TY - THES
A1 - Vanslette, Kevin M
A2 - Iannacchione, Germano S.
AB - This paper examines the statistical mechanical and thermodynamical consequences of variable phase-space volume element $h_I=igtriangleup x_iigtriangleup p_i$. Varying $h_I$ leads to variations in the amount of measured entropy of a system but the maximum entropy remains constant due to the uncertainty principle. By taking $h_u
ightarrow 0^+$ an infinite unobservable entropy is attained leading to an infinite unobservable energy per particle and an unobservable chemical equilibrium between all particles. The amount of heat fluxing though measurement apparatus is formulated as a function of $h_I$ for systems in steady state equilibrium as well as the number of measured particles or sub-particles so any system can be described as unitary or composite in number. Some example systems are given using variable $h_I$.
DA - 2013/04/25
DB - Digital WPI
DP - Worcester Polytechnic Institute
ID - etd-042513-082446
KW - Measurement
KW - Uncertainty
KW - Infinite
KW - Information
KW - Heat
KW - Entropy
L1 - https://digital.wpi.edu/show/dj52w4866
LA - English
LK - https://digital.wpi.edu/
PB - Worcester Polytechnic Institute
PY - 2013
T1 - Theoretical Study of Variable Measurement Uncertainty h_I and Infinite Unobservable Entropy
UR - https://digital.wpi.edu/show/g158bh43s
ER -