The purpose of this study is to obtain basic data for the purpose of training electrical engineering professionals by analyzing and comparing the thinking process of experts and novices in resolving problems occurring in electric circuits. Four professors of electrical engineering and seven university students who had taken a subject on electric circuit participated in the study, as experts and novices respectively. Each participant was asked to solve electric circuit problems with differing levels of complexity of high, medium, and low, using the think-aloud protocol. The performance of individual participants was recorded with a tablet PC and a video camera. The recordings were used for the analysis of the thinking process based on the codes of problem-solving processes. The coding was done using InterAct 8. The differences between the two groups were identified as follows. Firstly, the frequency of performance and the time required for each stage of problem solving were different between the groups depending on the complexity of problems. With high-complexity problems, the novices showed a higher frequency and required more time for understanding (U) and evaluation (E), whereas the experts for planning (P). With medium-complexity problems, the novices showed a higher frequency and required more time for evaluation (E), whereas the experts for planning (P). With low-complexity problems, the novices showed a higher frequency and required more time for planning (P), whereas the experts for understanding (U) and evaluation (E). Secondly, the frequency of performance and the time required for each problem solving activity were different between the groups depending on the complexity of problems. With high-complexity problems, the experts showed a higher frequency and required more time for specifying the circuit (U4), confirming the applied method (P1), and doing mathematics (C3), whereas the novices for reading the problem (U1), specifying the problem (U3) and evaluating the solution (E4). With medium-complexity problems, the experts showed a higher frequency and required more time for confirming the applied method (P1), transforming the circuit (C1) and evaluating the solution (E4), whereas the novices for doing mathematics (C3) and evaluating the mathematical process of problem solving (E3). With low-complexity problems, the experts showed a higher frequency and required more time for specifying the circuit (U4), transforming the circuit (C1), doing mathematics (C3), evaluating the problem at hand (E1) and evaluating the solution (E4), whereas the novices for reading the problem (U1) and confirming the circuit (U2).