This program was initiated in the academic year 2000/2001 with the goal of contributing to the process of scientific progress, elevating the standard of technical and applied education, and supplying the labor market with distinguished graduates capable of working in various vital life sectors and excelling in teaching. The curriculum encompasses 130 credit hours, comprising both theoretical and practical components conducted in the department's state-of-the-art laboratories. The aim is to establish a comprehensive knowledge foundation for graduates, covering fundamental concepts and theoretical laws while bridging the gap between theory and practice. This approach equips them with the skills to proficiently operate various measuring devices and a clear understanding of their physical principles.

Furthermore, students have the opportunity to undergo training in practical or industrial institutions, allowing them to gain applied experience in their field.

Advantages of This Program:

The Applied Physics program, with its comprehensive study plan, aligns seamlessly with the needs of the Palestinian society and adheres to the college's policy of offering programs with practical applications. Beyond producing specialists in physics, encompassing both scientific and theoretical aspects, the program uniquely equips graduates to engage with medical, electronic, and astronomical sciences. By integrating their knowledge of theoretical and applied physics, graduates become invaluable contributors, positioned as rare and essential professionals important for the ongoing development of Palestinian society and its interests.

The Applied Physics Department boasts numerous state-of-the-art practical laboratories, covering areas such as mechanics, electricity and magnetism, waves and vibrations, optics, electronics, intermediate practical physics, atomic and nuclear physics, and solid-state physics. This diverse practical exposure enhances the graduate's ability to apply theoretical knowledge to real-world scenarios, further distinguishing them in their field.

Aspirations in Applied Physics:

Those overseeing this specialization aspire to stay abreast of recent advancements across a spectrum of disciplines within applied physics, including but not limited to atomic, molecular, optical, information physics, materials, solid state, nuclear, elementary particles, statistics, theory, mathematics, and all other branches of applied physics. The goal is to continually align the program with cutting-edge developments, ensuring that graduates are well-equipped with the latest knowledge and skills demanded by evolving scientific landscapes.

Furthermore, there is a commitment to activate various physical sciences by conducting seminars and conferences. These events serve as platforms to enlighten society about the pivotal role played by applied physical sciences. By fostering a deeper understanding of the significance and applications of these sciences, the aim is to contribute to the broader awareness and appreciation of the field among the public and within the scientific community.

1. Meeting Labor Market Demands: The primary objective is to supply the labor market, both in the public and private sectors, with highly qualified specialists in the field of physics.
2. Educational Needs: Addressing the demand for proficient physics educators in public and private schools to ensure high-quality teaching in physics.
3. Job Opportunities: Providing diverse job opportunities for graduates, including roles in factories and hospitals, particularly in fields related to medical physics (radiology) and optical physics.

1. Graduates can pursue careers in teaching at various educational levels, contributing to the development of the next generation's understanding of physics.
2. The program facilitates the possibility of further academic advancement through postgraduate studies in physics, allowing graduates to deepen their expertise and contribute to advanced research.
3. Opportunities exist for graduates to work in research centers and other institutions as specialized physicists. This includes holding scientific expertise in electronics, physics, and optics, contributing to advancements in these fields.
4. Graduates can secure positions in official, scientific, and research institutions, including but not limited to roles in factories and hospitals. This allows them to apply their knowledge and skills in real-world settings, advancing scientific and technological progress in various industries.