Q16. A statistical system is composed of two ultra-relativistic particles moving in a segment of Length L. The Hamiltonian of the system is given by, H(p,, P.)=c(\p+|p.l) where, P1 and P, are the momenta of the particles and c is the speed of light in vaccum. The volume of phase space enclosed by the surface of constant energy E is given by 2E L ( a) Σ(Ε.L) = (b) E(E.L)= 2EL (c) (E,L)= (d) (E,L)=2E°L %3D
Q16. A statistical system is composed of two ultra-relativistic particles moving in a segment of Length L. The Hamiltonian of the system is given by, H(p,, P.)=c(\p+|p.l) where, P1 and P, are the momenta of the particles and c is the speed of light in vaccum. The volume of phase space enclosed by the surface of constant energy E is given by 2E L ( a) Σ(Ε.L) = (b) E(E.L)= 2EL (c) (E,L)= (d) (E,L)=2E°L %3D
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Transcribed Image Text:Q16. A statistical system is composed of two ultra-relativistic particles moving in a segment of
Length L. The Hamiltonian of the system is given by,
H(p,,P:)=c(\p|+\p.)
%3D
where, p, and p, are the momenta of the particles and c is the speed of light in vaccum.
The volume of phase space enclosed by the surface of constant energy E is given by
2E L
E L
(a) E(E,L)=:
c2
(b) E(E.L)=
2EL
(c) (E,L)=
(d) (E,L)=2E°L
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