(London, Richard Taylor and William Francis, 1852). 4to. No wrappers as extracted from ""Philosophical Transactions"" 1852 - Part I. Pp. 65-82. (Thomson pp. 78-82). a. 1 engraved plate. The plate with a dampstain., otherwise clean and fine.
First appearance of an importent paper in which both Joule and Lord Kelvin publish some thermo-dynamical results in connection with heat developed by air and mechanical work as further proofs of the conservation of energy.Joule is well known for his discovery of Joule's Law, the connection between heat and mechanical work, where heat is a form of energy. ""In December of 1840 he presented a paper to the Royal Society on the production of heat by the electric current. His course of thought led him to the consideration of the relatio between heat and and mechanical work. The results of his investigations were embodied in a series of papers which culminated in his great memoir on the mechanical equivalent of heat, published in 1850. Joule was one of the founders of the principle of the cosservation of energy. Some of his work was done in collaboration with Lord Kelvin.""(Source Book in Physics p. 203).
(London, Taylor and Francis, 1863). 4to. No wrappers as extracted from ""Philosophical Transactions"" 1862 - Vol. 152 - Part II. Pp. 579-589 and 1 lithographed plate. The plate somewhat soiled and with a dampstain.Otherwise clean and fine.
First appearance of this joint paper in which further thermodynamical connections are published.Joule is well known for his discovery of Joule's Law, the connection between heat and mechanical work, where heat is a form of energy. ""In December of 1840 he presented a paper to the Royal Society on the production of heat by the electric current. His course of thought led him to the consideration of the relatio between heat and and mechanical work. The results of his investigations were embodied in a series of papers which culminated in his great memoir on the mechanical equivalent of heat, published in 1850. Joule was one of the founders of the principle of the cosservation of energy. Some of his work was done in collaboration with Lord Kelvin.""(Source Book in Physics p. 203).
"THOMSON, WILLIAM (LORD KELVIN) & JAMES PRESCOTT JOULE. - THE JOULE-THOMSON EFFECT DISCOVERED.
Reference : 42715
(1853)
(London, Richard Taylor and William Francis, 1853) 4to. No wrappers as extracted from ""Philosophical Transactions"" 1853, Vol. 143 - Part III. Pp. 357-365. Textillustrations. Clean and fine.
First appearance of this highly importent paper in the development of thermodynamics, describing the experiments leading to the discovery of the cooling effect when a gas is allowed to expand freely. This is the founding theory, later used in refrigeration.""The only substantial contribution to thermodynamics to which the joint names of Joule and Thomson are attached belongs to an idea conceived by Thomson, who saw the possibility of analyzing the deviations of gas properties from the ideal behavior. In particular a non-ideal gas, made to expand slowly through a porous plug so as to approximate a specified mathematical condition - constant enthalpy), would in general undergo cooling (essentially a transformation of atomic motion into work spent against the interatomic attractions)....But the appliocation of the Joule-Thomson effect to technology of refrigeration belongs to a later stage in the development of thermodynamics.""(DSB VII, p. 182).The Joule-Thomson effect or Joule-Kelvin effect describes the increase or decrease in the temperature of a real gas (as differentiated from an ideal gas) or a liquid when allowed to expand freely through a valve or other throttling device while kept insulated so that no heat is transferred to or from the fluid, and no external mechanical work is extracted from the fluid. The Joule-Thomson effect is an isenthalpic process, meaning that the enthalpy of the fluid is constant (i.e., does not change) during the process. It is named for James Prescott Joule and William Thomson, 1st Baron Kelvin who established the effect in 1852, following earlier work by Joule on Joule expansion in which a gas expands at constant internal energy. The Joule-Thomson effect is sometimes referred to as the Joule-Kelvin effect. Engineers often refer to it as simply the J-T effect.