Based on the Scientific Inquiry Scoring Guide raised by the Oregon Department of Education (2002), this study developed a 16-hour course to help students complete science fair projects. The objective of the course is to help students to attain the 12 inquiry abilities from four aspects in the Scientific Inquiry Scoring Guide. Following a mixed-methodology approach and a convenience sampling strategy, this study recruited a total of 22 students who participated in the science fairs held in their school. Half of the students who received the instructional model were viewed as the experimental group, while the other half who participated in the science fairs merely was the control group. A total of two research questions would be discussed in this study. First, what changes did the students in the experimental group display on their abilities of inquiry as well as experimental error control after the course? Second, what changes did the experimental group and control group display on their abilities of inquiry as well as experimental error control after their participations of the science fairs? In the study, students were required to do actual experiments on sliding cars, in order to assess their scientific inquiry ability through a performance assessment. Another data collected during students' experiments included their experimental log, science fair activity records of the experimental group, and student interview data. Results showed that all the students from the experimental group had significant differences in four aspects of scientific inquiry ability, including experimental design, experimental operation, data processing, analyzing and interpreting, and the total scores (E.S.=2.27，p<0.05). By comparing the scores they gained from performance assessments and other qualitative data, impressive improvements were observed from students' performances during experiments, such as manipulating independent variables correctly, displaying the abilities of variable control and alteration regularly, identifying and deleting data errors, and making correct interpretation of graphs. For the second research question regarding between-group inquiry performance after science fairs, both of the experimental group and the control group showed significant improvements on the scores of their inquiry performance assessments (experimental group E.S.=1.51，p<0.005；control group E.S.=0.85，p<0.05). While comparing the scores of science fair projects, the experimental group had significantly higher scores than the control group did in the part of “analyzing and interpreting” (p<0.05). According to the qualitative data, this study identified the sources of students' concepts regarding experimental errors, the strategies that the students used to control errors which might occur during the experiments, and the types of students' interpretation on experimental errors. At last, based on the results of the study, school teachers can consider to applying the teaching model proposed in this study to train students how to accomplish their science fair and evaluating students' inquiry abilities through performance assessments.