J. Frey, Elizabeth Adams, Shaobo Huang, Christopher Elash
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引用次数: 0
Abstract
Most common-core first year engineering programs in Canada include an introduction to electric circuits and electromagnetic physics. The launch of the RE-ENGINEERED first year program at the University of Saskatchewan has provided an opportunity to try something different in this arena. The RE-ENGINEERED program includes a “spine” of electric circuit analysis and the related physics that runs through both semesters of the first year.
The modular and highly integrated structure of the RE-ENGINEERED program has allowed for accelerated courses that take advantage of timely learning in other courses. In the fall term, students are introduced to direct-current, resistive circuit analysis in a six-week, fifteen-contact-hour module. In the winter term, they experience an accelerated physics course which covers the electricity, magnetism, capacitance, and inductance concepts often taught in tandem with basic circuit analysis. The students then finish the winter term with an intensive course on alternating-current circuit analysis.
The fall term course fully adopts the competency based assessment system of the RE-ENGINEERED program, and uses in-house-developed quizzes and tutorials on the most basic concepts and calculations to scaffold students to solving more complex circuit analysis problems. The course forgoes a hands-on lab component and focuses on circuit simulation using an open-source simulation package. Concurrent math and MATLAB courses introduce required linear algebra concepts just in time for use in the circuit analysis problems.
This paper describes the development and delivery of the fall term course, including how the learning outcomes were synthesized and then used as the basis for the development of all other aspects of the course to ensure constructive alignment. Instructor and student impressions of the first delivery of the course are presented along how lessons learned will be applied to modify the course for future offerings.
在加拿大,最常见的一年级工程课程包括电路和电磁物理的介绍。萨斯喀彻温大学(University of Saskatchewan)推出的“重新设计”(RE-ENGINEERED)第一年项目为在这一领域尝试不同的东西提供了机会。重新设计的课程包括电路分析的“主干”和贯穿第一年两个学期的相关物理。reengineered项目的模块化和高度集成的结构允许加速课程,利用其他课程的及时学习。在秋季学期,学生将在为期六周,15个接触小时的模块中学习直流电阻电路分析。在冬季学期,他们将经历一门加速物理课程,涵盖电、磁、电容和电感概念,通常与基本电路分析一起教授。学生们在冬季学期结束时将学习交流电路分析的强化课程。秋季课程完全采用reengineered program的能力评估体系,并使用内部开发的测试和教程,以最基本的概念和计算来帮助学生解决更复杂的电路分析问题。本课程放弃动手实验组件,并着重于使用开源仿真包进行电路仿真。并行数学和MATLAB课程及时介绍了必要的线性代数概念,以便在电路分析问题中使用。本文描述了秋季学期课程的开发和交付,包括如何综合学习成果,然后将其用作课程所有其他方面开发的基础,以确保建设性的一致性。教师和学生对课程第一次交付的印象,以及如何将所学到的经验教训应用于修改课程以适应未来的课程。
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