INFLUENCE OF LEARNING PREFERENCE ON SELF-EFFICACY AND PERFORMANCE IN MIXED-MODALITY FIRST-YEAR ENGINEERING DESIGN

All students have preferences for the way they receive and distribute information when the objective is learning. These preferences can be shown to have an effect on self-efficacy and on performance. The relationships between learning preference, self-efficacy and performance were studied using survey and grade data obtained from a first-year Engineering Design and Graphics course. The students were placed in one of three groups according to the modality (type) of design project they were given; a Simulation-Based project (SIM) using a software simulation tool, a Prototyping project (PRT) using a 3D printer, or a Simulation and Prototyping project (SAP) where they had to complete a design using both tools. Participants were given a custom survey that assessed self-efficacy and the VARK learning styles inventory which assesses learners on Visual, Aural, Read / Write and Kinesthetic learning preferences. 97 students were surveyed representing a response rate of 22.6%. Student performance was assessed by examining scores on a subset of questions related to design visualization on the final examination for the course. Data analysis involved examining the correlation between learning style and self-efficacy, and scores on final examination for each of the three course modality groups. Findings from this study include higher performance for Kinesthetic learners assigned a simulation-based project and low performance for Read/Write learners with a prototyping project. This study supports the hypothesis that student performance may depend on learning preferences coupled with design project modality.