Students’ Attitude towards STEM Education

Popa, Roxana-Alexandra; Ciascai, Liliana

doi:10.24193/adn.10.4.6

Cited by 19 publications

(21 citation statements)

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“…Çocuklar ile birlikte, sınıfta çeşitli materyalleri kullanarak belirlenen uzaklığa/yüksekliğe ulaşmak üzere hazırlanacak bir sistem kurmak planlanabilir. Verilen iki örnek problem durumu ve gerçek yaşam durumlarından yola çıkılarak ele alınabilecek sayısız problem aracılığıyla; çocuklar gerçek yaşam bağlamında ele alabilecekleri yöntemleri (sorgulamaya dayalı öğrenme ve değerlendirme yöntemleri) deneyimleyerek eleştirel ve bilimsel düşünme becerilerini geliştirebilir ve bilimle bütünleşmiş bir bakış açısı oluşturur (Popa ve Ciascai, 2017). Çocuklar bu süreçte; STEM eğitimi aracılığıyla problem çözme, bilimsel araştırmalar yürütme, matematik uygulamaları yapma ve teknolojik tasarımlar oluşturma konularında deneyim kazanabilirler (Sanders, 2009).…”

Section: Erken çOcukluk Döneminde Stem Eğitimi Anlayışıunclassified

“…Örneğin, Kazakoff, Sullivan ve Bers ( 2013) 'e göre, robotik ve programlama etkinliklerine katılan çocuklar sıralama ile ilgili becerilerini bu etkinlikler yoluyla geliştirirler. STEM eğitim anlayışı öğrenme ortamlarında kullanılmakta olan materyaller kapsamı; yazılımlardan robotlara, bilgisayarlardan artık materyallere oldukça geniş bir çerçevede olsa da, etkili bir STEM eğitim modelinin doğasına (öğrencilerin erken deneyimleri ve ilgi alanlarını kullanır, önceden var olan bilgisini ve becerilerini [bildikleri] tanımlar ve kullanır, onları dahil eder, bilimsel etkinliklere olan ilgisini sürdürür ve onları bilimsel etkinliklere katılmaya motive etmek için tasarlanmış deneyimler sunar) yakın çerçevede kalmasını sağlayacak miktarda olması önemlidir (Capraro ve Slough, 2013;Popa ve Ciascai, 2017).…”

Section: Erken çOcukluk Döneminde Stem Eğitimi Anlayışıunclassified

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STEM Education in Early Childhood

Çetin

Demircan²

2020

İnönü Üniversitesi Eğitim Fakültesi Dergisi

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Establishing connections between the problems that children may encounter in their daily lives and scientific concepts, STEM education is included in the learning processes starting from early childhood. In addition to conceptual learning, STEM is an approach to education in which students' active participation is achieved through learning by doing. In fact, STEM provides opportunities for students to integrate what they have learned with their living experiences. For the effective integration of STEM education in early childhood learning environments, it is crucial to consider the essential points of planning and implementing developmentally appropriate STEM practices in early childhood education. In this context, the purpose of this study is to present a review focused on STEM education through scientific, historical, and multiple perspectives within the current literature. This detailed review was organized under the titles of the history of STEM, approaches to STEM in early childhood education, the orientation, criticism, and questions regarding STEM in early childhood education and recommendations. Children can be influenced by the policies and practices that define home and school settings and the cultural values that shape these environments. For this reason, it is suggested to provide holistic learning environments and experiences that enable curiosity, discovery, and research for children. Thus, it is proposed that individuals compatible with the human understanding of the new world can be raised within the framework of the economic, social, personal, or cultural values of the societies.

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Section: Erken çOcukluk Döneminde Stem Eğitimi Anlayışıunclassified

STEM Education in Early Childhood

Çetin

Demircan²

2020

İnönü Üniversitesi Eğitim Fakültesi Dergisi

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“…Not only is there relatively more investment, but also there is a great pressure on ordinary schools with relatively tight funds, and teachers'teaching thinking is often limited by equipment, which can not really play the core role of STEM curriculum. Especially for the graduates who are under great pressure to enter higher education, they can not spare a lot of time for STEM courses [5] .…”

mentioning

confidence: 99%

A study of “Micro STEM” Physics Classroom Teaching

ГУАНЬ¹

2020

AJERR

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This paper explores the "Micro STEM" physics classroom teaching from the two aspects of pre-class design ideas and teaching links, and conducts an investigation on the teaching effect of students after class. The study finds that "Micro STEM" classroom enables students to understand and use the target knowledge better than traditional classroom, and students'interest in learning and classroom participation are higher. It is helpful to cultivate students'ability to discover and solve problems and sense of teamwork, and to improve students' core scientific literacy.

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“…Many countries who are keeping pace with technological or engineering developments and innovations, either to strengthen the economy as well as to protect from threats of other countries, or to remain or become leaders in the rapidly changing and expanding global economy, have taken steps to enrich and improve the STEM curriculum, STEM educational policy and STEM-related workforce development [3]. Hence, numerous STEM-related researches can be found focusing either on teachers [4], [5], [6], [7], [8] or students, in which the latter commonly involved school students [1], [9], [10], [11] and college or university students [12], [13], [14], [15].…”

mentioning

confidence: 99%

“…Thus, it is not surprising to find many researchers discussed heavily on academic preparedness and students' interest in STEM [18], as well as other supporting factors such as STEM competitions [8], out-of-school STEM activities [19], [20] STEM pre-knowledge [1] and other STEM-based programs [11], [21] which highly likely encourage the students' pursuit of STEM fields in college. Some researches were also carried out to investigate students' or youth's attitude towards STEM fields [10], [14], [22], Most of them reported moderately to highly positive attitudes. Moreover, there were also researchers that relate the attitude or interest with specific gender, such as Sahin et al [15] who found that males were more likely to choose a STEM major in college than females, which contradicted with Mau et al [13] who found that female students were more likely than male students to major in STEM field of studies.…”

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confidence: 99%

A Simple Survey on Attitude of Computer Science Diploma Students towards STEM

Ismail¹

2019

humass

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This article reported a simple survey on diploma students’ attitudes towards science, technology, engineering, and mathematics (STEM) objectively to get an initial impression of students taking a STEM-related diploma program. The targeted respondents were diploma students pursuing computer science programs in a Malaysian public university. A quantitative approach using a quantitative survey was used in which data were systematically elicited from 16 male and 17 female students using a questionnaire containing Likert-scale items. The questionnaire consists of three constructs: attitude toward science (8 items), attitude toward technology and engineering (8 items), and attitude toward mathematics (8 items). All constructs use a 5-point Likert scale for the response scale (1 = strongly disagree to 5 = strongly agree). Descriptive analysis showed that the respondents’ attitude ranged between moderately to highly positive towards STEM with no significance different variation between genders across the STEM fields. Interestingly, they also had, generally, moderate consideration for careers in STEM fields (the average values ranged between 27.2% and 42.4%) with male respondents had very low agreements (18.7%) to consider careers related to technology and engineering fields. Such results were a bit discouraging as the respondents were all pursuing a diploma in computer science. Thus, more efforts are needed by the university to give more exposures and experiences to refine the students’ attitude during their study, to boost their confidence and interest to pursue a career suitable with their diploma certificates.

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Students’ Attitude towards STEM Education

Cited by 19 publications

References 7 publications

STEM Education in Early Childhood

STEM Education in Early Childhood

A study of “Micro STEM” Physics Classroom Teaching

A Simple Survey on Attitude of Computer Science Diploma Students towards STEM

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