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Buddhism at Crossroads: A Case Study of Six Tibetan Buddhist Monks Navigating the Intersection of Buddhist Theology and Western ScienceSonam, Tenzin, Sonam, Tenzin January 2017 (has links)
Recent effort to teach Western science in the Tibetan Buddhist monasteries has drawn interest both within and outside the quarters of these monasteries. This novel and historic move of bringing Western science in a traditional monastic community began around year 2000 at the behest of His Holiness the Dalai Lama, the spiritual head of Tibetan Buddhism. Despite the novelty of this effort, the literature in science education about learners from non-Western communities suggests various "cognitive conflicts" experienced by these non-Western learners due to fundamental difference in the worldview of the two knowledge traditions. Hence, in this research focuses on how six Tibetan Buddhist monks were situating/reconciling the scientific concepts like the theory of evolution into their traditional Buddhist worldview. The monks who participated in this study were engaged in a further study science at a university in the U.S. for two years. Using case study approach, the participants were interviewed individually and in groups over the two-year period.
The findings revealed that although the monks scored highly on their acceptance of evolution on the Measurement of Acceptance of Theory of Evolution (MATE) survey, however in the follow-up individual and focus group interviews, certain conflicts as well as agreement between the theory of evolution and their Buddhist beliefs were revealed. The monks experienced conflicts over concepts within evolution such as common ancestry, human evolution, and origin of life, and in reconciling the Buddhist and scientific notion of life. The conflicts were analyzed using the theory of collateral learning and was found that the monks engaged in different kinds of collateral learning, which is the degree of interaction and resolution of conflicting schemas. The different collateral learning of the monks was correlated to the concepts within evolution and has no correlation to the monks’ years in secular school, science learning or their proficiency of English language.
This study has indicted that the Tibetan Buddhist monks also experience certain cognitive conflict when situating Western scientific concepts into their Buddhist worldview as suggested by research of science learners from other non-Western societies. By explicating how the monks make sense of scientific theories like the theory of evolution as an exemplar, I hope to inform the current effort to establish science education in the monastery to develop curricula that would result in meaningful science teaching and learning, and also sensitive to needs and the cultural survival of the monastics.
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The effect of a cross-cultural instructional approach on learnersâ conceptions of lightning and attitudes towards science.Liphoto, Neo Paul. January 2008 (has links)
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<p align="left">This study looks at the effect of a cross-cultural instructional approach on the learners&rsquo / conceptions of lightning and attitude towards science. It explored Basotho conceptions of lightning and thunder under the following themes: nature of lightning, protection against lightning, animalistic/humanistic behaviour of lighting and nature of wounds inflicted by lightning.</p>
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The effect of a cross-cultural instructional approach on learnersâ conceptions of lightning and attitudes towards science.Liphoto, Neo Paul. January 2008 (has links)
<p><font face="Times New Roman">
<p align="left">This study looks at the effect of a cross-cultural instructional approach on the learners&rsquo / conceptions of lightning and attitude towards science. It explored Basotho conceptions of lightning and thunder under the following themes: nature of lightning, protection against lightning, animalistic/humanistic behaviour of lighting and nature of wounds inflicted by lightning.</p>
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The effect of a cross-cultural instructional approach on learners’ conceptions of lightning and attitudes towards scienceLiphoto, Neo Paul January 2008 (has links)
Doctor Educationis / This study looks at the effect of a cross-cultural instructional approach on the learners’ conceptions of lightning and attitude towards science. It explored Basotho conceptions of lightning and thunder under the following themes: nature of lightning, protection against lightning, animalistic/humanistic behaviour of lighting and nature of wounds inflicted by lightning.
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Cultural and religious barriers to learning in basic astronomy : A South African studyCameron, Ann Kathleen 25 November 2008 (has links)
Studies in astronomy education have shown that socio-cultural factors combine with
everyday human experience to create learning difficulties that are unique to this field. The
history of astronomy also shows a complex link between science and religion. The
foundations of modern astronomy lie in religious beliefs and practices, but over time, in
the West, as science grew ever more powerful in explaining the apparently mechanistic
processes of nature, the beliefs and understanding associated with scientific explanations
came into conflict with those of the Christian church. In Africa, Western religious and
scientific beliefs were brought by the missionaries, and imposed onto already existing
beliefs systems. From colonial times to the present, Western knowledge has been
privileged over local knowledge in African formal schooling. Little recognition has been
given to the learning difficulties that may be caused in situations where the knowledge
system taught at school is different to that imbibed through home and culture.
The difficulties of epistemic access have been highlighted through the development of
socio-cultural constructivist theories of learning. This study, which is based on the sociocultural
constructivist theories of cultural border crossing and collateral learning,
represents an investigation of the learning difficulties experienced by South African first
year university students who study a compulsory course in basic astronomy called 'The
Earth in Space'. The sample was thus a convenience sample, made up of 191 students
who took the course between 2000 and 2004.
The investigation was carried out using a pre-instruction questionnaire to record the precourse
knowledge of the students. The questions that were asked focused on knowledge
related to some of the key concepts in basic astronomy, such as an understanding of the
nature of stars, the rotation and revolution of the earth and the phases of the moon.
These questions had the dual purpose of benchmarking South African students'
knowledge of the scientific explanations for these phenomena against similar international
studies, as well as establishing the prevalence of cultural or traditional ideas held by
these students. After the course had been completed, a post instruction questionnaire
was used to establish students’ views on the difficulties they had experienced in learning
in the course. This was followed up by semi-structured interviews with 25 of the students.
The data obtained from the questionnaires were analysed using two methods: the first
used a deductive coding system where the students’ responses were allocated to chosen
categories, i.e. whether they conformed to the explanations of Western Modern Science
or to cultural knowledge and beliefs, or both. The second method used a computer
software programme, Atlas.ti, where each statement made by the student was recorded
and coded, leading to an inductive, fine-grained analysis of their responses.
The results from the pre-instruction questionnaire indicated that South African students
display similar poor levels of knowledge in this field, to students from other Western and
non-Western countries. The explanation for this lies in the fact that understanding the
scientific explanations requires the ability to think abstractly, and to be able to construct
complex mental models, in situations where the processes involved run counter to normal
daily experience. However, the explanations given by the South African students also
indicated that there were epistemological and ontological issues, related to conflicting
beliefs in terms of culture and religion, which exacerbated the barriers to border crossing in this field. However, the data indicated that students did not find it as difficult to cross
the barriers created by cultural or traditional beliefs as those caused by fundamentalist
Christian beliefs. The biggest obstacle to learning related to conflict between creationist
and scientific accounts of the formation of the Earth and Universe. While this is not
unusual, as shown by studies carried out in the United States, where religious students
are also affected by the apparent conflict between Christianity and science, the most
significant finding of this study related to the existence and extent of this conflict in Black
African students.
In post-1994 South Africa, the revision of the national education system has resulted in a
science curriculum that recognizes 'other ways of knowing'. These refer specifically,
however, to Indigenous Knowledge Systems (IKS) rather than religious beliefs. The
curriculum does not acknowledge that African ontology is religious. It also does not
recognize the duality of this ontology in terms of African Traditional Religion and
Christianity, which is the stated religion of the majority of Black South Africans. The
findings of this study indicate that because of the nature of African philosophy, religious
ways of knowing need to be explicitly acknowledged as one of the 'other ways of
knowing'. Such acknowledgement by science teachers and lecturers would help to
prevent these different knowledge systems from being discarded or compartmentalized,
which was found to lead either to the promotion of scientism, or to the preclusion of
meaningful engagement with science.
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