Providing high-quality education in physics to qualify graduates capable of meeting the requirements of the labor market, enriching scientific research, and serving the community.
Knowledge and UnderstandingK1: Describe in depth the principles, concepts, and theories of classical physics, and comprehension of processes, techniques, and practices.K2: Recognize the broad range of modern physics foundations and the comprehension of research methodologies.
SkillsS1: Apply theories and solve problems, use critical thinking in classical and modern physics to develop creative solutions.S2: Use techniques and instruments with various complex practical activity procedures related to the physics field and analyze data.S3: Communicate effectively with others.S4: Use mathematical operations and information communication technology (ICT) to process and analyze data.
Values, Autonomy, and ResponsibilityV1: Demonstrate commitment to professional and academic values, standards, and ethical codes of conduct.V2: Plan for achieving academic and professional self-development and manage tasks autonomously and professionally.V3: Collaborate responsibly and constructively on leading teamwork and participate actively in developing the society
Study Plan
Course details
This course aims to improve students' English language skills in the fields of science and engineering, focusing on reading and writing.
Focuses on developing effective communication skills in various social and professional settings.
This course aims to enhance Arabic language skills in writing, reading, and comprehension.
Covers the fundamentals of calculus, such as derivatives, limits, and methods of mathematical determination.
Focuses on the essential digital skills needed to work in the digital age, including computer use and software applications.
Introduces concepts of Islamic culture, its history, and core principles.
Discusses how family and community in Islam affect individuals and society.
Provides fundamental concepts in physics such as motion, forces, and energy.
Focuses on enhancing critical thinking and effective learning skills, with an emphasis on problem-solving.
Aims to enhance students' English language skills in science and engineering through conversations and discussions.
Introduces the fundamental principles of chemistry, such as chemical reactions and atomic structure.
Focuses on improving English language skills in specific scientific and engineering fields.
Covers the basics of statistics, such as probability distributions and statistical data analysis.
Introduces the basics of classical mechanics, such as motion and friction.
Focuses on studying oscillating systems and various types of waves, including sound waves.
Explores advanced concepts in calculus, such as integrals and partial derivatives.
Introduces basic concepts of entrepreneurship, such as starting businesses and innovating ideas.
Covers the basic laws of thermodynamics and heat.
Focuses on the fundamental principles of electricity and magnetism, such as electric and magnetic fields.
Focuses on learning scientific terminology and writing scientific papers.
Covers advanced classical mechanics, such as complex motions and internal forces.
Focuses on hands-on experiments that study mechanics and heat.
Focuses on ordinary differential equations, their types, and solutions.
Introduces mathematical foundations used in physics, such as linear algebra and mathematical analysis.
Explores advanced concepts in electricity and magnetism, such as changing fields.
Covers advanced mathematics in physics, such as partial differential equations.
Introduces fundamental concepts in modern physics, such as quantum mechanics and relativity.
Emphasizes the importance of volunteer work in society and its role in development.
Includes hands-on experiments focusing on electricity and magnetism.
Focuses on the study of light and optics, including properties of light waves and interference.
Focuses on hands-on experiments to study light and optics.
Covers the basic principles of quantum mechanics, such as wave functions and fundamental principles.
Studies statistical physics, such as energy distribution and probability distributions.
Covers the study of electromagnetic laws and theories.
Focuses on hands-on experiments that support concepts of modern physics.
Focuses on the basic principles of electronics, such as transistors and electric circuits.
Includes hands-on experiments in electronics.
Introduces basic concepts in solid state physics, such as electrical and optical properties of solid materials.
Focuses on hands-on experiments in nuclear physics, such as spectral analysis.
Covers the study of laser properties and applications in physics.
Focuses on using computing to solve physics problems.
Introduces basic principles of scientific research in physics and how to prepare scientific papers.
Includes hands-on experiments to study solid state physics.
Covers the basics of nuclear physics, such as nuclear reactions.
Requires students to carry out scientific research or practical application in the field of physics.
Requires students to participate in practical training in the field of physics.