<p>1. Introduction<br>&nbsp; - Background of the study<br>&nbsp; - Rationale for using models in science education<br>&nbsp; - Research objectives<br>2. Literature Review<br>&nbsp; - Theoretical framework for model-based learning<br>&nbsp; - Types of atomic models and their educational value<br>&nbsp; - Previous research on the use of models in chemistry education<br>3. Methodology<br>&nbsp; - Research design<br>&nbsp; - Participant selection<br>&nbsp; - Instructional interventions<br>&nbsp; - Data collection and assessment methods<br>4. Implementation of Model-Based Instruction<br>&nbsp; - Selection of atomic models<br>&nbsp; - Integration into the curriculum<br>&nbsp; - Student engagement with models<br>5. Assessment of Student Learning<br>&nbsp; - Pre-test and post-test design<br>&nbsp; - Evaluation of student comprehension<br>&nbsp; - Visualization of atomic structure<br></p>