A practical toolkit for educational professionals working in the continuing professional development of teachers. This book is for anyone delivering training and cascading learning in schools, regardless of phase, age or subject. It gives you the tools to become a fantastic trainer, and to think about how to measure and evaluate your impact. Contains 50 tried and tested training ideas, reflection activities, anecdotes, tips and lists to help you become the best trainer you can be.
A practical toolkit for educational professionals working in the continuing professional development of teachers. This book is for anyone delivering training and cascading learning in schools, regardless of phase, age or subject. It gives you the tools to become a fantastic trainer, and to think about how to measure and evaluate your impact. Contains 50 tried and tested training ideas, reflection activities, anecdotes, tips and lists to help you become the best trainer you can be.
How can teachers help children to develop reasoning skills? What is reasoning and how do we teach it? Much is being said in schools and education about the importance of reasoning skills. This book explores what reasoning is and what it is not. It includes examples of how reasoning in primary mathematics and science classes can develop. It shows how a connection between the 'skills' of mathematics and science can help children to gain a better understanding of reasoning. What is a conjecture? What makes you think? What makes you think about your thinking? What does reasoning look like? With links to classroom practice and examples of effective teaching throughout, this book not only provides an exploration of what reasoning is and why it's important-it also show you how to develop children's reasoning skills in your classroom.
How can teachers help children to develop reasoning skills? What is reasoning and how do we teach it? Much is being said in schools and education about the importance of reasoning skills. This book explores what reasoning is and what it is not. It includes examples of how reasoning in primary mathematics and science classes can develop. It shows how a connection between the 'skills' of mathematics and science can help children to gain a better understanding of reasoning. What is a conjecture? What makes you think? What makes you think about your thinking? What does reasoning look like? With links to classroom practice and examples of effective teaching throughout, this book not only provides an exploration of what reasoning is and why it's important-it also show you how to develop children's reasoning skills in your classroom.
Whether it is in the National Curriculum or the Teachers' Standards, promotion of children's curiosity is highlighted as a key part of effective teaching. Curiosity has the potential to enhance learning in all curriculum subjects but it has a special connection with scientific thinking. A curious approach can open up learning in science, computing, design technology and mathematics. This text explores how teachers can harness the power of curiosity in their classroom. Full of practical teaching ideas for engaging learners and making lessons more exciting, it highlights the ways in which STEM subjects can be taught together. Coverage includes: the place of curiosity in subject teaching how curiosity contributes to a learner's overall capability examples of curiosity in primary STEM classes case studies which exemplify curiosity.
Whether it is in the National Curriculum or the Teachers' Standards, promotion of children's curiosity is highlighted as a key part of effective teaching. Curiosity has the potential to enhance learning in all curriculum subjects but it has a special connection with scientific thinking. A curious approach can open up learning in science, computing, design technology and mathematics. This text explores how teachers can harness the power of curiosity in their classroom. Full of practical teaching ideas for engaging learners and making lessons more exciting, it highlights the ways in which STEM subjects can be taught together. Coverage includes: the place of curiosity in subject teaching how curiosity contributes to a learner's overall capability examples of curiosity in primary STEM classes case studies which exemplify curiosity.
