This study aimed to measure the gender differences in cognition, skill, and individual interest during the implementation of a flipped classroom teaching approach in a high school technology course. A mixed methods approach was used to analyze collected data. Quantitative data were collected using a course feedback sheet and learning interest questionnaire. Qualitative data were collected using a learning questionnaire and student interviews. A total of 45 students (14 females; 31 males) from one class on solar vehicles in a high school located in southern Taiwan participated in this investigation. A nonparametric Mann-Whitney U analysis test showed no significant gender difference in cognition and skill in learning solar vehicles. Additional results from the same test, however, did show a significant gender difference for individual interest in learning solar vehicles at the end of the course. The analysis of quadratic curve grow model revealed that individual interest between female and male students first decreased and then increased. The qualitative findings showed that female students were more interested in the collaborative process during instruction, while male students were more interested in operating the solar vehicle. Finally, flipped instruction of technology course taught students to apply their cognition and skill in the experience of the practical operation of a solar vehicle. This study suggests that the flipped instruction design in a high school technology course affects boys' and girls' learning differently while providing a suitable learning environment.