Problems 211i. Finally, show the conservation∑N
i=1Fi= 0 isnotobeyed by eqns. (4.10.7)
and, therefore, that they also generate a correct canonical distribution in
allvariables.4.4. Consider a modified version of the Nos ́e–Hoover equations fora harmonic
oscillator with unit mass, unit frequency, andkT= 1:
x ̇=p−pηx, p ̇=−x−pηp η ̇=pη, p ̇η=p^2 +x^2 − 2.a. Show that these equations have the two conservation laws:C=
1
2
(
p^2 +x^2 +p^2 η)
+ 2ηK=1
2
(
p^2 +x^2)
e^2 η.b. Determine the distributionf(H) of the physical HamiltonianH(x,p) =
(p^2 +x^2 )/2. Is the distribution the expected canonical distributionf(H)∝
exp(−H)?Hint: Try using the two conservation laws to eliminate the variablesη
andpη.∗c. Show that a plot of the physical phase spacepvs.xnecessarily must have
a hole centered at (x,p) = (0,0), and find a condition that determines
the size of the hole.4.5. Suppose the interactions in anN-particle system are described by a pair
potential of the form
U(r 1 ,...,rN) =∑N
i=1∑N
j>iu(|ri−rj|).In the low density limit, we can assume that each particle interacts withat
mostone other particle.a. Show that the canonical partition function in this limit can be expressed
asQ(N,V,T) =(N−1)!!VN/^2
N!λ^3 N[
4 π∫∞
0dr r^2 e−βu(r)]N/ 2
.
b. Show that the radial distribution function is proportional to exp[−βu(r)]
in this limit.