An introduction to the study of syntax that also introduces students to the principles of scientific theorizing. This introductory text takes a novel approach to the study of syntax. Grammar as Science offers an introduction to syntax as an exercise in scientific theory construction. Syntax provides an excellent instrument for introducing students from a wide variety of backgrounds to the principles of scientific theorizing and scientific thought; it engages general intellectual themes present in all scientific theorizing as well as those arising specifically within the modern cognitive sciences. The book is intended for students majoring in linguistics as well as non-linguistics majors who are taking the course to fulfill undergraduate requirements. Grammar as Science covers such core topics in syntax as phrase structure, constituency, the lexicon, inaudible elements, movement rules, and transformational constraints, while emphasizing scientific reasoning skills. The individual units are organized thematically into sections that highlight important components of this enterprise, including choosing between theories, constructing explicit arguments for hypotheses, and the conflicting demands that push us toward expanding our technical toolkit on the one hand and constraining it on the other. Grammar as Science is constructed as a “laboratory science” course in which students actively experiment with linguistic data. Syntactica, a software application tool that allows students to create and explore simple grammars in a graphical, interactive way, is available online in conjunction with the book. Students are encouraged to “try the rules out,” and build grammars rule-by-rule, checking the consequences at each stage.
This volume collects together core papers by Richard K. Larson developing what has since come to be known as the "VP Shell" or "Split VP" analysis of sentential structure. The volume includes five previously published papers together with two major unpublished works from the same period: "Light Predicate Raising" (1989), which explores the interesting consequences of a leftward raising analysis of "NP Shift" phenomena, and "The Projection of DP (and DegP)" (1991), which extends the shell approach to the projection of nominal and adjectival structure, showing how projection can be handled in a uniform way. In addition to published, unpublished and limited distribution work, the volume includes extensive new introductory material. The general introduction traces the conceptual roots of VP Shells and its problems in the face of subsequent developments in theory, and offers an updated form compatible with modern Minimalist syntactic analysis. The section introductions to the material on datives, complex predicates and nominals show how the updated form of shell theory applies in the empirical domains where it was originally developed.
An introductory linguistics textbook that takes a novel approach: studying linguistic semantics as an exercise in scientific theory construction. This introductory linguistics text takes a novel approach, one that offers educational value to both linguistics majors and nonmajors. Aiming to help students not only grasp the fundamentals of the subject but also engage with broad intellectual issues and develop general intellectual skills, Semantics as Science studies linguistic semantics as an exercise in scientific theory construction. Semantics offers an excellent medium through which to acquaint students with the notion of a formal, axiomatic system—that is, a system that derives results from a precisely articulated set of assumptions according to a precisely articulated set of rules. The book develops semantic theory through the device of axiomatic T-theories, first proposed by Alfred Tarski more than eighty years ago, introducing technical elaboration only when required. It adopts Japanese as its core object of study, allowing students to explore and investigate the real empirical issues arising in the context of non-English structures, a non-English lexicon and non-English meanings. The book is structured as a laboratory science text that poses specific empirical questions, with 25 short units, each of which can be covered in one class session. The layout is engagingly visual, designed to help students understand and retain the material, with lively illustrations, examples, and quotations from famous scholars.
Current textbooks in formal semantics are all versions of, or introductions to, the same paradigm in semantic theory: Montague Grammar. Knowledge of Meaning is based on different assumptions and a different history. It provides the only introduction to truth- theoretic semantics for natural languages, fully integrating semantic theory into the modern Chomskyan program in linguistic theory and connecting linguistic semantics to research elsewhere in cognitive psychology and philosophy. As such, it better fits into a modern graduate or undergraduate program in linguistics, cognitive science, or philosophy. Furthermore, since the technical tools it employs are much simpler to teach and to master, Knowledge of Meaning can be taught by someone who is not primarily a semanticist. Linguistic semantics cannot be studied as a stand-alone subject but only as part of cognitive psychology, the authors assert. It is the study of a particular human cognitive competence governing the meanings of words and phrases. Larson and Segal argue that speakers have unconscious knowledge of the semantic rules of their language, and they present concrete, empirically motivated proposals about a formal theory of this competence based on the work of Alfred Tarski and Donald Davidson. The theory is extended to a wide range of constructions occurring in natural language, including predicates, proper nouns, pronouns and demonstratives, quantifiers, definite descriptions, anaphoric expressions, clausal complements, and adverbs. Knowledge of Meaning gives equal weight to philosophical, empirical, and formal discussions. It addresses not only the empirical issues of linguistic semantics but also its fundamental conceptual questions, including the relation of truth to meaning and the methodology of semantic theorizing. Numerous exercises are included in the book.
Software application tool design for undergraduate students to study natural language structure. Provides interface for creating grammars, viewing the structures that they assign to natural language expressions, and for transforming those structures by syntactic operations.
This volume collects together core papers by Richard K. Larson developing what has since come to be known as the "VP Shell" or "Split VP" analysis of sentential structure. The volume includes five previously published papers together with two major unpublished works from the same period: "Light Predicate Raising" (1989), which explores the interesting consequences of a leftward raising analysis of "NP Shift" phenomena, and "The Projection of DP (and DegP)" (1991), which extends the shell approach to the projection of nominal and adjectival structure, showing how projection can be handled in a uniform way. In addition to published, unpublished and limited distribution work, the volume includes extensive new introductory material. The general introduction traces the conceptual roots of VP Shells and its problems in the face of subsequent developments in theory, and offers an updated form compatible with modern Minimalist syntactic analysis. The section introductions to the material on datives, complex predicates and nominals show how the updated form of shell theory applies in the empirical domains where it was originally developed.
Semanticais the manual for a new software application that allows the user to explore the semantic structure of language in an engaging, interactive way. The program, which was produced as part of a National Science Foundation initiative for improving linguistics instruction, is designed to be used with Syntactica, a tool for studying natural language syntax. Semanticaprovides a simple graphical interface for creating semantic theories, viewing the truth conditions that those theories assign to phrase-markers created in Syntactica, and for testing those truth conditions in a pictorially represented world. Although designed for use in introductory semantics courses, Semanticahas features that will appeal to professionals. For example, it can be used as a "derivation calculator" in following out complex semantic derivations involving many steps and operations. Manual plus NeXTStep software for PCs and NeXTStations running NeXTStep version 3.2 or higher.
Principles of Neurosurgery, by Drs. Richard G. Ellenbogen, Saleem I. Abdulrauf and Laligam N Sekhar, provides a broad overview of neurosurgery ideal for anyone considering or training in this specialty. From general principles to specific techniques, it equips you with the perspectives and skills you need to succeed. Comprehensive without being encyclopedic, this new edition familiarizes you with the latest advances in the field—neuroimaging, the medical and surgical treatment of epilepsy, minimally invasive techniques, and new techniques in position and incisions—and shows you how to perform key procedures via an online library of surgical videos at www.expertconsult.com. No other source does such an effective job of preparing you for this challenging field! Get comprehensive coverage of neurosurgery, including pre- and post- operative patient care, neuroradiology, pediatric neurosurgery, neurovascular surgery, trauma surgery, spine surgery, oncology, pituitary adenomas, cranial base neurosurgery, image-guided neurosurgery, treatment of pain, epilepsy surgery, and much more. Gain a clear visual understanding from over 1,200 outstanding illustrations—half in full color—including many superb clinical and operative photographs, surgical line drawings, and at-a-glance tables. Apply best practices in neuroimaging techniques, minimally invasive surgery, epilepsy surgery, and pediatric neurosurgery. Master key procedures by watching experts perform them in a video library online at www.expertconsult.com, where you can also access the fully searchable text, an image gallery, and links to PubMed. Keep up with recent advances in neurosurgery with fully revised content covering neuroimaging, the medical and surgical treatment of epilepsy, minimally invasive techniques, new techniques in position and incisions, deep brain stimulation, cerebral revascularization, and treatment strategies for traumatic brain injury in soldiers. Apply the latest guidance from new chapters on Cerebral Revascularization, Principles of Modern Neuroimaging, Principles of Operative Positioning, Pediatric Stroke and Moya-Moya, Anomalies of Craniovertebral Junction, and Degenerative Spine Disease. Tap into truly global perspectives with an international team of contributors led by Drs. Richard G. Ellenbogen and Saleem I. Abdulrauf. Find information quickly and easily thanks to a full-color layout and numerous detailed illustrations.
An introductory linguistics textbook that takes a novel approach: studying linguistic semantics as an exercise in scientific theory construction. This introductory linguistics text takes a novel approach, one that offers educational value to both linguistics majors and nonmajors. Aiming to help students not only grasp the fundamentals of the subject but also engage with broad intellectual issues and develop general intellectual skills, Semantics as Science studies linguistic semantics as an exercise in scientific theory construction. Semantics offers an excellent medium through which to acquaint students with the notion of a formal, axiomatic system—that is, a system that derives results from a precisely articulated set of assumptions according to a precisely articulated set of rules. The book develops semantic theory through the device of axiomatic T-theories, first proposed by Alfred Tarski more than eighty years ago, introducing technical elaboration only when required. It adopts Japanese as its core object of study, allowing students to explore and investigate the real empirical issues arising in the context of non-English structures, a non-English lexicon and non-English meanings. The book is structured as a laboratory science text that poses specific empirical questions, with 25 short units, each of which can be covered in one class session. The layout is engagingly visual, designed to help students understand and retain the material, with lively illustrations, examples, and quotations from famous scholars.
An introduction to the study of syntax that also introduces students to the principles of scientific theorizing. This introductory text takes a novel approach to the study of syntax. Grammar as Science offers an introduction to syntax as an exercise in scientific theory construction. Syntax provides an excellent instrument for introducing students from a wide variety of backgrounds to the principles of scientific theorizing and scientific thought; it engages general intellectual themes present in all scientific theorizing as well as those arising specifically within the modern cognitive sciences. The book is intended for students majoring in linguistics as well as non-linguistics majors who are taking the course to fulfill undergraduate requirements. Grammar as Science covers such core topics in syntax as phrase structure, constituency, the lexicon, inaudible elements, movement rules, and transformational constraints, while emphasizing scientific reasoning skills. The individual units are organized thematically into sections that highlight important components of this enterprise, including choosing between theories, constructing explicit arguments for hypotheses, and the conflicting demands that push us toward expanding our technical toolkit on the one hand and constraining it on the other. Grammar as Science is constructed as a “laboratory science” course in which students actively experiment with linguistic data. Syntactica, a software application tool that allows students to create and explore simple grammars in a graphical, interactive way, is available online in conjunction with the book. Students are encouraged to “try the rules out,” and build grammars rule-by-rule, checking the consequences at each stage.
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