Our understanding of teaching and learning in higher education has changed dramatically in recent years. New models of teaching refer to student centered, active participation, and technology and social media integration among others. In additon, since 2003, ABET, the accreditation board for engineering and technology programs, introduced a set of skills, called professional skills that engineering graduates should possess such as multidisciplinary team work, ethical responsibility, effective communication, and life-long learning. Despite these efforts, a gap has been identified in the skills graduates have and those needed to succeed in the workplace (1). Moreover, pre-college preparation plays a big role in the level of success in STEM courses, and in consequence in the decision of students to stay in their programs. For some students, first year STEM courses are easy to take and for others they are very challenging and frequently they do not succeed. (2) In an effort to address the previous problems, the College of Engineering at Universidad Panamericana partnered with the Center for Innovation in Education to design an introductory physics course. The main objective of the program is to teach pre-college physics through project base learning (PBL), and to develop soft skills through well activities designed to work in teams in different projects. This paper is divided in two sections. The first section presents a description of the course including the design characteristics, the number of sections and students attending the class, and a brief description of the professors. The second section describes preliminary results of the focus group interview with the students participating in the class. Students described their professors' strengths and challenges in teaching the class such as their patience, the knowledge of the subject, and their difficulties of planning and managining time in the redesigned class. In addition, the refer to their learning experience as challenging and rewarding. They share how they were able to develop soft sills such as creativity, and critical thinking, problem solving, and verbal communication among others. Finally, students shared how they were able to relate the class content with the practical profession of engineering.
