator are In what follows, it may be helpful to set: (a) Compute (x), (p), (2), and (p2) for both states by explicit integration. b) Check the uncertainty principle for both of these states. e) Compute (T) and (u)-but there should be no need to perform any...
Need the answer for b) 1. The idea of a quantum fluctuation is central to much of physics, including cosmology; for example, it is believed that the current structure of the Universe arose from small initial quantum fluctuations that were stretched out during a period of rapid Universal expansion called inflation. As we will discuss later, it turns out that we can represent quantum systems as an infinite collection of harmonic oscillators. For each of the harmonic oscillators, the amplitude...
Need the answer for c) 1. The idea of a quantum fluctuation is central to much of physics, including cosmology; for example, it is believed that the current structure of the Universe arose from small initial quantum fluctuations that were stretched out during a period of rapid Universal expansion called inflation. As we will discuss later, it turns out that we can represent quantum systems as an infinite collection of harmonic oscillators. For each of the harmonic oscillators, the amplitude...
Need the answer for a) 1. The idea of a quantum fluctuation is central to much of physics, including cosmology; for example, it is believed that the current structure of the Universe arose from small initial quantum fluctuations that were stretched out during a period of rapid Universal expansion called inflation. As we will discuss later, it turns out that we can represent quantum systems as an infinite collection of harmonic oscillators. For each of the harmonic oscillators, the amplitude...