scholarly journals Analysis of seaports development strategies: science, technology, education and marketing

2018 ◽  
Vol 3 (4(41)) ◽  
pp. 10-24 ◽  
Author(s):  
Denys Ilnytskyy ◽  
Sergii Zinchenko ◽  
Oleksandr Savych ◽  
Oleksandr Yanchetskyy
Keyword(s):  
Technology Education ◽  
Development Strategies ◽  
Science Technology

Re–Valuing Constructed Knowledge

2014 ◽  
pp. 170-186
Author(s):  
Damon Cartledge
Keyword(s):  
Technology Education ◽  
21St Century ◽  
Teaching And Learning ◽  
Clear Definition ◽  
Disciplinary Knowledge ◽  
Educational Structure ◽  
Construction Of Knowledge ◽  
Curriculum Model ◽  
Science Technology ◽  
And Mathematics

In this chapter, two issues are discussed that impact teaching and learning in technical and technology education. The issues are bound together by a concept of constructed knowledge and its inherent value. Knowledge constructed and operationalized in non–academic contexts is not well recognized in universities as having intellectual value. Developing knowledge that may be out of context from discipline homes can be misunderstood as lacking depth, when in fact they are highly complex arrangements of interdisciplinary constructed knowledge. The second issue is about how to conceptualize an educational structure in which this complex inter-disciplinary knowledge can be better recognized across educational divisions and strata. STEM (Science, Technology, Engineering, and Mathematics) is a well-established curriculum model that gives both clear definition/delineation (and cohesive purpose) to the interdependent discipline strands of the constructed knowledge under discussion. The chapter closes with an argument for a STE(A)M model, articulating the inclusion of an additional-alternative component for the Artist, Artisan, Artificer, Alchemist, Architect, and so forth, as a model to access, create, and re-value the construction of knowledge within universities of the 21st century.

Women and STEM

2014 ◽  
pp. 703-713
Author(s):  
Marianne Robin Russo ◽  
Kristin Brittain
Keyword(s):  
United States ◽  
Technology Education ◽  
21St Century ◽  
The United States ◽  
Communications Technology ◽  
Biological Functions ◽  
Science Technology ◽  
Gender Based ◽  
And Mathematics ◽  
Great Odds

While battling great odds in terms of discrimination and bias, women within the United States have made valuable contributions to the workforce. Now that the second decade of the 21st century is upon us, women have come into all facets of the workforce, finding a niche in Internet Communications Technology (ICT) as well as within Science, Technology, Engineering, and Mathematics (STEM), which should allow women more of an opportunity to pursue occupations. However, it seems that women are lagging in this part of the workforce within the constructs of science, technology, education, and mathematics also known as STEM. This glass ceiling, or gender barrier, may make matters worse in terms of reporting these kinds of women's issues because these reports are often written by men. In addition, the ideas and perceptions of masculinity and femininity have been scrutinized and analyzed in this chapter, and it is not difficult to realize the differences in gender based on biological functions.

scholarly journals Pengaruh Pembelajaran Fisika Berbasis STEM Terhadap Kemampuan Motorik Siswa

2019 ◽  
Vol 4 ◽  
pp. 1
Author(s):  
Afipah Muyassarah ◽  
Tursina Ratu ◽  
Muhammad Erfan
Keyword(s):  
Technology Education ◽  
Motor Skills ◽  
T Test ◽  
Assessment Instrument ◽  
Skill Assessment ◽  
Motor Ability ◽  
Physics Learning ◽  
Paired Sample ◽  
Science Technology ◽  
And Mathematics

<p class="AbstractEnglish"><strong>Abstract: </strong>STEM (Science, Technology, Education, and Mathematics) is learning that not only involves scientific and mathematical concepts (cognitive aspects) but also technically about how a concept is obtained (motoric). The aspect of motor ability is one of the aspects obtained by students in the learning process apart from the cognitive and affective aspects, but generally most studies put forward cognitive aspects (learning outcomes) so that motor skills are rarely exposed. Therefore this study aims to find out how much influence the STEM-based Physics Learning has on students' motor skills. This research is a quasi-experimental study with the design of One Groups Pretest-Posttest. Data was collected by student worksheet and Student Motor Skill Assessment Instrument Sheets and analysed by paired sample t-test. The results showed that the results of paired sample t test (t value = -64,761 far below t table) and the obtained N-Gain value was 0.55 (moderate gain) so it can be concluded that STEM-based physics learning is significantly capable of increasing students' motor ability.</p><p class="AbstrakIndonesia"><strong>Abstrak: </strong>Pembelajaran STEM <em>(Science, Technology, Education, and Mathematics) </em>merupakan pembelajaran yang tidak hanya melibatkan kosep-konsep sains dan matematika saja (aspek kognitif) tetapi juga secara teknis mengenai bagaimana suatu konsep itu diperoleh (motorik). Aspek kemampuan motorik merupakan salah satu aspek yang diperoleh siswa dalam proses pembelajaran selain daripada aspek kognitif dan afektif, namun umumnya kebanyakan penelitian lebih mengedepankan aspek kognitif (hasil belajar) sehingga kemampuan motorik jarang terekspose. Oleh karena itu penelitian ini bertuuan untuk mengetahui seberapa besar pengaruh Pembelajaran Fisika berbasis STEM terhadap kemampuan motorik siswa. Penelitian ini termasuk penelitian kuasi eksperimen dengan desain <em>One Groups Pretest-Posttest</em>. Data dikumpulkan dengan LKPD dan Lembar Instrumen Penilaian Kemampuan Motorik Siswa serta dianalisis dengan uji-t sampel berpasangan. Hasil penelitian menunjukkan bahwa hasil uji <em>paired sample</em> <em>t test</em> (nilai t = -64,761 jauh dibawah t tabel (-1.69092), dan nilai N-Gain yang diperoleh sebesar 0,55 (gain sedang) sehingga dapat ditarik kesimpulan bahwa pembelajaran fisika berbasis STEM secara signifikan mampu meningkatnya capaian kemampuan motorik siswa.</p>

scholarly journals Post-pandemic Science & Technology Education

2020 ◽  
Vol 11 (2) ◽  
pp. 33-54
Author(s):  
Larry Bencze
Keyword(s):  
Technology Education ◽  
Science And Technology ◽  
Special Kind ◽  
Well Being ◽  
Nuclear War ◽  
Societal Transformation ◽  
For Profit ◽  
Science And Technology Education ◽  
Natural Place ◽  
Science Technology

Much of the world is experiencing a crisis in which many ‘instructional packets’ (SARS-CoV-2 viruses) have commandeered ‘machinery’ of living beings to propagate themselves — regardless of surrounding harms their self-interested purposes may cause. Although they have, indeed, caused massive global disruption, crises linked to hegemonic actors are not uncommon. Capitalists, like viruses, conscript various living and nonliving entities to serve them and, in their persistent — and, generally, highly-successful — pursuit of profit, are said to be responsible for numerous social injustices and much environmental devastation, such as climate disruption and nuclear war (Ripple et al., 2020). Accordingly, like viral pandemics, many suggest that capitalism is a ‘pandemic’ and also must be eliminated — and, some would suggest, replaced with eco-socialist worlds. Capitalism seems, however, to be extremely resilient, often able to survive different crises and, sometimes, capable of emerging even stronger. In this vein, Naomi Klein (2007) suggests that capitalists and others have routinely exploited natural and anthropogenic disasters — using societal destabilization to further implement pro-capitalist policies, often at expense of well-being of many people (e.g., gig workers), societies (e.g., under surveillance) and environments (e.g., climate change). The CoViD-19 pandemic, however, may be a special kind of crisis — perhaps opening doors to more non-capitalist futures. Although enabling, for instance, more for-profit surveillance, it also may have disaggregated capitalist networks to the point of severe weakening and, in doing so, enlightened many people about pre-crisis neoliberal and populist infrastructures that may have contributed to this and other crises. Such conscientization may, in turn, have emboldened many to work for better futures. Given roles of science and technology (S&T) in capitalist empowerment, a natural place for such transformation may be science and technology education. In this paper, a framework for S&T education showing promise in this regard is described and defended. Nevertheless, those wishing societal transformation towards more eco-socialist futures need to engage multiple and diverse living, non-living and symbolic entities in ways that may generate networks supportive of such transformations.

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