SSM WWW A box contains N gas molecules, Consider the box to be divided into three equal parts (a) By extension of Eq. 20-20, write a formula for the multiplicity of any given configuration, (b) Consider two configurations: configuration A with equal number of molecules in all three thirds of the box, and configuration B with equal numbers of molecules in each half of the box divided into two equal parts rather then three. What is the ratio W A /W B of the multiplicity of configuration A to that of configuration B ? (c) Evaluate W A /W B for N = 100. (Because 100 is not evenly divisible by 3, put 34 molecules into one of the three box parts of configuration A and 33 in each of the other two parts.)
SSM WWW A box contains N gas molecules, Consider the box to be divided into three equal parts (a) By extension of Eq. 20-20, write a formula for the multiplicity of any given configuration, (b) Consider two configurations: configuration A with equal number of molecules in all three thirds of the box, and configuration B with equal numbers of molecules in each half of the box divided into two equal parts rather then three. What is the ratio W A /W B of the multiplicity of configuration A to that of configuration B ? (c) Evaluate W A /W B for N = 100. (Because 100 is not evenly divisible by 3, put 34 molecules into one of the three box parts of configuration A and 33 in each of the other two parts.)
SSM WWW A box contains N gas molecules, Consider the box to be divided into three equal parts (a) By extension of Eq. 20-20, write a formula for the multiplicity of any given configuration, (b) Consider two configurations: configuration A with equal number of molecules in all three thirds of the box, and configuration B with equal numbers of molecules in each half of the box divided into two equal parts rather then three. What is the ratio WA/WB of the multiplicity of configuration A to that of configuration B? (c) Evaluate WA/WB for N = 100. (Because 100 is not evenly divisible by 3, put 34 molecules into one of the three box parts of configuration A and 33 in each of the other two parts.)
a cubic foot of argon at 20 degrees celsius is isentropically compressed from 1 atm to 425 KPa. What is the new temperature and density?
Calculate the variance of the calculated accelerations. The free fall height was 1753 mm. The measured release and catch times were:
222.22 800.00
61.11 641.67
0.00 588.89
11.11 588.89
8.33 588.89
11.11 588.89
5.56 586.11
2.78 583.33
Give in the answer window the calculated repeated experiment variance in m/s2.
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.