The Gap Between Policy and Practice: Where Textbooks Fail Teachers
Guest author William Schmidt, university distinguished professor and founder and director of the Center for the Study of Curriculum Policy at Michigan State University and Shanker Institute Board member, discusses how mathematics education must provide all children not only the formal ideas, concepts, algorithms, and procedures that define mathematics, but also focus on opportunities to experience quantitative reasoning to solve higher-order real-world applications.
The world in which we now live has become increasingly complicated, not just in terms of artificial intelligence (AI), computers, robotics and other forms of technology, but in terms of the ways in which we acquire the knowledge we need to live, work and respond to the complicated issues that now confront the world’s population. Pandemics rage, economies plunge, and the occurrence of floods, hurricanes, tornadoes, and earthquakes increase exponentially in conjunction with climate change. Understanding these issues not only requires literacy in the sense of being able to comprehend what you read, but also requires mathematics literacy, such that a person is able to comprehend the necessary information that increasingly is numerical in nature and is often presented in graphical or tabular form.