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An Invitation to Fractal Geometry : Fractal Dimensions, Self-Similarity and Fractal Curves
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An Invitation to Fractal Geometry : Fractal Dimensions, Self-Similarity and Fractal Curves
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Innovation Competency Model : Shaping Faculty Academic Innovation Development in China's Higher Education
Contributing to the discussion over China's higher education development, this book takes a theoretical approach to address the topic of university academics' innovation by introducing an academic innovation competency model, exploring the contexts, concepts and practices.The innovation competency model comprises three interdependent dimensions, including the academic internal drive vitality, the academic synthesizing refined ability and the academic suspected and introspective ability.By enriching the theory of professional development of university teachers, these three dimensions will help advance the reform of college personnel systems and ultimately improve the quality of China's higher education. The book will be valuable to researchers, students and stakeholders hoping to learn about education reform in China, or to those who study higher education management and comparative education.
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Rethinking Education for Sustainable Development : Research, Policy and Practice
This book explores how education can be used as a tool to promote sustainability practices as the world faces huge challenges related to climate change and public health.The chapters consider all types of literacy approaches that fall under the umbrella of Education for Sustainable Development (ESD).These approaches include scientific literacy, ecological literacy, health literacy, education on climate change and climate resilience, environmental education and others linking education, global health, and the environment more broadly. “Education” is used in the widest sense to incorporate non-formal, informal and formal/school settings.This volume will help to bring these interconnected areas together and interrogate their research methods, assumptions, field-based application and their policy potential.Taking a critical approach to ESD, the book suggests new pedagogies, tools, and technologies to strengthen the way we educate about sustainability issues and go beyond the current thinking about ESD.The book includes a foreword by Jeffrey Sachs, Director of the Center for Sustainable Development at Columbia University, USA.
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What are similarity ratios?
Similarity ratios are ratios that compare the corresponding sides of two similar figures. They help us understand the relationship between the sides of similar shapes. The ratio of corresponding sides in similar figures is always the same, which means that if you know the ratio of one pair of sides, you can use it to find the ratio of other pairs of sides. Similarity ratios are important in geometry and are used to solve problems involving similar figures.
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What is the difference between similarity theorem 1 and similarity theorem 2?
Similarity theorem 1, also known as the Angle-Angle (AA) similarity theorem, states that if two angles of one triangle are congruent to two angles of another triangle, then the triangles are similar. On the other hand, similarity theorem 2, also known as the Side-Angle-Side (SAS) similarity theorem, states that if two sides of one triangle are proportional to two sides of another triangle and the included angles are congruent, then the triangles are similar. The main difference between the two theorems is the criteria for establishing similarity - AA theorem focuses on angle congruence, while SAS theorem focuses on both side proportionality and angle congruence.
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How can one calculate the similarity factor to determine the similarity of triangles?
The similarity factor can be calculated by comparing the corresponding sides of two triangles. To do this, one can divide the length of one side of the first triangle by the length of the corresponding side of the second triangle. This process is repeated for all three pairs of corresponding sides. If the ratios of the corresponding sides are equal, then the triangles are similar, and the similarity factor will be 1. If the ratios are not equal, the similarity factor will be the ratio of the two triangles' areas.
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How can the similarity factor for determining the similarity of triangles be calculated?
The similarity factor for determining the similarity of triangles can be calculated by comparing the corresponding sides of the two triangles. If the ratio of the lengths of the corresponding sides of the two triangles is the same, then the triangles are similar. This ratio can be calculated by dividing the length of one side of a triangle by the length of the corresponding side of the other triangle. If all three ratios of corresponding sides are equal, then the triangles are similar. This is known as the similarity factor and is used to determine the similarity of triangles.
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Digital Holocaust Memory, Education and Research
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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.
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Do you see the similarity?
Yes, I see the similarity between the two concepts. Both share common characteristics and features that make them comparable. The similarities can be observed in their structure, function, and behavior. These similarities help in understanding and drawing parallels between the two concepts.
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'How do you prove similarity?'
Similarity between two objects can be proven using various methods. One common method is to show that the corresponding angles of the two objects are congruent, and that the corresponding sides are in proportion to each other. Another method is to use transformations such as dilation, where one object can be scaled up or down to match the other object. Additionally, if the ratio of the lengths of corresponding sides is equal, then the two objects are similar. These methods can be used to prove similarity in geometric figures such as triangles or other polygons.
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What is similarity in mathematics?
In mathematics, similarity refers to the relationship between two objects or shapes that have the same shape but are not necessarily the same size. This means that the objects are proportional to each other, with corresponding angles being equal and corresponding sides being in the same ratio. Similarity is often used in geometry to compare and analyze shapes, allowing for the transfer of properties and measurements from one shape to another.
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What is the similarity ratio?
The similarity ratio is a comparison of the corresponding sides of two similar figures. It is used to determine how the dimensions of one figure compare to the dimensions of another figure when they are similar. The ratio is calculated by dividing the length of a side of one figure by the length of the corresponding side of the other figure. This ratio remains constant for all pairs of corresponding sides in similar figures.
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