Abstract
The rapidly evolving landscape of global industry, driven by advancements in artificial intelligence, sustainability imperatives, and pervasive digitalization, demands a parallel and urgent evolution in engineering pedagogy. Traditional, heavily instructive models, focused on passive knowledge transfer through lectures, are proving insufficient for cultivating engineers who are not only technically proficient but also adept at complex problem-solving, multidisciplinary collaboration, and systemic innovation. This article explores the critical pedagogical frameworks and evidence-based teaching methods that are actively reshaping modern engineering education to meet this challenge. It argues for a strategic and intentional shift towards blended, student-centred, and digitally enhanced learning environments that effectively bridge the persistent gap between theoretical knowledge and practical, impactful application. The discussion is grounded in an analysis of prevalent methods such as Project-Based Learning (PjBL), flipped classrooms, and technology-enhanced simulation, highlighting their role in developing crucial professional skills. Supported by recent data on industry skill gaps and longitudinal educational outcomes, the paper demonstrates how these approaches correlate with improved conceptual retention, higher student engagement, and better preparedness for the workforce. Ultimately, this paper provides a coherent roadmap for educators and institutions to redesign curricula and teaching practices, aiming to cultivate the next generation of agile, ethical, and competent engineers equipped to tackle the complex, real-world challenges of the 21st century. Furthermore, the paper addresses the significant barrier of faculty development and institutional change management, acknowledging that the adoption of innovative pedagogy requires sustained support and a cultural shift within engineering departments. It concludes by framing this pedagogical transformation not as a rejection of foundational rigor, but as its essential evolution, ensuring that graduates are truly practice ready. By synthesizing current research with practical implementation strategies, this work serves as a critical resource for advancing the scholarship of teaching and learning (SoTL) within the engineering discipline.