Listing 1 - 3 of 3 |
Sort by
|
Choose an application
Hegel's Theory of Intelligibility picks up on recent revisionist readings of Hegel to offer a productive new interpretation of his notoriously difficult work, the Science of Logic. Rocío Zambrana transforms the revisionist tradition by distilling the theory of normativity that Hegel elaborates in the Science of Logic within the context of his signature treatment of negativity, unveiling how both features of his system of thought operate on his theory of intelligibility. Zambrana clarifies crucial features of Hegel's theory of normativity previously thought to be absent from the argument of the Science of Logic-what she calls normative precariousness and normative ambivalence. She shows that Hegel's theory of determinacy views intelligibility as both precarious, the result of practices and institutions that gain and lose authority throughout history, and ambivalent, accommodating opposite meanings and valences even when enjoying normative authority. In this way, Zambrana shows that the Science of Logic provides the philosophical justification for the necessary historicity of intelligibility. Intervening in several recent developments in the study of Kant, Hegel, and German Idealism more broadly, this book provides a productive new understanding of the value of Hegel's systematic ambitions.
Normativity (Ethics) --- Philosophy, German --- Hegel, Georg Wilhelm Friedrich, --- georg wilhelm friedrich hegel, intelligibility, philosophy, philosophical, interpretation, reading, understanding, science of logic, revisionist tradition, normativity, negativity, precarious, precariousness, ambivalence, normative authority, determinacy, justification, idealism, wissenschaft der logik, 19th century, actuality, existence, being, immanuel kant, rational, real.
Choose an application
Partial differential equations (PDEs) have been used in theoretical ecology research for more than eighty years. Nowadays, along with a variety of different mathematical techniques, they remain as an efficient, widely used modelling framework; as a matter of fact, the range of PDE applications has even become broader. This volume presents a collection of case studies where applications range from bacterial systems to population dynamics of human riots.
cross diffusion --- Turing patterns --- non-constant positive solution --- animal movement --- correlated random walk --- movement ecology --- population dynamics --- taxis --- telegrapher’s equation --- invasive species --- linear determinacy --- population growth --- mutation --- spreading speeds --- travelling waves --- optimal control --- partial differential equation --- invasive species in a river --- continuum models --- partial differential equations --- individual based models --- plant populations --- phenotypic plasticity --- vegetation pattern formation --- desertification --- homoclinic snaking --- front instabilities --- Evolutionary dynamics --- G-function --- Quorum Sensing --- Public Goods --- semi-linear parabolic system of equations --- generalist predator --- pattern formation --- Turing instability --- Turing-Hopf bifurcation --- bistability --- regime shift --- carrying capacity --- spatial heterogeneity --- Pearl-Verhulst logistic model --- reaction-diffusion model --- energy constraints --- total realized asymptotic population abundance --- chemostat model --- social dynamics --- wave of protests --- long transients --- ghost attractor --- prey–predator --- diffusion --- nonlocal interaction --- spatiotemporal pattern --- Allen–Cahn model --- Cahn–Hilliard model --- spatial patterns --- spatial fluctuation --- dynamic behaviors --- reaction-diffusion --- spatial ecology --- stage structure --- dispersal
Choose an application
Leaf morphology is obviously determined in a plant. By contrast, its morphology is often changeable when the plant copes with various environmental changes. To update our understanding of the regulatory mechanisms of leaf morphogenesis with robustness and flexibility, this book provides a series of academic papers that cover molecular mechanism of leaf morphogenesis and offers readers' opportunities to find beautiful mechanisms that plants develop.
apical meristems --- Class I KNOX genes --- compound leaves --- determinacy --- Dryopteridaceae --- ferns --- leaf development --- pinna development --- shoot development --- Nepenthes --- carnivorous plants --- UPLC-qToF-MS --- metabolomics --- tissue specificity --- cheminformatics --- CIN-like TCP transcription factors --- regulation --- light --- high temperature --- microRNA319 --- BRAHMA --- TIE1 transcriptional repressors --- TEAR1 E3 ligases --- Leaf angle --- Phytohormones --- crop yield --- BR --- Crosstalk --- Class I KNOX --- Elaphoglossum --- fronds --- leaf diversity --- leaf evolution and development --- megaphyll --- Riccia fluitans --- liverwort --- adaptation --- terrestrialization --- transformation --- sexual induction --- shoot meristem --- embryogenesis --- stem cell --- boundary --- transcription factor --- cytochrome P450 --- CUC --- STM --- LAS --- BLR --- KNAT6 --- KLU --- CYP78A5 --- ASYMMETRIC LEAVES2 --- AS2/LOB domain --- adaxial–abaxial polarity --- ETTIN/AUXIN RESPONSE FACTOR3 (ETT/ARF3) --- AS2 body --- nucleolus --- gene body methylation --- ribosomal DNA (rDNA) --- adaptive significance of insect galls --- gall-inducing insects --- gall formation mechanism --- insect effectors
Listing 1 - 3 of 3 |
Sort by
|