Undergraduate Catalog

Bachelor of Science in Physics Requirements

Bachelor of Science in Physics

The BSc in Physics program involves the development of a great range of knowledge, skills, and competencies.  These may be summarized in terms of:

  • critical thinking, inventiveness and ability to address unforeseen problems
  • core physics knowledge, including basic concepts and the “canon” of physics topics
  • scientific and technical skills, including problem solving, use of advanced mathematics, modelling and simulations, generic experimental skills, coding and software use, data processing and analysis (including use of industry-standard software)
  • communication skills, including scientific presentations and writing (such as for professional conferences and journals) and the ability to communicate science content and outcomes to individuals untrained in science (such as investors, managers, general audience or young people)
  • professional and workplace skills, including problem solving, communication, management, working effectively with others, and dealing with constraints (applicable in a range of careers in industry, government, non-governmental organizations, teaching, or self-employment)

 

Prospects for employment opportunities for physics graduates is excellent. There is a growing demand in almost every sector of the job market.  Physicists are employed in many industries, including energy (nuclear power, oil, and gas), materials (petrochemicals and metals); aviation, aerospace, and defence; pharmaceuticals, biotechnology and life sciences; healthcare equipment and services; transportation, trade, and logistics; education; financial services; and telecommunications. 

Program Educational Objectives

The Physics BSc will provide students with:

  • Flexibility – to allow increased options for students to pursue interests and choices of courses aligned with career goals.
  • Career-relevant tracks – to better prepare students for diverse careers, especially targeting UAE needs and employment opportunities.
  • Capstone experiences that are career relevant – to provide meaningful integration of program learning outcomes with experiences with industry requirements and standard tools.
  • Applications and career-relevant skills as part of coursework – to connect the learning of physics principles and techniques with real-world and cross-disciplinary applications, contexts, and requirements; to introduce problem definition, project management, and authentic research experiences; to incorporate communication and professional skills development and use of industry-standard tools throughout the curriculum.
  • Co-curricular activities – to provide diverse opportunities for achieving learning outcomes via Department colloquia, interactions with alumni, student organization, outreach activities, undergraduate participation in teaching and research, site visits, advising and mentoring activities.

Program Learning Outcomes

Students graduating with a BSc in Physics will have achieved the following set of knowledge and performance based skills, and affective competencies:

  • Apply understanding of the sciences, mathematics, and other relevant disciplines to physics and integration of this knowledge to solve problems; apply crosscutting themes; apply laws of physics (demonstrate the breadth of physics specific knowledge).
  • Solve problems individually and collaboratively involving the integration of physics and other knowledge, development of theoretical solutions, use of various concept representations, computational methods, simulations, and experimental tests (demonstrate types of physics specific knowledge).
  • Solve complex, ambiguous problems in real-world contexts; relate and explain results, suggest follow-on steps, place results in perspective; demonstrate competence with 1) instrumentation, 2) professional software, 3) coding, and 4) data analytics (demonstrate the range of scientific and technical skills).
  • Identify appropriate approaches to a question or problem such as applying or developing theory, developing an analytic model, making rough estimates based on reasoned, specific strategies, performing an experiment, performing a simulation (demonstrate the selectivity of scientific and technical skills).
  • Obtain information and evaluate its accuracy by reading, listening, discussing; explain or persuade an audience on scientific or technical concepts; use feedback to revise and improve written work and other informative presentations (demonstrate the range of communication skills).
  • Organize and communicate about scientific and technical concepts for different audiences and contexts using various and appropriate communication methods and modalities (demonstrate selectivity of communication skills).
  • Demonstrate individual preparation for work and work collegially and collaboratively in diverse, interdisciplinary teams both as a leader and as a member in pursuing a common goal (demonstrate professional/workplace competency regarding autonomy and responsibility).
  • Identify independently what must be understood and learn it; generate new ideas; obtain knowledge about existing resources relevant for the task at hand (demonstrate professional/workplace competency regarding self-development).
  • Demonstrate familiarity with basic workplace concepts, issues, practices, professional conduct, and life skills (demonstrate professional/workplace competency in regard to a role in context).

Program Facilities

  • Studio-format courses are conducted in state-of-the-art classrooms and workshops that facilitate active learning, development of skills and appropriate habits of mind, and higher-order thinking, through cooperative and collaborative activities and projects.
  • Lecture-format courses are conducted in a traditional classroom setting using both the whiteboard and PowerPoint software.
  • Laboratory classes are conducted in Physics Laboratories equipped with state-of-the-art technology and equipment, designed for optimal instructional use and safety.

Professional Chapters and Clubs

Students are encouraged to take up Undergraduate Membership of one, or more, of the professional physical societies such as the Institute of Physics (IoP) and the American Physics Society (APS).  Students will also be encouraged to join an on-campus student Physics Club to help organize and participate student-focused seminars, activities, and competitions.

Degree Requirements

To be recommended for the degree of BSc in Physics, students must satisfactorily complete 124 credits from courses in specified categories, as set out below. In addition to University General Education Requirements (GERs, 45 credits), Mathematics/Science/Engineering Electives (4 credits), students must satisfy 75 credits of Major Requirements comprised of Additional Mathematics and Science Requirements (13 credits), Physics Core Requirements (43 credits), and Physics Technical Electives Requirements (15 credits).

Additional Science and Mathematics Requirements (13 credits)

Students must take the following four courses:

CHEM 116General Chemistry II

4

MATH 231Calculus III

3

MATH 204Linear Algebra

3

MATH 206Differential Equations

3

Physics Core Requirements (43 credits)

Students must take the following core courses:

PHYS 122University Physics II

4

PHYS 201Physics Instrumentation I

3

PHYS 211Computational Physics

4

PHYS 213University Physics III

4

PHYS 250Mathematical Physics

4

PHYS 311Intermediate Mechanics

3

PHYS 321Electricity and Magnetism I

4

PHYS 331Quantum Physics I

4

PHYS 340Thermal & Statistical Physics

4

PHYS 351Advanced laboratory I

3

PHYS 497Senior Project I

3

PHYS 498Senior Project II

3

Physics Technical Electives (15 credits)

To satisfy the BSc in Physics Technical Elective requirement, students must have a minimum of 15 credits from any of the courses in the following list:

PHYS 203Introduction to Astronomy

4

PHYS 231Optics

4

PHYS 295Introduction to Quantum Mechanics for Scientists and Engineers

3

PHYS 350Introduction to Nanophysics

3

PHYS 361Engineering Physics I

3

PHYS 362Engineering Physics II

3

PHYS 363Physics Instrumentation II

3

PHYS 371

3

PHYS 372

3

PHYS 381Introduction to Biological Physics

3

PHYS 482Introduction to Medical Physics

4

PHYS 403Observational Stellar and Galactic Astrophysics

3

PHYS 412Advanced Mechanics

3

PHYS 420Atomic and Molecular Physics

3

PHYS 422Electricity and Magnetism II

3

PHYS 431Solid State Physics

3

PHYS 432Quantum Physics II

4

PHYS 441Space Physics

3

PHYS 450Nuclear and Particle Physics

3

PHYS 452Advanced Laboratory II

3

PHYS 471Physics Education Practicum I

3

PHYS 472Physics Education Practicum II

3

 

PHYS 377Undergraduate Research

3

Or

PHYS 477Undergraduate Research

3

Mathematics/Science/Engineering Electives (4 credits)

Students must select at least four credits of Elective courses to develop depth and/or breadth of theoretical and/or experiential knowledge to support their career paths and individual interests. These courses are additional to the degree’s Technical Electives and must be upper-level (3XX or 4XX) courses in mathematics, science, or engineering. For example, these upper-level elective courses might help to satisfy the requirements of a Minor degree.

Math, Science, or Engineering Elective(s) (3XX or 4XX)

4

Physics BSc Tracks (Optional)

Physics students may select one of three available tracks before selecting their Technical Electives and their Mathematics/Science/Engineering Electives. These tracks are provided as a guide for the selection of courses and do not appear as a separate transcript record. The following courses are approved by the Physics Department for each track.

Engineering Physics Track (17 credits)

ENGR 111Engineering Design

4

PHYS 231Optics

4

PHYS 361Engineering Physics I

3

PHYS 362Engineering Physics II

3

PHYS 363Physics Instrumentation II

3

Space Science Track (17 credits)

PHYS 203Introduction to Astronomy

4

PHYS 231Optics

4

PHYS 363Physics Instrumentation II

3

PHYS 403Observational Stellar and Galactic Astrophysics

3

PHYS 441Space Physics

3

Physics Education Track (16 credits)

PHYS 203Introduction to Astronomy

4

SCED 467Introduction to Science Teaching

3

SCED 468Assessment and Practical Work in the Science Classroom

3

PHYS 471Physics Education Practicum I

3

PHYS 472Physics Education Practicum II

3