From: owner-ammf-digest@smoe.org (alt.music.moxy-fruvous digest) To: ammf-digest@smoe.org Subject: alt.music.moxy-fruvous digest V14 #16320 Reply-To: ammf@fruvous.com Sender: owner-ammf-digest@smoe.org Errors-To: owner-ammf-digest@smoe.org Precedence: bulk alt.music.moxy-fruvous digest Sunday, July 6 2025 Volume 14 : Number 16320 Today's Subjects: ----------------- M.D. Discovers "fountain of youth" in a bottle (get the story here) ["Mar] Transform your body with this amazing Costa Rican tea ["210Lbs to 149 In ] Detox massage erases pain in 20-seconds ["Flush Out Toxins" Subject: M.D. Discovers "fountain of youth" in a bottle (get the story here) M.D. Discovers "fountain of youth" in a bottle (get the story here) http://perkssecrets.sa.com/YwgjQ5ceCvBylgIl-hGZEaiOojWAMSvKlEws83yKBDrZ2uqO1g http://perkssecrets.sa.com/DqRJgtEuQnuZYASllhwIadxjGSY6C-U5oJqFWjPyFwAd_Mh5zg ake a generous provision for his favourite son's education and, in 1841, installed him, with extensive letters of introduction and ample accommodation, at Peterhouse, Cambridge. While at Cambridge, Thomson was active in sports, athletics and sculling, winning the Colquhoun Sculls in 1843. He took a lively interest in the classics, music, and literature; but the real love of his intellectual life was the pursuit of science. The study of mathematics, physics, and in particular, of electricity, had captivated his imagination. In 1845 Thomson graduated as second wrangler. He also won the first Smith's Prize, which, unlike the tripos, is a test of original research. Robert Leslie Ellis, one of the examiners, is said to have declared to another examiner "You and I are just about fit to mend his pens." In 1845, he gave the first mathematical development of Michael Faraday's idea that electric induction takes place through an intervening medium, or "dielectric", and not by some incomprehensible "action at a distance". He also devised the mathematical technique of electrical images, which became a powerful agent in solving problems of electrostatics, the science which deals with the forces between electrically charged bodies at rest. It was partly in response to his encouragement that Faraday undertook the research in September 1845 that led to the discovery of the Faraday effect, which established that light and magnetic (and thus electric) phenomena were related. He was elected a fellow of St. Peter's (as Peterhouse was often called at the time) in June 1845. On gaining the fellowship, he spent some time in the laboratory of the celeb ------------------------------ Date: Sat, 5 Jul 2025 10:46:39 -0500 From: "210Lbs to 149 In 3 Months" <210Lbsto149In3Months@lipozem.ru.com> Subject: Transform your body with this amazing Costa Rican tea Transform your body with this amazing Costa Rican tea http://lipozem.ru.com/o1tQtob79GSMFvyILx9WZo61mIX9WkKYkxHdhpWRj-iWlCQn http://lipozem.ru.com/5-Wls5_C8ybPvPoxn2J_qdLf-0lKmKpRtFgGb7SGByIWAUky rsion of heat (or caloric) into mechanical effect is probably impossible, certainly undiscovered bBut a footnote signalled his first doubts about the caloric theory, referring to Joule's very remarkable discoveries. Surprisingly, Thomson did not send Joule a copy of his paper, but when Joule eventually read it he wrote to Thomson on 6 October, claiming that his studies had demonstrated conversion of heat into work but that he was planning further experiments. Thomson replied on 27 October, revealing that he was planning his own experiments and hoping for a reconciliation of their two sides. Thomson returned to critique Carnot's original publication and read his analysis to the Royal Society of Edinburgh in January 1849, still convinced that the theory was fundamentally sound. However, though Thomson conducted no new experiments, over the next two years he became increasingly dissatisfied with Carnot's theory and convinced of Joule's. In February 1851 he sat down to articulate his new thinking. He was uncertain of how to frame his theory, and the paper went through several drafts before he settled on an attempt to reconcile Carnot and Joule. During his rewriting, he seems to have considered ideas that would subsequently give rise to the second law of thermodynamics. In Carnot's theory, lost heat was absolutely lost, but Thomson contended that it was "lost to man irrecoverably; but not lost in the material world". Moreover, his theological belie ------------------------------ Date: Sat, 5 Jul 2025 13:49:41 -0500 From: "Flush Out Toxins" Subject: Detox massage erases pain in 20-seconds Detox massage erases pain in 20-seconds http://revaslims.ru.com/jyiRb79V1ecl_MsHx8euS_6b2ro-WubvYVx43V-PGPKWfl1b http://revaslims.ru.com/P-CPN8Ak3lZsktddpB1H0cD23S7SnG2wOQakYj-d3C1aFAjn ed a reputation as a precocious and maverick scientist when he attended the British Association for the Advancement of Science annual meeting in Oxford. At that meeting, he heard James Prescott Joule making yet another of his, so far, ineffective attempts to discredit the caloric theory of heat and the theory of the heat engine built upon it by Sadi Carnot and C mile Clapeyron. Joule argued for the mutual convertibility of heat and mechanical work and for their mechanical equivalence. Thomson was intrigued but sceptical. Though he felt that Joule's results demanded theoretical explanation, he retreated into an even deeper commitment to the CarnotbClapeyron school. He predicted that the melting point of ice must fall with pressure, otherwise its expansion on freezing could be exploited in a perpetuum mobile. Experimental confirmation in his laboratory did much to bolster his beliefs. In 1848, he extended the CarnotbClapeyron theory further through his dissatisfaction that the gas thermometer provided only an operational definition of temperature. He proposed an absolute temperature scale in which "a unit of heat descending from a body A at the temperature TB0 of this scale, to a body B at the temperature (T?1)B0, would give out the same mechanical effect , whatev ------------------------------ Date: Sat, 5 Jul 2025 17:16:45 +0200 From: "Varicose Veins Fix" Subject: THIS Eliminates Varicose Veins For Good THIS Eliminates Varicose Veins For Good http://perkssecrets.sa.com/lPNPzUsqLXCuECbkihDOybL9Hzzq4fCwLFaLHh5eUG5_ZNBsXA http://perkssecrets.sa.com/cVS-sYZJ-HMW3wEWHx5TAw0x3fkm02OCLVl3N1geR91fq3ceFg mson supports the theory that heat was a form of motion but admits that he had been influenced only by the thought of Sir Humphry Davy and the experiments of Joule and Julius Robert von Mayer, maintaining that experimental demonstration of the conversion of heat into work was still outstanding. As soon as Joule read the paper he wrote to Thomson with his comments and questions. Thus began a fruitful, though largely epistolary, collaboration between the two men, Joule conducting experiments, Thomson analysing the results and suggesting further experiments. The collaboration lasted from 1852 to 1856, its discoveries including the JoulebThomson effect, sometimes called the KelvinbJoule effect, and the published results did much to bring about general acceptance of Joule's work and the kinetic theory. Thomson published more than 650 scientific papers and applied for 70 patents (not all were issued). Regarding science, Thomson wrote the following: In physical science a first essential step in the direction of learning any subject is to find principles of numerical reckoning and practicable methods for measuring some quality connected with it. I often say that when you can measure what you are speaking about and express it in numbers you know something about it; but when you cannot measure it, when you cannot express it in numbers, your knowledge is of a meagre and unsatisfactory kind: it may be the beginning of knowledge, but you have scarcely, in your thoughts, advanced to the stage of science, whatever the ma ------------------------------ Date: Sat, 5 Jul 2025 21:50:48 +0200 From: "The Lost Generator" Subject: Discover How to Slash Your Power Bills Discover How to Slash Your Power Bills http://biocalsupport.click/dNNb4-N12frKlMt6_FJcUwytSMoKTxaIoUXTNAb8CctA8B3iEw http://biocalsupport.click/sAymqDX7Mu58tcMq42HFXPMaW7Vgqy4fq7Qyil2iGc3DWWEW3g ruction of a cable would limit the rate at which messages could be sent - in modern terms, the bandwidth. Thomson jumped at the problem and published his response that month. He expressed his results in terms of the data rate that could be achieved and the economic consequences in terms of the potential revenue of the transatlantic undertaking. In a further 1855 analysis, Thomson stressed the impact that the design of the cable would have on its profitability. Thomson contended that the signalling speed through a given cable was inversely proportional to the square of the length of the cable. Thomson's results were disputed at a meeting of the British Association in 1856 by Wildman Whitehouse, the electrician of the Atlantic Telegraph Company. Whitehouse had possibly misinterpreted the results of his own experiments but was doubtless feeling financial pressure as plans for the cable were already well under way. He believed that Thomson's calculations implied that the cable must be "abandoned as being practically and commercially impossible". Thomson attacked Whitehouse's conte ------------------------------ End of alt.music.moxy-fruvous digest V14 #16320 ***********************************************