The main goal of this study was to investigate how students’ visual attention distribution during problem-solving for physics standardized test. A total of 30 undergraduate students voluntarily participated in the study. They were given 12 questions which includes four cognitive levels classify by Bloom taxonomies about kinematics while their eye movements while doing the test were recorded by FaceLAB eye-tracking system. The result first showed that when solving high-level questions, student tended to spend more time on those questions. Second, when solving analysis level questions, higher-level students of test achievement grouping had more regressions and inter-scanning count. It showed that analysis-level understanding is related to the ability to integrate information between picture areas and questions. In the interactive grouping of subject background and test achievement, the lower polytechnic group has more differences in eye movement patterns than the non-technical low group. Furthermore, in the group of successful and unsuccessful problem solving, it could be found that at the lower levels (memory, understanding, and application), the successful group spends less time reading than the unsuccessful group. It is inferred that the successful group in these levels has reached an automated program and can search for solutions faster. In particular, in the analysis problems, the eye movement in the correct answer area with the successful group is significantly different from that of the unsuccessful group, and the successful group is higher than the unsuccessful group in the key area. The other three levels of questions are different from this level. Most of the questions at the analysis level are related but not similar topics in the physics curriculum. Therefore, in the successful problem-solving group, they do have better reading comprehension skills. The research results can be used as a reference for the design of standardized test questions, and it is suggested that teachers should focus on the understanding and application of basic knowledge when teaching subject knowledge.