High school physics homework serves as a crucial medium connecting classroom instruction with after-class consolidation, and its design quality directly influences teaching effectiveness and the cultivation of students' core disciplinary competencies. At present, high school physics homework is characterized by monotonous task types, insufficient hierarchical differentiation, and limited targeting, which constrains the development of students' learning initiative and thinking abilities. Based on constructivist learning theory and multiple intelligences theory, this paper explores specific strategies for optimizing high school physics homework design from four dimensions: homework objective orientation, task-type innovation, hierarchical structuring, and evaluation and feedback. Through scientifically designed homework, the study aims to enhance both the effectiveness and engagement of assignments, thereby supporting students in deepening their understanding of physics knowledge and improving disciplinary thinking and problem-solving abilities.
Liu Cheng-Jun (Wed,) studied this question.