Please answer the multiple choice question below: The diagram below shows a one-
ID: 3692803 • Letter: P
Question
Please answer the multiple choice question below:
The diagram below shows a one-dimensional row of 5 microscopic objects each of mass 4 x 10^-26 kg, connected by forces that can be modeled by springs of stiffness 22 N/m (so each object can be modeled as if it were connected to a single spring of effective stiffness 4k_s = 88 N/m - neglect any possible differences for objects near the ends). These 5 objects can move only along the x axis. Use these precise values for the constants: h = 1.0546 x 10^-34 J middot s (Planck's constant divided by 2 pi) k_B = 1.3807 x 10^-23 J/K (the Boltzmann constant) In order for WebAssign to be able to give you meaningful feedback, you must give 5 figures in your calculations of S. Otherwise there is a build-up of round-off errors when you take differences, which could result in correct answers being marked wrong. What is one quantum of energy for one of these objects? Using the Einstein model, calculate the entropy of this system for total energy of 0, 1, 2, 3, 4, and 5 quanta. Calculate to the nearest degree the average absolute temperature of the system when the total energy is in the range from 3 to 4 quanta. (You can think of this as the temperature when there would be 3.5 quanta of energy in the system, if that were possible.) Calculate to the nearest degree the average absolute temperature of the system when the total energy is in the range from 4 to 5 quanta. (You can think of this as the temperature when there would be 4.5 quanta of energy in the system, if that were possible.) Calculate the heat capacity per object when the total energy is 4 quanta. (Think of this in terms of increasing from 3.5 quanta of energy in the system to 4.5 quanta of energy in the system, if that were possible.) If the temperature were raised very high, classically what would we expect the heat capacity per object to be for this one-dimensional system? Give a numerical value. (One reason for the discrepancy is that the high-temperature limit assumes that the number of oscillators is large (N >> 1), which is not the case in this tiny system.)Explanation / Answer
Rain and thunder must have an asssociation rule in this database with support atleast 0.45 and confidence at least 0.75......................