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This study intended to provide such an opportunity to preservice teachers with a project-based learning (PBL) approach and an inquiry-based pedagogy to engage them in learning science, technology, engineering and mathematics (STEM) knowledge and skills of integration with adding an art component to STEM as science, technology, engineering, arts and mathematics (STEAM) for K-8 children, and developing their own STEAM tasks. The purpose of this project was to explore how STEAM integration in mathematics methods courses influenced K-8 preservice teachers' disposition and knowledge of STEAM integration.

This project used a mixed-research design in data collection and analysis to examine the effects of using the STEAM integration on preservice teachers' knowledge and disposition. The preservice teachers in two EDEL 462 classes in Spring 2019 participated in STEAM learning and development in the inquiry process of four steps of STEAM integration. Data collection includes the pre- and postquestionnaires on teachers' knowledge and disposition.

The results in this study show that the STEAM integration in the mathematics methods courses engaged preservice teachers in four steps of the inquiry process of connection, collaboration, communication and evaluation for STEAM integration using PBL approach. The preservice teachers not only enhanced their disposition in attitude and confidence but also enhanced their knowledge of STEAM integration.

The following conclusions can be drawn from the present study that integrating STEAM components in mathematics methods fosters preservice teachers' creativity, connection, communication, application and teamwork skills, and importantly, it enhances K-8 preservice teachers' productive dispositions and knowledge in STEAM integration.

The results of this study indicate that using math methods courses to engage preservice teachers in learning STEAM integration and designing authentic STEAM tasks in four steps enhanced preservice teachers' attitude and confidence that significantly related to their knowledge of STEAM integration.

These findings have significant implications for the understanding of how to prepare future teachers in STEAM integration in higher education.