Although much of the scientific community concerns itself with ideas of a sustainable future, very little of this interest and motivation has reached the classroom experience of the average chemistry major, and therefore, it is imperative to expose students to these ideas early in their careers. The focus of most undergraduate chemistry curricula…

A series of pedagogical problem set exercises are posed that illustrate the principles behind material efficiency green metrics and their application in developing a deeper understanding of reaction and synthesis plan analysis and strategies to optimize them. Rigorous, yet simple, mathematical proofs are given for some of the fundamental concepts,…

This project introduces the idea of "flipped lecturing" to a group of second-year undergraduate students. The aim of flipped lecturing is to provide much of the "content delivery" of the lecture in advance, so that the lecture hour can be devoted to more in-depth discussion, problem solving, and so on. As well as development of…

Research has consistently shown that active problem-solving in a collaborative environment supports more effective learning than the traditional lecture approach. In this study, a flipped classroom format was implemented and evaluated in the chemistry majors' sequence at Purdue University over a period of three years. What was formerly lecture…

A peer mentoring program was added to an introductory chemistry course at a large university. The introductory chemistry course prepares students with little or no previous chemistry background to enter the mainstream general chemistry sequence and is part lecture and part small-group problem-solving. Faculty instructors are responsible for the…

Because of drawbacks to the traditional lecture method, general chemistry lectures were stopped at appropriate times to allow students to complete prepared worksheets on problems related to current lecture material. Discusses rationale for and mechanics of the approach, including sample-problem worksheets used. (JN)

Identifies problems facing the science educator as a result of the activities of professional educationalists and the knowledge explosion. Presents answers to these problems in an enumeration of the basic ingredients of scientific education, a consideration of the overall curriculum, and a discourse on the art of teaching. (GS)

Lists 36 topics that may optimize the effectiveness of teaching and learning in the scientific disciplines at the university level. Topics are related to planning for instruction, the role of a syllabus in guiding instruction, and interaction strategies. (DDR)

Alternatives to traditional, large-class lecturing are discussed. They include using canned lectures, demonstrations and lecture experiments, computer simulations, problem-solving strategies, breaks during lectures, and movies. Moving out of large classrooms to laboratories and resource rooms (or giving an examination) is also suggested. (JN)

This article uses student feedback to explore student attitudes towards the use of lecture breaks. The survey illustrates that undergraduates genuinely value such breaks, finding them educationally useful and enhancing their enjoyment of the lecture experience. By comparing and contrasting the perceived value of different types of lecture breaks,…

Describes a sequence of five experimental courses in chemical engineering that are designed to meet the needs of students with various learning styles. The courses use a variety of teaching methods and are designed to develop and enhance creative problem-solving. (DDR)