2-continued equality - abstract and highlights - 251st acs mtg
TRANSCRIPT
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251st ACS National Meeting
March 13-17, 2016, San Diego, CA, USA
Paper ID: 2377147; Paper No.: PHYS560
Studies on the Relationship between Internal Energy and State of Ideal Gas
Haoyun An1,2, [email protected], Xiaowu Yao1, Guosong Yang1, Junqing Hou1, Tiansheng Niu1 1Zhengzhou Granlen PharmaTech, Ltd., Zhengzhou, Henan, China; 2Granlen, Inc., Carlsbad, California, USA
Abstract: Gay Lussac-Joule’s Law established the fundamental base and has played a very
important role for the development of thermodynamics and related basic sciences. Detail experiment
reported herein revealed that the internal energy of ideal gas has interrelationship with each state
function, and the Continued Equality was then established as:
VV
CU pV nC T
R where (
0lim 0T
U
)
The Continued Equality derived through experiment is inclusive of free expansion and the
experimental result obtained by Rossini-Frandsen. Twelve differential equations were obtained
through theoretical derivation from various respects, and the twelve differential equations then
resulted in the same Continued Equality through substitution. The Continued Equality derived
herein experimentally and theoretically defined the interrelationship of internal energy of an ideal
gas system with each state function. It is the new addition to the current thermodynamics and related
basic theories, and the new addition will promote further development of current theories and trigger
broad applications.
Highlights: The Internal Energy of Ideal Gas Has Interrelationship with Each State Function.
The Continued Equality was established as:
VV
CU pV nC T
R where (
0lim 0T
U
)
Derived experimentally and theoretically
Inclusive of free expansion and Rossini-Frandsen experiments as well as all current basic
theories of the ideal gas
Twelve differential equations were obtained through theoretical derivation from various respects
The twelve differential equations then resulted in the same Continued Equality through
substitution, and further defined the interrelationship of internal energy of an ideal gas system
with each state function
The new addition to the current thermodynamics and related basic theories
The breakthrough is expected to promote further development of current theories, trigger broad
applications, and create innovation opportunity