Mendeleyev discovered the periodic table of the elements. This book not only covers about Mendeleyev but also develops our understanding and knowledge of the constitution of matter traced back from ancient Greek and onwards. The four elements principle that is earth, fire, air and water which are crucial constituents of nature are dated back from renaissance humanism to the late middle ages and possibly beyond. Mendeleyev dream outlines a view of the history of chemical compound discoveries. The discoveries are tied to the great philosophers and their view of the four elements. The book consists of many scientists and innovators which had varied history of chemical and mineral compounds. The author of the book provides the readers with biographies of the people especially scientists who helped to shape the idea of periodic table.
The first chapter deals with aspects of Greek natural philosophy concerning the structure of matter. In a concise manner the major ideas concerning the elements of Empedocles, Aristotle, and Plato are discussed.
the second chapter deals with the foundations of alchemy in Alexandria, where the Greek philosophical tradition was blended with Egyptian technology to produce alchemy. Following the decline of Alexandria, alchemy had a rebirth in the new Arab civilization, which spread across the Middle East, North Africa, and parts of Europe. The contributions of the Arab alchemists Jabir, Al-Razzi, and Avicenna are discussed in detail.
The third chapter deals with Europe in the Middle Ages and the emergence of scientific thought and the conflict with the Roman church. The ideas of Roger Bacon are discussed to illustrate this point. The works of the Arab alchemists, having now been translated, were disseminated in Europe; and new discoveries of a practical nature were being made in the context of the age old attempt to find the mythical philosopher’s stone. New laboratory techniques were invented and old ones improved upon by the European alchemists. The discovery of new substances is also found in this chapter
Chapter four reflects the theories, medical practices and mineral compounds developed by Paracelsus. In his era, Europe was experiencing a new historical era characterized by new scientific inventions. He learned the practical and theoretical metallurgy from his father. The theory entails that, metals were refined in the ground and transformed from baser forms into silver and then into gold. On the contrary, he developed another theory in which he believed that studying minerals extensively would discover their properties and then be able to provide care for particular diseases. He had extraordinary knowledge in mineral compound as he was involved in the study of chemical compounds such as zinc and copper salts and compounds of lead and others for treatment purposes. He dedicated most of his time in alchemy and conducted experiments to develop compounds for medicinal purposes. Later in his study, he developed latrochemistry theory which he believed is the solution to disease since it includes treating diseases with appropriate medicine prepared from mineral sources
In chapter five, there are particularly interesting discussions of Nicolas of Cusa (1401-1464), who anticipated in many ways Copernicus and Giordano Bruno, whose radical ideas included the revival of the atomism of Lucretius. Galileo, Descartes, Gilbert, and Francis Bacon receive ample attention for their philosophical perspectives on the methodology of science. The masterpiece produced by Nicholas of Cusa by applying philosophical scientific ideas was scientifically pure. This marked the start of application of a new way of thinking and resolving insoluble problems using coincidentia oppositorium. The scientific revolution in the renaissance relied upon practical experimental work to achieve results and solve scientific mysteries. Bruno demonstrated that iatrochemistry and discoveries in physics are related and can be combined in the most preposterous way.
Chapter six entails a new way of seeing elements. Firstly, Galileo promulgated the elements of science Galileo realized the full potential of the newly invented perpicilium and its commercial probability. His understanding of the new science formed the basis of understanding how things work and the study of matter and the elements. He relied on two models in understanding the four elements which were already discovered. The model included what could be done and how to do it. By this, Galileo presented a new understanding which combined mathematics and physics to justify the comparison and application and the composition of the four elements
The important discoveries of van Helmont concerning the gaseous state and the use of quantitative methods are stressed.. If William Henry Perkin (1838-1907) was responsible for the beginnings of the synthetic organic chemical industry, then, as this book makes clear, it was Heinrich Caro who made it possible for the industry to reach its full potential in the nineteenth century. Carsten Reinhardt and Anthony Travis have not only produced the first complete biography of Caro, but have also addressed questions as to what factors enabled the organic chemical industry to grow and prosper in Germany during Caro’s lifetime. By following the growth of Caro’s employer BASF, they have also given us an insight into what led Germany to become the preeminent chemical manufacturing power in the world. This is a masterfully researched work, based upon a wealth of material deposited at the Deutsches Museum of biochemistry and discusses the experiments that he performed that led to this appellation. Franciscus Sylvius , a pupil of van Helmont, continued his work and saw digestion as a chemical process involving acids and bases. He was able to extend these ideas to a description of the process of neutralization and the origin of salts. Through his experiments Sylvius was leading the way to the distinction between elements and compounds. An interesting anecdote in this chapter, typical of many found in the text, is the origin of the name for the drink gin. As Strathern relates, Sylvius developed a cure for kidney ailments by mixing distilled grain spirit flavored with juniper berries, called in Dutch genever. Although it failed as a cure-all, it became a popular drink and in English was abbreviated to gin.Science was undergoing transitions and the changes and influences were widely felt in the realms of chemistry. Jan baptista von heimont- a physician and a scientist was born in 1977 and termed himself as philosopher by fire as he believed that all knowledge was God’s gift. Durng this period, there were wide distinctions and conflicts between science and religion. Van helmont mentor was Paracelsus. He once claimed that he had found a ‘stone’ which contributed to his transmutation process. In one of his successful experiments, he intercepted biology with chemistry and came up biochemistry. In another experiment, he drew wrong conclusions which in turn led to a major development in science. He linked water movement to air form where he began extensive research on air. He also grasped the alchemist idea on other “airs” and their distinction from water vapors. He burned 62 lb of charcoal which released identical water vapors but distict properties from where he concluded that the charcoal contained 6 I Lb of carbon dioxide gas.
Most scientists rose in the renaissance period. for instance, tachenius felt that acid and alkali were two principles which subsumed all chemical reactions. Acid effervescences with an alkali. Through scientists such as Helmont, Sylvius and Tachenius, chemistry began to transform into distinct science. Torricelli rose after the death of von helmont and invented the first barometer. He also discovered space and through this, gases were same as solids and liquid as they all had weight. Ultimately the these discoveries on science had a large impact on science transformation. For instance the alchemist led to lunacy in chemistry and all elements at large. In this era, newton,
In this chapter, nine elements had already been discovered and three were discovered in the late Middle Ages. In 1961, Boyle defined elements as a substance which could be broken down into a simpler substance. New elements were introduced this included phosphorus (first isolated from the human urine), barium, nickel, molybdenum, chlorine and platinum and hence a great memory in history of chemistry. New discoveries that had not been seen before came into existence due to the extensive research carried out by various scientists for instance; new versions of calculus were introduced by newton. Karle Scheele found out that phosphorous was found in bones, he also found many elements than any other scientists.
In chapter 9, several centuries, the phlogiston mystery had existed since the Greeks time. it was however explained by the use of the four elements but in the 2nd half of the 17th century, a new theory came into existence and came to be accepted by many scientists. Combustion was believed to be due to the phlogiston( a fire- producing substance contained in materials like wood)
New experiments were carried out by chemist Lavoisier who were against the phlogiston theory due to the oxygen discovery. Priestley showed his dephlosticated air. Here, Lavoisier has a greater knowledge in chemistry. he was guillotined in the revolution while Priestley believed in phlogiston.
In this chapter, Dalton- a meteorologist decided to turn his attention to chemistry. he supported Boyle’s notion that gases comprises of particles and in turn he came up with the Dalton law which stated that, when two or more gases are mixed, their combined pressure will be equal to the added pressure. He also discovered atoms used to explain the proust law . Dalton atomic theory stated that all elements comprises of indestructible atoms.. Dalton also discovered hydrogen from water. In 1977 Louis joseph introduced another property of gases. He stated that all compounds comprised of elements in simple definite ratios by weight.The new systematic approach and new experiments led to the discovery of new element such as sodium.
In the final chapter, It became apparent to most chemists that there as an order in the properties of the elements as well as the atomic weights. However, the attempts to introduce a clear pattern failed consecutively. In this final chapter, Strathen explains how Mendeleyev solved puzzles due to his desired dream. The periodic table did not gain acceptance worldwide but Mendeleyev was able to predict of the hitherto unknown elements which were later discovered in correspondence with his impressive accuracy- a clear anticipation of karl popper falsification principle.
In conclusion, the last four chapters are the most disappointing. In a scant 70 pages the author takes up the Chemical Revolution, Dalton and the atomic theory, the work of Berzelius and Davy, as well the early attempts at the periodic classification of the elements. In the last chapter he returns to Mendeleyev in more detail. For the casual reader there is sufficient material to give a flavor of this crucial era in these four chapters. Mendeleyev’s Dream has more detail on the earlier practice of alchemy and about the lives of the people . his is a readable, if slightly tendentious, account of the development of our modern understanding of the nature of matter. Strathern misses out some good stories, such as an apparently convincing demonstration of transmutation witnessed by Helvetius in the seventeenth century, nor does he mention the strange story of the Rosicrucian Manifestos, which are thought to have influenced the thinking of both Boyle and Newton and to have played a part in the origins of the Royal Society. But the book provides an adequate overview of its subject and the characters and backgrounds of the principal figures in the story are well described.