425 research outputs found
Session 1: Eugenics Narrative and Reproductive Engineering
Proceedings of the Pittsburgh Workshop in History and Philosophy of Biology, Center for Philosophy of Science, University of Pittsburgh, March 23-24 2001 Session 1: Eugenics Narrative and Reproductive Engineerin
Price effects of an emissions trading scheme in New Zealand
Implementation of a New Zealand Emission Trading Scheme (NZ ETS) will begin in 2008, beginning with forestry, subsequently including energy and industrial emissions, and finally, agricultural GHGs from 2013. Reducing agricultural emissions is a major challenge for New Zealand as they account for over half its total GHG emissions. On the other hand, agriculture is critical to the economy, with its basic and processed products accounting for a third of exports. We use an environmental input-output model to analyse direct and indirect cost impacts of emissions pricing on food and fibre sectors. At NZ $25/t CO₂-eq, costs of energy-related emissions on the food and fibre sectors are very small; however, costs of agricultural emissions post 2013 would substantially impact on sheep, beef and dairy farming. Costeffective mitigation measures and land use changes should help reduce micro- and macroeconomic impacts, but the latter may also risk 'emissions leakage'.emissions trading, input-output price model, agricultural greenhouse gases, Demand and Price Analysis, Environmental Economics and Policy, Land Economics/Use,
Aristotle on Mind and the Science of Nature
On the basis of two premises to which he is committed, it would seem that Aristotle
must be a “naturalist” about the investigation of the soul:
1. Natural things have both a material and a formal nature.
2. In the case of living things, their formal nature is their soul.
This paper deals with a complication in the above inference. In De partibus animalium
I 1, Aristotle insists that the natural scientist should not speak of all soul, since not
all of the soul is a nature, though one or more parts of it is (641b8–9). In this paper I
argue that this claim is consistent with everything he says in the De anima about the
investigation of reason, and is a consequence of his views about the methodological
norms of natural science. Aristotle is a naturalist when it comes to those parts of the
soul human beings share with other animals, but his views about the mind are much
more complicated
Aristotle and the Functions of Reproduction
I shall argue that the function of the reproductive capacity is not to perpetuate the kind (or species), but to allow the individual reproducer to be eternal: not eternal without qualifications, but in a way. The basic premise in the arguments which establish this conclusion distinguishes between things which are numerically eternal and those which are formally eternal. This of this latter sort must be members of an everlasting series of individuals which are one-in-form (ἕν εἴδει, in Aristotle\u27s usage). The full understanding of these passages, therefore, requires a proper interpretation of the distinction between numerical and formal unity. with this distinction clarified, and with a better understanding of Aristotle\u27s teleological explanations of reproduction and sex, i close by suggesting another \u27function\u27 of reproduction - eliminating forms as independent paradigms for natural substances
Aristotle and Darwin: Antagonists or Kindred Spirits?
In the decades following the forging of the so-called Neo-Darwinian Synthesis in the 1940s, a number of its philosophical defenders created a myth about what Charles Darwin was up against, a viewpoint called “typological essentialism” often attributed to Aristotle. In this paper I first sketch the history of how this myth was created. I then establish that it is a myth by providing an account of Aristotle’s essentialism as it is actually displayed in his philosophy of biology and in his biological practice. It has nothing to do with the ‘mythic’ version. We then turn to what Darwin was really up against—a common, anti-evolutionary way of defining the species concept in Darwin’s time (that owes nothing to Aristotle), and to his attempts to re-orient thinking about it. I will close by reconsidering Aristotle and Charles Darwin: Does it make any sense to think about the relationship between two thinkers separated by more than two millennia living in such vastly different cultures? What did Charles Darwin himself think about Aristotle
Locally soluble groups with all nontrivial normal subgroups isomorphic
Let be an infinite, locally soluble group which is isomorphic to all its nontrivial normal subgroups. If has finite -rank for and for all primes , then is cyclic
Price effects of an emissions trading scheme in New Zealand
Implementation of a New Zealand Emission Trading Scheme (NZ ETS) will begin in 2008, beginning with
forestry, subsequently including energy and industrial emissions, and finally, agricultural GHGs from
2013. Reducing agricultural emissions is a major challenge for New Zealand as they account for over half
its total GHG emissions. On the other hand, agriculture is critical to the economy, with its basic and
processed products accounting for a third of exports. We use an environmental input-output model to
analyse direct and indirect cost impacts of emissions pricing on food and fibre sectors. At NZ $25/t
CO₂-eq, costs of energy-related emissions on the food and fibre sectors are very small; however, costs of
agricultural emissions post 2013 would substantially impact on sheep, beef and dairy farming. Costeffective
mitigation measures and land use changes should help reduce micro- and macroeconomic
impacts, but the latter may also risk 'emissions leakage'
Robert Rosen and Relational System Theory: An Overview
Relational system theory is the science of organization and function. It is the study of how systems are organized which is based on their functions and the relations between their functions. The science was originally developed by Nicolas Rashevsky, and further developed by Rashevsky’s student Robert Rosen, and continues to be developed by Rosen’s student A. H. Louie amongst others. Due to its revolutionary character, it is often misunderstood, and to some, controversial. We will mainly be focusing on Rosen’s contributions to this science. The formal and conceptual setting for Rosen’s relational system theory is category theory. Rosen was the first to apply category theory to scientific problems, outside of pure mathematics, and the first to think about science from the point of view of category theory. We will provide an overview of Rosen’s theory of modeling, complexity, anticipation, and organism. We will present the foundations of this science and the philosophical motivations behind it along with conceptual clarification and historical context. The purpose of this dissertation is to present Rosen’s ideas to a wider audience
Industrially challenging separations via adsorption in metal-organic frameworks : a computational exploration
In recent years, metal-organic frameworks (MOFs) have been identified as promising
adsorbents in a number of industrially relevant, yet challenging, separations,
including the removal of propane from propane/propylene mixtures and the
separation of mixtures of xylene isomers. The highly tuneable nature of MOFs -
wherein structures may be constructed from a variety of diverse building blocks –
has resulted in the publication of a staggering number of frameworks incorporating a
wide range of network topologies, pore shapes and pore diameters. As a result, there
are a huge number of candidate adsorbents to consider for a given separation.
Molecular simulation techniques allow the identification of those structural features
and characteristics of a MOF which exert the greatest influence on the adsorption and
separation of the compounds of interest, providing insights which can both guide the
selection and accelerate the development of adsorbents for a specific application.
The separation of propane/propylene mixtures via adsorption has typically focused
on selective adsorption of the olefin, propylene, via specific olefin-adsorbent
interactions. These propylene-selective MOFs result in processes which selectively
remove the most abundant species in the process stream and are typically
characterised by high heats of adsorption, resulting in large adsorption units and
adsorbents which are difficult to regenerate. In this work, the capability of MOFs to
selectively adsorb propane over propylene is explored, potentially allowing for the
design of smaller and more energy-efficient adsorption units. By studying a range of
different MOFs as well as carbon-based model pores, it was found that the low-pressure
selectivity of the structure is determined by the strength of the electrostatic
interaction between propylene and the framework, while the adsorptive preference at
industrially-relevant pressures is dominated by the enhanced packing efficiency of
propylene over propane. The confinement of C3 molecules, however, may be
employed to negate this entropic advantage and guide the development of materials
which selectively adsorb propane over propylene.
It has recently been reported that the adsorptive preference of a MOF for one xylene
isomer over another may be predicted based solely on the pore size distribution of
the structure. In this work, the impact of pore size on selectivity was studied
systematically in both one-dimensional model pore systems of varying geometries
and analogous published MOF structures. The ability of the framework to
discriminate between xylene molecules in these systems was found to be determined
primarily by the different packing arrangements available to the different isomers –
while small pores were found to favour the slimmest of the isomers, larger pores
were found to favour the more compact ortho- isomer.
Finally, the adsorption and diffusion of xylene isomers in a more complex MOF,
UiO-66(Zr), was studied in depth. Simulations were able to correctly predict the
previously-reported preference of the MOF for ortho-xylene (oX). The smaller
volume of the oX molecule compared to the other isomers was found to be
responsible both for an enhanced entropic contribution and higher guest-host
interaction energies. The importance of framework flexibility in the diffusion of
xylene isomers in UiO-66(Zr) was also explored, with distortion of the structure in
response to interaction with adsorbed molecules found to be essential in allowing
xylenes to diffuse through the pore space
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