Elements of logical reasoning /Material type: TextPublisher: Cambridge ; Cambridge University Press, 2013Edition: 1st edDescription: ix, 264 pages : illustrations ; 25 cmContent type: text Media type: unmediated Carrier type: volumeISBN: 9781107036598 (hardback); 9781107610774 (paperback)Subject(s): Logic, Symbolic and mathematical | Reasoning | MATHEMATICS / LogicDDC classification: 511.3 LOC classification: QA9 | .V66 2013Other classification: MAT018000
|Item type||Current library||Call number||Status||Date due||Barcode|
|Books||Centeral Library Second Floor - Engineering & Architecture||511.3 V.J.E 2013 (Browse shelf (Opens below))||Available||23801|
Browsing Centeral Library shelves, Shelving location: Second Floor - Engineering & Architecture Close shelf browser (Hides shelf browser)
|511.3 S.M.I 2013 Introduction to the theory of computation /||511.3 S.M.I 2013 Introduction to the theory of computation /||511.3 S.M.I 2013 Introduction to the theory of computation /||511.3 V.J.E 2013 Elements of logical reasoning /||511.36 L.S.A 2014 Analysis With an Introduction to Proof /||511.8 H.M.M 2001 Mathematics for economics /||511.8 M.M.M 2013 Mathematical modeling /|
Includes bibliographical references (pages 256-260) and indexes.
Machine generated contents note: Part I. First Steps in Logical Reasoning: 1. Starting points; 2. Rules of proof; 3. Natural deduction; 4. Proof search; 5. Classical natural deduction; 6. Proof search in classical logic; 7. The semantics of propositional logic; Part II. Logical Reasoning with the Quantifiers: 8. The quantifiers; 9. Derivations in predicate logic; 10. The semantics of predicate logic; Part III. Beyond Pure Logic: 11. Equality and axiomatic theories; 12. Elements of the proof theory of arithmetic; Part IV. Complementary Topics: 13. Normalization and cut elimination; 14. Deductive machinery from Aristotle to Heyting.
"Some of our earliest experiences of the conclusive force of an argument come from school mathematics: faced with a mathematical proof, we cannot deny the conclusion once the premisses have been accepted. Behind such arguments lies a more general pattern of 'demonstrative arguments' that is studied in the science of logic. Logical reasoning is applied at all levels, from everyday life to advanced sciences, and a remarkable level of complexity is achieved in everyday logical reasoning, even if the principles behind it remain intuitive. Jan von Plato provides an accessible but rigorous introduction to an important aspect of contemporary logic: its deductive machinery. He shows that when the forms of logical reasoning are analysed, it turns out that a limited set of first principles can represent any logical argument. His book will be valuable for students of logic, mathematics, and computer science"--