A defence of Hart's semantics as nonambitious conceptual analysis

Two methodological claims in Hart's The Concept of Law have produced perplexity: that it is a book on “analytic jurisprudence” 1 and that it may also be regarded as an essay in “descriptive sociology.” 2 Are these two ideas reconcilable? We know that mere analysis of our legal concepts cannot tell us much about their properties, that is, about the empirical aspect of law. We have learned this from philosophical criticisms of conceptual analysis; yet Hart informs us that analytic jurisprudence can be reconciled with descriptive sociology. The answer to this puzzle lies in the notion of nonambitious conceptual analysis. The theorist analyzes concepts but accepts the limitations of conceptual analysis and therefore uses empirical knowledge and substantive arguments to explain, refine, or perhaps refute initial insights provided by intuitions. This is the conclusion that this paper arrives at as an argumentative strategy to defend Hart's legal theory from the criticisms of Stavropoulos and Dworkin. The latter argues that Hart's legal theory cannot explain theoretical disagreements in law because he relies on a shared criterial semantics. Stavropoulos aims to show that Hart's semantics is committed to ambitious conceptual analysis and relies on the usage of our words as a standard of correctness. Both attacks aim to show that the semantic sting stings Hart's legal theory. This essay refines both challenges and concludes that not even in the light of the most charitable interpretation of these criticisms is Hart's legal theory stung by the semantic sting. This study defends the view that Hart's methodological claims were modest and that he was aware of the limits of conceptual analysis as a philosophical method. He was, this study claims, far ahead of his time. 1 H.L.A Hart, THE CONCEPT OF LAW (1994). 2 Id

Truth, Justice, and the American Way: A Case Study of Comic Books through the Lens of Society

From the early 20th century classics such as Wonder Woman and Captain Marvel to today’s blockbuster franchises capitalizing on big name superheroes like the Avengers or Batman, comic books, and more specifically, their superheroes have undoubtedly reflected the way American society functions at home and on the global scale. In consideration of this, it is important to determine why the scholarly field of Comic Studies and in turn comic books have long been trivialized as an inferior and often childish field and art form. This study will look at two superheroes: Superman and Captain America, to see how they have reflected American ideals and values from the 1930’s to the present. This would be done through a content analysis of both superheroes, as well as, focus on coding particular themes for each comic book era that will correlate with historical instances in a particular era. The study’s goal would be to connect these factors to the overall time frame of a particular era and, ultimately, prove a strong correlation between historical occurrences and how comic books were influenced by said occurrences. These results would suggest that not only are comic books a gateway to the representation of a generations desires and struggles in a constantly changing world, but are also unparalleled by any other history book. But this would also shed a light to the importance of maintaining the study of comic books and their significance as an authentic art form, as well as, demonstrate the importance of comic books, and their superheroes, in American society throughout the twentieth and twentyfirst century

Measurement of Nanoparticles Release during Drilling of Polymer Nanocomposites

Nanomaterials are one of the promising technologies of this century. The Project on Emerging Nanotechnologies [1] reports more than 1600 consumer products based on nanotechnology that are currently on the market and advantages link to the reinforcement of polymeric materials using nano-fillers are not to demonstrate anymore. However, the concerns about safety and its consumer perception can slow down the acceptance of nanocomposites. Indeed, during its life-cycle, a nanotechnology-based product can release nano-sized particles exposing workers, consumers and environment and the risk involved in the use and disposal of such particles is not well known. The current legislation concerning chemicals and environment protection doesn’t explicitly cover nanomaterials and changes undergone by nanoparticles during the products’ life cycle. Also, the possible physio-chemical changes that the nanoparticles may undergo during its life cycle are unknown. Industries need a standard method to evaluate nanoparticles release during products’ life cycle in order to improve the knowledge in nanomaterials risk assessment and the legislation, and to inform customers about the safety of nanomaterials and nanoproducts. This work aims to propose a replicable method in order to assess the release of nanoparticles during the machining of nanocomposites in a controlled environment. For this purpose, a new experimental set-up was implemented and issues observed in previous methods (background noise due to uncontrolled ambient environment and the process itself, unrepeatable machining parameters) were solved. A characterisation and validation of the chamber used is presented in this paper. Also, preliminary testing on drilling of polymer-based nanocomposites (Polyamide-6/Glass Fibre reinforced with nano-SiO2) manufactured by extrusion and injection moulding were achieved

Electrospinning polystyrene reinforced with multi-walled carbon nanotubes: Parameters for obtaining nanofibers with enhanced thermal properties

Various concentrations of multi-walled carbon nanotubes (MWCNTs) were dispersed in a polystyrene matrix in order to determine the optimal MWCNT concentration that would enhance the thermal properties of the composite. The MWCNTs were dispersed in the polystyrene matrix by high energy sonication and then electrospun. The microstructural characterization such as fiber diameter, fiber orientation, fiber morphology, porosity, cross-section shape, and surface roughness of the nanofibers electrospun from these composites were made by scanning electron microscopy and transmission electron microscopy. Spectroscopic characterization for these nanofibers was conducted using Fourier Transform infrared spectroscopy and Raman spectroscopy was utilized to establish a nanotube/matrix interaction. Thermal characterization such as degradation temperature and glass transition temperature were determined using thermogravimetric analysis and differential scanning calorimetry respectively