An Introductory Course of Quantitative Chemical Analysis


Book Description

Delve into the world of quantitative chemical analysis with 'An Introductory Course of Quantitative Chemical Analysis' by Henry Paul Talbot. Designed to meet the needs of students embarking on this subject, the manual provides detailed directions and explanatory notes, enabling students to work independently and successfully. With a focus on volumetric analysis, the book covers a wide range of procedures, from alkalimetry and acidimetry to oxidation processes and precipitation methods. Whether for classroom instruction or self-study, this comprehensive guide is an invaluable resource for students of analytical chemistry.




Introduction to Pharmaceutical Chemical Analysis


Book Description

This textbook is the first to present a systematic introduction to chemical analysis of pharmaceutical raw materials, finished pharmaceutical products, and of drugs in biological fluids, which are carried out in pharmaceutical laboratories worldwide. In addition, this textbook teaches the fundamentals of all the major analytical techniques used in the pharmaceutical laboratory, and teaches the international pharmacopoeias and guidelines of importance for the field. It is primarily intended for the pharmacy student, to teach the requirements in “analytical chemistry” for the 5 years pharmacy curriculum, but the textbook is also intended for analytical chemists moving into the field of pharmaceutical analysis. Addresses the basic concepts, then establishes the foundations for the common analytical methods that are currently used in the quantitative and qualitative chemical analysis of pharmaceutical drugs Provides an understanding of common analytical techniques used in all areas of pharmaceutical development Suitable for a foundation course in chemical and pharmaceutical sciences Aimed at undergraduate students of degrees in Pharmaceutical Science/Chemistry Analytical Science/Chemistry, Forensic analysis Includes many illustrative examples




Vogel's Textbook of Quantitative Chemical Analysis


Book Description

This updated book of quantitative inorganic analysis has been extended to incorporate sections of basic theory and modern approaches to sampling as well as the attendant difficulties in obtaining representative samples from bulk materials. The statistics have been restructured to provide a logical stepwise approach and the section covering solvent extraction and chromatographic procedures has been extensively revised. details of Fourier Transform techniques and derivative spectroscopy are included for the first time along with a general up-date on instrument design. A full revision has been made of the appendices and other tables have been extended to include more organic compounds and additional appendices include correlation tables for infrared, absorption characteristics for ultraviolet/visible and additional statistical tables along with essential atomic weights. chemistry is a substantial laboratory requirement, as well as for technicians and practising analysts.




A History of the Work Concept


Book Description

This book traces the history of the concept of work from its earliest stages and shows that its further formalization leads to equilibrium principle and to the principle of virtual works, and so pointing the way ahead for future research and applications. The idea that something remains constant in a machine operation is very old and has been expressed by many mathematicians and philosophers such as, for instance, Aristotle. Thus, a concept of energy developed. Another important idea in machine operation is Archimedes' lever principle. In modern times the concept of work is analyzed in the context of applied mechanics mainly in Lazare Carnot mechanics and the mechanics of the new generation of polytechnical engineers like Navier, Coriolis and Poncelet. In this context the word "work" is finally adopted. These engineers are also responsible for the incorporation of the concept of work into the discipline of economics when they endeavoured to combine the study of the work of machines and men together.