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Learner performance in integrated science process skills and attitudes in hands-on practical work versus virtual practical workNdoro, Mugove Chawapiwa January 2017 (has links)
This research study was conducted in an urban high school in Western Cape province of South Africa. The research study investigated the effect of virtual practical work on learner performance in science process skills and attitude, working with a non-random sample group of grade 10 physical sciences learners. In this experimental design research, the treatment group of 22 learners was taught the concept of 'phase change in matter' through virtual practical work. On the other hand, the control group was taught the same concept through hands-on practical. A pre- and post-test instrument of 30 multiple choice items on integrated science process skills was used to measure learners' performance. The test scores were statistically analysed using Quickcalcs, to compare the overall learner performance in the two groups, and also to compare learner performance in different categories of science process skills. A 12-item questionnaire was designed to test the learner s' attitude towards virtual and hands-on practical. The statistical t test analysis on the average scores indicated insignificant difference between the performance of the two groups, with a p value greater than 0,05. When learners' performance in different process skills categories were compared, t test scores revealed significant differences in some categories and non-significant differences in some categories. The questionnaire results indicated that the learners' attitude was biased towards hands-on practical work. The significance of this research study is that virtual practical can be used to develop some science process skills.
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A study of the application of science process skills to the teaching of geography in secondary schools in the Free State provinceRambuda, Awelani Melvin 02 November 2005 (has links)
Please read the abstract in the section, 00front, of this document / Thesis (DPhil)--University of Pretoria, 2006. / Humanities Education / DPhil / Unrestricted
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Naturvetenskap och Bilderböcker : Naturvetenskaplig Begreppsbildning och Grundläggande Naturvetenskapliga Matoder / Science and Picture Books : Science Concepts and Basic Science SkillsSkanse, Maria January 2010 (has links)
Preschool has a long tradition of using picture books, both as entertainment and as a resource for educational activities. In science there are two main application areas. The first one is science concepts and the second is to teach basic science process skills. These skills, observing, communicating, inferring, classifying, measuring and predicting reflects the methods used by scientists. Picture books potential to put science concepts and activities that promote the use of science process skills in a meaningful context, recommends using picture books for this purpose. However there is an issue about finding an appropriate selection of books, mainly when used for science concept formation. This study focuses on fictional picture books and discusses potentials and limitations of using them as a resource for preschool science. / I förskolan finns en lång tradition av att använda bilderböcker, både som underhållning och underlag för pedagogiska aktiviteter. Inom det naturvetenskapliga området finns två huvudsakliga användningsområden. Det första är naturvetenskaplig begreppsbildning och det andra är att använda bilderboken som utgångspunkt för att lära ut grundläggande naturvetenskapliga förmågor. Dessa förmågor, att observera, kommunicera, dra slutsats, klassificera, mäta och att förutspå, reflekterar det arbetssätt som används av forskare. Bilderbokens möjlighet att sätta naturvetenskapliga begrepp respektive aktiviteter som uppmuntrar barnen att använda naturvetenskapliga metoder i ett för barnen meningsfullt sammanhang, talar för att bilderboken används som utgångspunkt för detta. Ett problem som finns är att det är svårt att ta fram ett lämpligt urval. Detta gäller framförallt när bilderboken används som utgångspunkt för begreppsbildning. Denna studie är fokuserad på ett skönlitterärt urval, och diskuterar de möjligheter och begränsningar som finns med att använda skönlitterära bilderböcker som utgångspunkt för naturvetenskap i förskolan.
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Effect Of Conceptual Change Oriented Instruction On Removing Misconceptions About Phase ChangesCelebi, Ozgur 01 September 2004 (has links) (PDF)
In this study, a comparison of the effectiveness of conceptual change oriented instruction with traditionally designed chemistry instruction and an investigation of the effect of gender difference were made on ninth grade students&rsquo / understanding of phases and phase changes concepts. In addition, the effects of these instructional methods on students&rsquo / attitudes toward chemistry as a school subject were compared.
In this study 56 ninth grade students from two classes of a chemistry course instructed by the same teacher from Ankara Atatü / rk Anatolian Lycee in 2003-2004 educational year&rsquo / s first semester took part. The classes were randomly assigned as control and experimental groups. The experimental group was instructed by conceptual change oriented method with conceptual change texts supported by demonstration, whereas the control group was instructed by traditionally designed method over a period of three weeks. Both groups were administered to Phases and Phase Changes Achievement Test as pretest and posttest in order to assess students&rsquo / understanding of phases and phase changes concepts. Additionally, Science Process Skills Test was given before the treatment to measure students&rsquo / science process skills and Attitude Scale toward Chemistry as a School Subject was given after the treatment to determine their attitudes.
The hypotheses were tested using analysis of covariance (ANCOVA), paired samples t-test, and analysis of variance (ANOVA). Results of this study indicated that conceptual change oriented instruction caused a significantly better understanding of phases and phase changes concepts / that males had fewer alternative conceptions than females on phases and phase changes / and that science process skills were strong predictors of understanding in phases and phase changes concepts. On the other hand, no significant difference between conceptual change oriented instruction and traditionally designed chemistry instruction / and no effect of gender difference on students&rsquo / attitudes toward chemistry as a school subject were found.
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In-Service Elementary Teachers' Familiarity, Interest, Conceptual Knowledge, and Performance on Science Process SkillsMiles, Erin 01 August 2010 (has links)
The purposes of this research study were to determine (a) in-service elementary teachers' familiarity, interest, conceptual knowledge of , and performance on science process skills and (b) how in-service elementary teachers' familiarity with, interest in conceptual knowledge of and performance on science process skills relate to each other. The science process skills include the basic skills [observation, classification, measuring, predicting, inferring, and communication,] and the integrated skills [hypothesizing, experimenting, identifying and controlling variables, formulating models, interpreting data, and graphing]. Twenty-four in-service elementary teachers enrolled in a master of math and science education degree program participated in this study. Participants completed questionnaires on their familiarity and interest in the science process skills, a science processes conceptual knowledge test, and a performance test on science process skills. Results indicate that these teachers were highly familiar with the science process skills, but moderately interested in these skills. Results also indicate that teachers were more interested in learning more about integrated process skills than basic process skills. Teachers possessed very low conceptual knowledge of the science process skills. However, teachers performed well on science process skills performance test. Significant correlations among the four constructs (familiarity, interest, conceptual knowledge and performance) were only significant between familiarity and interest. The implications, discussion and recommendations for future research and instruction on science process skills in teacher education programs have been presented.
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A Mixed Methods Study of the Relationships among Academic Achievement, Teaching Strategies and Science and Engineering Fair ParticipationMcDaniel, Christina Lyn 06 May 2017 (has links)
It has long been accepted by science education research that science inquiry in the classroom is essential to the development of a deep understanding of the nature of science and the world around us. In an effort to understand the relationship between science inquiry, science process skills, the nature of science and science and engineering fairs, this mixed methods study qualitatively explores teaching strategies of exemplary science and engineering teachers (N=6) who mentored several International Science and Engineering Fair finalists within a 10 year period (2004-2014). The quantitative portion of this research explored the relationship between science fair participation and academic achievement. Using the theoretical framework of modern expectancy-value theory, 5 themes emerged. All believed: 1) there is intrinsic value in science inquiry and science fair; 2) all included strategic engagement opportunities for students; 3) intrinsic value and motivation potentially lead to increased academic aptitude; 4) the benefits of science inquiry and science fair outweigh costs; and 5) there is a link between intrinsic value in science and engineering fair and utility value. Of the schools (N=31) identified for the quantitative study, demographic analysis (gender, ethnicity, socio-economic statics, and size of school) narrowed to 8 treatment schools with one control school indicated no statistical relationship between academic performance on a standardized state science examination and science fair participation. An ad hoc study indicated the standardized testing instrument was not an adequate measurement of the level of inquiry included in a science and engineering fair project. In conclusion, a list comprised of exemplary science and engineering fair suggestions was formulated to include descriptions of similar teaching strategies or issues among the exemplary science and engineering fair teachers with intentions of increasing science inquiry or the nature of science in the classroom through the science and engineering fair framework.
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Science is Primary - Children Thinking and Learning in theChemistry LaboratoryZhang, Ning January 2005 (has links)
The goal of primary science education is to foster children’s interest, develop positive science attitudes and promote science process skills development. Learning by playing and discovering provides several opportunities for children to inquiry and understand science based on the first–hand experience. The current research was conducted in the children’s laboratory in Heureka, the Finnish science centre. Young children (aged 7 years) which came from 4 international schools did a set of chemistry experiments in the laboratory. From the results of the cognitive test, the pre-test, the post-test, supported by observation and interview, we could make the conclusion that children enjoyed studying in the laboratory. Chemistry science was interesting and fascinating for young children; no major gender differences were found between boys and girls learning in the science laboratory. Lab work not only encouraged children to explore and investigate science, but also stimulated children’s cognitive development.
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The Acquisition Of Science Process Skills Through Guided (teacher-directed) InquiryKoksal, Ela Ayse 01 June 2008 (has links) (PDF)
The international and national assessment results indicated that Turkish students&rsquo / conceptual understanding in science and basic inquiry skills are far behind the expected levels. The reason of low achievement could be attributed to many sources such as family background characteristics, students&rsquo / attitudes, and teaching methodologies. The low socioeconomic environment in the school and crowded classrooms are important facts that should be somehow considered by the educational researchers. The way a teacher teaches in a crowded classroom is important to help students&rsquo / understanding of concepts and development of inquiry skills.
The present study aimed to propose a methodology that helps teachers to enhance students&rsquo / understanding of concepts and develop inquiry skills in many schools with various socio-economic-status environments and large classrooms. The method proposed could be called as guided (teacher-directed) inquiry to develop concepts, skills, and affective characteristics of the students such as attitudes.
This study was conducted with 168 sixth grade public elementary school students in Ankara in 2006-07 academic year. Repeated measures design was used in the study. Intact groups received either traditional or teacher-directed inquiry instructions. The students in both groups were measured with the unit achievement and science process skills tests, and attitudes toward science questionnaire before and after the instructions, and repeatedly after no treatment by a retention or delayed test.
It was found that while the guided (teacher-directed) inquiry instruction made a difference on student achievement in the first unit (Reproduction, Development and Growth in Living Things), it could not make a difference on student achievement in the second unit (Force and Motion). The instruction also made a difference on students&rsquo / science process skills test performance and both the composite and individual attitude scores.
It is concluded that guided (teacher-directed) inquiry instruction generally helps students&rsquo / understanding of science concepts and results with achievement in science. It helps students&rsquo / development of scientific skills with authentic experiences. Guided (teacher-directed) inquiry instruction also has an effect on students&rsquo / development of positive attitudes toward science and technology course, specifically on self-concept, anxiety, interest, career, enjoyment, and usefulness dimensions.
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Effect Of Guided Inquiry Experiments On The Acquisition Of Science Process Skills, Achievement And Differentiation Of Conceptual StructureYildirim, Altinay 01 March 2012 (has links) (PDF)
The science and technology program developed by the Ministry of National Education of Turkey aims at training students as science and technology literates. In order to achieve this, method implemented by teachers should enhance science process skills, increase achievement and actualize differentiation in the conceptual structure of students.
The present study aims to investigate the effectiveness of guided inquiry experiments over traditionally designed experiments on the acquisition of science process skills, content knowledge achievement and differentiating conceptual structure of 8th grade students about floating, sinking, buoyancy and pressure subjects.
Guided inquiry laboratory manuals were developed for the experimental group. Traditional confirmation type laboratory manuals were developed for the control group. The study was conducted with 55 eighth grade students at a private elementary school in the Bahç / elievler district, Istanbul. In this quasi-experimental study, two of the three intact groups assigned as experimental group, while the control group.
Unit achievement test (UAT), science process skills test (SPST) and two-tiered test for determining differentiation in conceptual structure (DDSCT) were used as data collection instruments. All of these instruments were administered to the students as pre-test and post-test.
It was found that guided inquiry experiments were effective than traditional confirmation type experiments in differentiation of students&rsquo / conceptual structure about floating, sinking, buoyancy and pressure. However, there was not a significant difference in the effectiveness of both inquiry and traditional methods on enhancing the students&rsquo / science process skills and their achievement at the unit of force and motion.
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How children in a science-centered preschool use science process skills while engaged in play activitiesMcFarlin, Lillian Marie 01 June 2011 (has links)
Self-motivated activities, or play, that children choose to engage in are manifestations of a variety of science process skills being used to construct knowledge about their environment. While many people agree that science skills should be fostered at an early age, due to the possible positive influence of a wider base of experiential knowledge and the development of a love of science, there is a lack of research available to support the development of early childhood science curriculum (Bredekamp & Copple, 1997, Brenneman, Stevenson-Boyd & Frede, 2009). This study follows the daily activities of four- and five-year-old children attending a science-based preschool in the southwestern United States. The play activities of the children were observed for their use of the science process skills of observing, comparing, classifying, measuring, communicating, inferring, predicting and experimenting. A wide range of play activities centered around the foundational skills of observing, comparing, measuring, communicating and inferring. The teachers and students combine to create a unique environment promoting excitement and exploration. / text
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