Nietzsche and Heidegger on the Cartesian Atomism of Thought

Burgess, Steven

01 January 2013

My dissertation has two main parts. In the first half, I draw out an underlying presupposition of Descartes' philosophy: what I term "atomism of thought." Descartes employs a radical procedure of doubt in order to show that the first principle of his philosophy, the cogito, is an unshakeable foundation of knowledge. In the dialogue that follows his dissemination of the Meditations, Descartes reveals that a whole set of concepts and rational principles innate in our minds are never doubted. These fundamental units of thought are indivisible, distinct, and isolated, and enable the possibility of any rational demonstration. Atoms of thought are perfectly individuated because God has created them as such. Likewise, our minds have been fashioned such that we necessarily have a clear and distinct perception every time we alight upon these simple notions. In the second part of the dissertation, I take up critiques of Descartes' view given by Nietzsche and Heidegger. In the chapter on Nietzsche, I attempt to fill a lacuna in scholarship about Nietzsche's commentary on Descartes. More specifically, I argue that once the foundation of God is displaced, the basis for accepting atomism of thought dissolves. In the final chapter, I analyze Heidegger's critique of Cartesian atomism. I first look at Heidegger's critique of classical truth as correspondence from Being and Time, and show how it is relevant to a critique of atomism. Then I show how the early Heidegger's holistic philosophical framework can provide an alternative that avoids the pitfalls of atomism. While I limit the scope of my analysis to Descartes' particular formulation, atomism of thought was an influential doctrine throughout modern philosophy. This aspect of Cartesianism has persisted and continues to be a significant theoretical underpinning of many contemporary views. It is my contention that Nietzsche and Heidegger have important contributions to make to this area of thought, and the relative neglect of their work in recent scholarship is a detrimental oversight.

Descartes

Geometrical Demonstration

Reason

Truth

Understanding

Philosophy

Ethical and science understandings in school science : a conceptual framework of classroom practices and understandings

Rogers, Larson

05 1900

The principal contribution of the study is a conceptual account of classroom activities in school science, which incorporates both ethical and conventional science understandings within a single conceptual framework. In order to illustrate and explore the strengths and limitations of the conceptual framework developed, an exploratory case study involving 7 science classes was conducted at 2 schools. The 'classroom practices and understandings' conceptual framework presents a novel approach for understanding activities of students and teachers in the science classroom. According to this framework 'understanding' is a grasp of inferential connections as part of either practical or cognitive types of activity, whereas a 'practice' is a set of activities organized by understandings, rules and characteristic aims, emotions, and projects. On this basis the grounds for a given understanding are described in terms of a unifying structure for both ethical and science understandings. In both cases 'authority in understanding' refers to the specific sources of authority for a given understanding, which may include authoritative individuals in addition to more conventional grounds such as reasons or evidence. Finally, 'richness' of understanding refers to the quality of such connections to sources of authority in understanding, and is thus is a measure of the strength of understanding generally. Classroom lessons developed for the exploratory case study focused on ethical questions of sustainability. These were implemented in the science classroom at two research sites, with the researcher acting as guest teacher. One site focused on study of ecology in grade 11; the other site focused on study of genetics in grade 10. At both sites student interviews were conducted to supplement the findings of the classroom-teaching component. The findings support the integrity of the conceptual framework, while highlighting significant challenges for seeking to make explicit the sources of authority in science students' ethical understandings. Building from the conceptual framework and cases studies, a number of further directions for empirical and theoretical research are suggested.

Ethics

Science understanding

School science

Classroom practices

Ready to Roll?

Mortenson, Ben

27 May 2009

Ready to Roll? Understanding Activity, Mobility and Life Satisfaction among Residents Who Use Wheelchairs

Understanding Activity Mobility

Life Satisfaction

Residents

Wheelchairs

A comparison of two computer-based programs designed to improve facial expression understanding in children with autism

Sung, Andrew Nock-Kwan

Unknown Date

No description available.

autism

facial expression understanding

computer-based intervention

Ethical and science understandings in school science : a conceptual framework of classroom practices and understandings

Rogers, Larson

05 1900

The principal contribution of the study is a conceptual account of classroom activities in school science, which incorporates both ethical and conventional science understandings within a single conceptual framework. In order to illustrate and explore the strengths and limitations of the conceptual framework developed, an exploratory case study involving 7 science classes was conducted at 2 schools. The 'classroom practices and understandings' conceptual framework presents a novel approach for understanding activities of students and teachers in the science classroom. According to this framework 'understanding' is a grasp of inferential connections as part of either practical or cognitive types of activity, whereas a 'practice' is a set of activities organized by understandings, rules and characteristic aims, emotions, and projects. On this basis the grounds for a given understanding are described in terms of a unifying structure for both ethical and science understandings. In both cases 'authority in understanding' refers to the specific sources of authority for a given understanding, which may include authoritative individuals in addition to more conventional grounds such as reasons or evidence. Finally, 'richness' of understanding refers to the quality of such connections to sources of authority in understanding, and is thus is a measure of the strength of understanding generally. Classroom lessons developed for the exploratory case study focused on ethical questions of sustainability. These were implemented in the science classroom at two research sites, with the researcher acting as guest teacher. One site focused on study of ecology in grade 11; the other site focused on study of genetics in grade 10. At both sites student interviews were conducted to supplement the findings of the classroom-teaching component. The findings support the integrity of the conceptual framework, while highlighting significant challenges for seeking to make explicit the sources of authority in science students' ethical understandings. Building from the conceptual framework and cases studies, a number of further directions for empirical and theoretical research are suggested.

Ethics

Science understanding

School science

Classroom practices

The dilemmas and dynamics of Taiwan's pragmatic diplomacy

Fan, S. P.

Unknown Date

No description available.

360105 International Relations

750702 Understanding other countries

Postcolonial Concerns: Gender, Race and the Dynamics of Representation in Six Novels by Alin Laubreaux

Jones, D. S.

Unknown Date

No description available.

420206 French

The legality of trade measures taken by states in response to human rights violations in other states

Cassimatis, A. E.

Unknown Date

No description available.

390303 Human Rights

750503 Understanding legal processes

Exposing state terror: Violence in contemporary Indonesian literature

Herlambang, W.

Unknown Date

No description available.

420213 Indonesian

750702 Understanding other countries

Communicating astrobiology in public: A study of scientific literacy

Oliver, Carol Ann, Biotechnology & Biomolecular Sciences, Faculty of Science, UNSW

January 2008

The majority of adults in the US and in Europe appear to be scientifically illiterate. This has not changed in more than half a century. It is unknown whether the Australian public is also scientifically illiterate because no similar testing is done here. Public scientific illiteracy remains in spite of improvements in science education, innovative approaches to public outreach, the encouraging of science communication via the mass media, and the advent of the Internet. Why is it that there has been so little change? Is school science education inadequate? Does something happen between leaving high school education and becoming an adult? Does Australia suffer from the same apparent malady? The pilot study at the heart of this thesis tests a total of 692 Year Ten (16-year-old) Australian students across ten high schools and a first year university class in 2005 and 2006, using measures applied to adults. Twenty-six percent of those tested participated in a related scientific literacy project utilising in-person visits to Macquarie University in both years. A small group of the students (64) tested in 2005 were considered the best science students in seven of the ten high schools. Results indicate that no more than 20% of even the best high school science students - on the point of being able to end their formal science education - are scientifically literate if measured by adult standards. Another pilot test among 150 first year university students supports that indication. This compares to a scientific literacy rate of 28% for the US public. This thesis finds that the scientific literacy enterprise ?? in all its forms ?? fails scrutiny. Either we believe our best science students are leaving high school scientifically illiterate or there is something fundamentally wrong in our perceptions of public scientific illiteracy. This pilot study ?? probably the first of its kind ?? indicates we cannot rely on our current perceptions of a scientifically illiterate public. It demonstrates that a paradigm shift in our thinking is required about what scientific literacy is and in our expectations of a scientifically literate adult public. In the worst case scenario, governments are pouring millions of dollars into science education and public outreach with little or no basis for understanding whether either is effective. That is illogical, even irresponsible. It also impacts on the way astrobiology ?? or any science ?? is communicated in public.

astrobiology

scientific literacy

public understanding of science