Non-interacting paramagnetic system coupled to thermal bath. Derive the equation for total internal energy. Spins can...

Consider a system of three non-interacting spins in equilibrium with a magnetic field H (this system...

Consider a system of three non-interacting spins in equilibrium with a magnetic field H (this system is not really macroscopic, but is illustrative). Each spin can have only two possible orientations: parallel to H, with magnetic moment u and energy (-u H), or antiparallel with magnetic moment -u and energy (uH). a) List and identify all possible states of the system. b) If it is known that the system has an energy (-uH): i. What are the accessible states? ii....

Consider two isolated systems of non-interacting spins with NA = 4 and NB = 16 spins,...

Consider two isolated systems of non-interacting spins with NA = 4 and NB = 16 spins, respectively. Each spin has a magnetic moment µ that can point either up or down. The energies are simply the sums over the oriented magnetic moments and the initial energies are EA = −2µ and EB = −2µ. 1. What is the total number of microstates available to the composite system? 2. If the two systems are now allowed to exchange energy with one...

Consider a system of three non-interacting particles confined by a one-dimensional harmonic oscillator potential and in...

Consider a system of three non-interacting particles confined by a one-dimensional harmonic oscillator potential and in thermal equilibrium with a total energy of 7/2 ħw. (a) what are the possible occupation numbers for this system if the particles are distinquishable. (b) what is the most probable energy for a distinquishable picked at random from this system.

4. Write down the time-independent Schrӧdinger Equation for two non-interacting identical particles in the infinite square...

4. Write down the time-independent Schrӧdinger Equation for two non-interacting identical particles in the infinite square well. Assuming the spins of the two particles are parallel to each other, i.e., all spin-up, find the normalized wave function representing the ground state of the two-particle system and the energies for the two cases: (a) Two particles are identical bosons. (b) Two particles are identical fermions. and (c) Find the wave functions and energies for the first and second excited states for...

A thermal system of four un Identical particles has a total energy E=6e , Where the...

A thermal system of four un Identical particles has a total energy E=6e , Where the system has microscopic states whose energies are as follows 0,e,2e,3e,... Find all possible microscopic states if the particles a) fermions b) bosons sorry for my language but i hope you get it

Consider a system of 2 particles and 4 non-degenerate energy levels with energies 0, E0, 2E0,...

Consider a system of 2 particles and 4 non-degenerate energy levels with energies 0, E0, 2E0, 3E0, and 4E0. Taking into account the various ways the particles can fill those energy states, draw schemes of all the possible configurations with total energy E = 4E0 for the following cases: (a) The two particles are distinguishable. (b) The two particles are indistinguishable bosons. (c) The two particles are indistinguishable fermions.