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Few students sitting in their introductory statistics class learn that they are being taught the product of a misguided effort to combine two methods into one. Few students learn that some think the method they are being taught should be banned. Wise Use of Null Hypothesis Tests: A Practitioner's Handbook follows one of the two methods that were combined: the approach championed by Ronald Fisher. Fisher's method is simple, intuitive, and immune to criticism. Wise Use of Null Hypothesis Tests is also a user-friendly handbook meant for practitioners. Rather than overwhelming the reader with endless mathematical operations that are rarely performed by hand, the author of Wise Use of Null Hypothesis Tests emphasizes concepts and reasoning. In Wise Use of Null Hypothesis Tests, the author explains what is accomplished by testing null hypotheses-and what is not. The author explains the misconceptions that concern null hypothesis testing. He explains why confidence intervals show the results of null hypothesis tests, performed backwards. Most importantly, the author explains the Big Secret. Many-some say all-null hypotheses must be false. But authorities tell us we should test false null hypotheses anyway to determine the direction of a difference that we know must be there (a topic unrelated to so-called one-tailed tests). In Wise Use of Null Hypothesis Tests, the author explains how to control how often we get the direction wrong (it is not half of alpha) and commit a Type III (or Type S) error.
Biosensors for Emerging and Re-Emerging Infectious Diseases provides a review of how cornerstone optical, electronic, nanomaterial and data processing technologies can address detection issues occurring in a pandemic event. This book gives insights into the fundamental physical, chemical and biological mechanisms needed for such a type of detection. The content covers potential biomarkers which can be used for the infectious disease diagnostic, helping readers find the appropriate approach for the diagnosis of infectious diseases. It presents a novel approach to transferring the sensing platform from lab to application in clinics and to point of care detection. The book then moves on to discuss the function and efficiency of the biosensing platform in early diagnosis of infectious diseases compared to the standard methods. The required time, the technician skills and the steps which must be performed are other key factors of the biosensing platform which are well explained.
Basic Life Science Methods: A Laboratory Manual for Students and Researchers presents forty of the most executed life science assays. The authors use a consistent structure to cover the preparation, execution and analysis of data from each method. Assays include estimation of cholesterol fractions, C-Reactive Protein, Genomic DNA isolation, Agarose Gel Electrophoresis, RT-PCR, DNA solution preparation, how to design primers, and enzyme-linked immunosorbent assay (ELISA). This book provides a complete reference containing step-by-step instructions on how to run life science assays. Laboratory staff can also benefit of the book as a training resource.
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