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  • Positive Education at all Levels : Learning to Flourish
    Positive Education at all Levels : Learning to Flourish

    Positive education has grown and evolved, first as a discipline and then a perspective.Since its first wave of development as an application of positive psychology within education, where the focus was primarily on students, the second wave brought with it recognition of the importance of wellbeing for all those involved in education too.Now entering the third wave, with this comes positive education not as a discipline but as a perspective.In particular, a perspective which embraces the challenges of culture and diversity alongside already positively oriented programs, structures and frameworks within education that, with continued refinements, can bring out the best of what could be (Kern & Wehmeyer, 2021). With this third wave still in its infancy, therefore, Positive Education at all Levels brings the reader to where we are today, showcasing positive education across all three levels of UK education: primary, secondary, and tertiary.With chapters for parents as well as for educators, this book will be of interest for all those involved in positive education, including those who may be learners of positive education too.

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  • BGE S1–S3 Science: Third and Fourth Levels
    BGE S1–S3 Science: Third and Fourth Levels

    Syllabus: CfE (Curriculum for Excellence, from Education Scotland) and SQALevel: BGE S1-3: Third & Fourth LevelSubject: ScienceSpark your pupils' interest in Science as they develop their curiosity, knowledge and skills across Biology, Chemistry, Physics and Topical Science, from S1 to S3. Covering all CfE Third and Fourth Level Benchmarks for the Sciences, this ready-made and fully differentiated BGE course puts progression for every pupil at the heart of your curriculum. - Help pupils understand the big ideas, concepts and processes in Science: Clear explanations, diagrams and a glossary of key words make the content accessible and engaging for all pupils- Build inquiry, investigative and analytical thinking skills: End-of-topic questions and research tasks enable pupils to apply their knowledge to various problems and contexts - with answers provided at the back of the book- Incorporate cross-curricular Science opportunities: The first unit introduces essential skills for experiments, such as measuring, recording and analysing data, and the last unit contains five Topical Science projects that bring together different strands of learning- Meet the needs of each pupil in your class: The content and activities are designed to ensure accessibility for those with low prior attainment, while extension tasks will stretch and challenge higher ability pupils- Effectively check and assess progress: All activities support formative assessment, helping you monitor progression against the Experiences & Outcomes and Benchmarks (with additional assessments and worksheets in the separate Planning & Assessment Pack)- Lay firm foundations for National qualifications: The skills, knowledge and understanding established through the course will set pupils up for success at National 5 and beyond- Deliver the 'responsibility for all' Es and Os: Plenty of activities that address literacy, numeracy and health and wellbeing skills are threaded through the book

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  • Pioneering Progress : American Science, Technology, and Innovation Policy
    Pioneering Progress : American Science, Technology, and Innovation Policy


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  • Handbook of Research on Science Teacher Education
    Handbook of Research on Science Teacher Education

    This groundbreaking handbook offers a contemporary and thorough review of research relating directly to the preparation, induction, and career long professional learning of K–12 science teachers. Through critical and concise chapters, this volume provides essential insights into science teacher education that range from their learning as individuals to the programs that cultivate their knowledge and practices.Each chapter is a current review of research that depicts the area, and then points to empirically based conclusions or suggestions for science teacher educators or educational researchers.Issues associated with equity are embedded within each chapter.Drawing on the work of over one hundred contributors from across the globe, this handbook has 35 chapters that cover established, emergent, diverse, and pioneering areas of research, including: Research methods and methodologies in science teacher education, including discussions of the purpose of science teacher education research and equitable perspectives; Formal and informal teacher education programs that span from early childhood educators to the complexity of preparation, to the role of informal settings such as museums; Continuous professional learning of science teachers that supports building cultural responsiveness and teacher leadership; Core topics in science teacher education that focus on teacher knowledge, educative curricula, and working with all students; and Emerging areas in science teacher education such as STEM education, global education, and identity development. This comprehensive, in-depth text will be central to the work of science teacher educators, researchers in the field of science education, and all those who work closely with science teachers.

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  • What is the difference between iron levels and ferritin levels?

    Iron levels refer to the amount of iron circulating in the blood, which can fluctuate throughout the day. Ferritin levels, on the other hand, reflect the amount of iron stored in the body for future use. Ferritin is a protein that stores iron and releases it in a controlled manner when needed. Monitoring both iron and ferritin levels is important in assessing overall iron status and diagnosing conditions such as iron deficiency anemia.

  • Are trophic levels and trophic levels the same in biology?

    No, trophic levels and trophic levels are not the same in biology. Trophic levels refer to the hierarchical levels in an ecosystem based on an organism's position in the food chain, such as producers, primary consumers, secondary consumers, etc. On the other hand, trophic cascades are the indirect effects that occur when a change in one trophic level impacts other trophic levels in the ecosystem. Both concepts are important in understanding the dynamics of energy flow and interactions within ecosystems.

  • Are trophic levels and trophic levels the same thing in biology?

    No, "trophic levels" and "trophic levels" are not the same thing in biology. "Trophic levels" refer to the hierarchical levels in an ecosystem based on an organism's position in the food chain, such as producers, primary consumers, secondary consumers, and so on. On the other hand, "trophic levels" appears to be a typographical error or a repetition of the term "trophic levels." In biology, it is important to use accurate and specific terminology to avoid confusion and miscommunication.

  • What are sentence levels?

    Sentence levels refer to the different types of sentences that can be used in writing. These levels include simple sentences, compound sentences, complex sentences, and compound-complex sentences. Simple sentences contain one independent clause, compound sentences contain two or more independent clauses, complex sentences contain one independent clause and at least one dependent clause, and compound-complex sentences contain two or more independent clauses and at least one dependent clause. Understanding sentence levels is important for creating varied and effective writing.

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  • Handbook of Research on Science Teacher Education
    Handbook of Research on Science Teacher Education

    This groundbreaking handbook offers a contemporary and thorough review of research relating directly to the preparation, induction, and career long professional learning of K–12 science teachers. Through critical and concise chapters, this volume provides essential insights into science teacher education that range from their learning as individuals to the programs that cultivate their knowledge and practices.Each chapter is a current review of research that depicts the area, and then points to empirically based conclusions or suggestions for science teacher educators or educational researchers.Issues associated with equity are embedded within each chapter.Drawing on the work of over one hundred contributors from across the globe, this handbook has 35 chapters that cover established, emergent, diverse, and pioneering areas of research, including: Research methods and methodologies in science teacher education, including discussions of the purpose of science teacher education research and equitable perspectives; Formal and informal teacher education programs that span from early childhood educators to the complexity of preparation, to the role of informal settings such as museums; Continuous professional learning of science teachers that supports building cultural responsiveness and teacher leadership; Core topics in science teacher education that focus on teacher knowledge, educative curricula, and working with all students; and Emerging areas in science teacher education such as STEM education, global education, and identity development. This comprehensive, in-depth text will be central to the work of science teacher educators, researchers in the field of science education, and all those who work closely with science teachers.

    Price: 250.00 £ | Shipping*: 0.00 £
  • Levels Unawatuna
    Levels Unawatuna


    Price: 35 € | Shipping*: 0.00 €
  • Handbook of Research on Science Education : Volume III
    Handbook of Research on Science Education : Volume III

    Volume III of this landmark synthesis of research offers a comprehensive, state-of-the-art survey highlighting new and emerging research perspectives in science education. Building on the foundations set in Volumes I and II, Volume III provides a globally minded, up-to-the-minute survey of the science education research community and represents the diversity of the field.Each chapter has been updated with new research and new content, and Volume III has been further developed to include new and expanded coverage on astronomy and space education, epistemic practices related to socioscientific issues,design-based research, interdisciplinary and STEM education, inclusive science education, and the global impact of nature of science and scientific inquiry literacy. As with the previous volumes, Volume III is organized around six themes: theory and methods of science education research; science learning; diversity and equity; science teaching; curriculum and assessment; and science teacher education.Each chapter presents an integrative review of the research on the topic it addresses, pulling together the existing research, working to understand historical trends and patterns in that body of scholarship, describing how the issue is conceptualized within the literature, how methods and theories have shaped the outcomes of the research, and where the strengths, weaknesses, and gaps are in the literature. Providing guidance to science education faculty, scholars, and graduate students, and pointing towards future directions of the field, Handbook of Research on Science Education Research, Volume III offers an essential resource to all members of the science education community.

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  • Gender Differences in Technology and Innovation Management : Insights from Experimental Research
    Gender Differences in Technology and Innovation Management : Insights from Experimental Research

    Even though the number of working women has steadily increased over the last few years, women are still significantly under-represented in STEM activities (i.e. mathematics, informatics, science and technology). In order to eliminate this under-representation, numerous education policies and corporate initiatives, particularly in the recent past, have been aimed at increasing women's enthusiasm for STEM activities and professions.According to the latest surveys, however, it is clear that these efforts have not yet led to the desired success.Compared to their male counterparts, women continue to do fewer STEM activities. One possible reason for this is that relatively little is yet known about the concrete impact of the above education policies on working with innovation and technology: What are the gender differences between women and men?Is it enough to recognize these differences, or should these differences ideally not only be recognized, but also treated appropriately or even encouraged? This anthology deals with current topics in technology and innovation management against the background of these and other gender-relevant aspects.Empirical analyses and experiments in collaboration with companies from various sectors provide a sound scientific basis on which new results and findings are presented: How do women and men deal with creativity and competition?How are technologies applied and how can differences in access to technology be deduced? Answers to these and other questions help decision-makers in politics and business to proactively use the differences between women and men to motivate women to work in the STEM field and to strengthen them by acknowledging existing differences.

    Price: 96.50 £ | Shipping*: 0.00 £
  • How are the difficulty levels of uploaded levels in Geometry Dash determined?

    The difficulty levels of uploaded levels in Geometry Dash are determined by the creator of the level. The creator assigns a difficulty rating to their level based on factors such as the speed of the gameplay, complexity of the obstacles, and overall level design. Players can then see the difficulty rating before attempting to play the level, allowing them to choose levels that match their skill level.

  • Why are some people envious of people with high levels of education?

    Some people may feel envious of individuals with high levels of education because they perceive them as having more opportunities, higher social status, and better job prospects. This can lead to feelings of inadequacy or comparison, especially if they themselves do not have the same level of education. Additionally, individuals may envy the knowledge and expertise that comes with higher education, wishing they had the same level of intellectual capacity or recognition.

  • How do inferiority complexes manifest in individuals with low levels of education?

    Individuals with low levels of education may manifest inferiority complexes in various ways. They may feel inadequate or insecure in social or professional settings, leading to self-doubt and a lack of confidence. This can result in a fear of speaking up or expressing their opinions, as well as a tendency to compare themselves unfavorably to others. Additionally, they may struggle with imposter syndrome, feeling like they don't belong or aren't capable of success in certain environments. These feelings of inferiority can impact their mental well-being and hinder their ability to reach their full potential.

  • What are the effects of low vitamin D levels and low B12 levels?

    Low vitamin D levels can lead to weakened bones, increased risk of fractures, muscle weakness, and a weakened immune system. On the other hand, low B12 levels can cause fatigue, weakness, anemia, nerve damage, and cognitive issues. It is important to maintain adequate levels of both vitamins to support overall health and well-being.

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