Why Don’t Students Like School began as a list of nine principles that are so fundamental to the mind’s operation that they do not change as circumstances change. They are true in the classroom as they are in the laboratory and therefore can reliably be applied to classroom situations. These nine principles are presented in the form of nine questions and answers, in pursuit of two goals: to tell you how your students’ minds work, and to clarify how to use that knowledge to be a better teacher. From each answer springs a cognitive principle that is further explored with a focus on what it implies for the classroom. As such, Why Don’t Students Like School serves nine guiding cognitive principles alongside the elaborate answers to questions that most teachers are likely preoccupied with.
"Willingham's thesis is that students don't like school because their teachers don't have a full understanding of certain cognitive principles and therefore don't teach as well as they could." Natural Child
"Cognitive scientist Dan Willingham focuses his acclaimed research on the biological and cognitive basis of learning. His book will help teachers improve their practice by explaining how they and their students think and learn." Gates Notes
"Within the span of 165 pages, which are sprinkled with photos of contemporary figures and objects, graphs and text boxes, Willingham explains nine tried and true theories of cognitive science in accessible and entertaining ways." Center for Teaching Excellence of the University of Virginia
In order to orchestrate optimal learning, we must have an understanding of how the brain learns and what is required prior to the introduction of new information. The purpose of this book is to inform you about the complexity of students’ brains and, thus, the challenge and importance of teaching. Our
Let’s acknowledge two fundamental facts. First, students who attend school from kindergarten through secondary school typically spend more than 13,000 hours of their developing brain’s time in the presence of teachers. Second, their brains are highly susceptible to environmental influences—social, physical, cognitive, and emotional. And, more important, their brains will be
In Multiple Intelligences in the Classroom, Thomas Armstrong describes how educators can bring Howard Gardner's theory of multiple intelligences into the classroom every day. Combining clear explanations and practical advice, Multiple Intelligences in the Classroom is an excellent guide to identifying, nurturing, and supporting the unique capabilities of evey student.
How do the arts stack up as a major discipline? What is their effect on the brain, learning, and human development? How might schools best implement and assess an arts program?? Eric Jensen answers these questions C and more C in this book. To push for higher standards of learning, many
Girls need your support, as there is so much in their lives that works against them to succeed academically especially in the science, technology, engineering, and math (STEM) courses. They may not ever want to continue in these courses into college, but they should be given the chance to do well.
There is a wide recognition around the world that the traditional models of schooling are no longer fit for purpose. Teaching is an extraordinary profession, a vocation and, above all, a great privilege. However, teachers cannot educate children by themselves. It is not teachers or parents who are the shapers of
This book tackles the development of the education model and the reasons why students don't like schools. The education model is teacher-focused, one-size-fits-all, and the student is isolated in the learning process. Yet the students, who have grown up in an interactive digital world, learn differently. Schooled on Google and Wikipedia,
It’s a good idea not to shrug off that concern but instead to put measures in place to deal with it.
Contrary to popular belief, the brain is not designed for thinking. It’s designed to save you from having to think.
If schoolwork is always just a bit too difficult for a student, it should be no surprise that she doesn’t like school much.
Experts are not simply better at thinking in their chosen field than novices are; experts actually think in ways that are qualitatively different.
Our genetic inheritance does impact our intelligence, but it seems to do so mostly through the environment.