Course Title Code Semester L+P Hour Credits ECTS
Basic Physics IV: Modern Physics FTO   206 4 2 2 4

Prerequisites and co-requisites Yok
Recommended Optional Programme Components None

Language of Instruction Turkish
Course Level First Cycle Programmes (Bachelor's Degree)
Course Type
Course Coordinator Asst.Prof.Dr. Nuri EMRAHOĞLU
Dr. Öğr. ÜyesiNURİ EMRAHOĞLU1. Öğretim Grup:A
Dr. Öğr. ÜyesiNURİ EMRAHOĞLU1. Öğretim Grup:B
To acquaint students with facts related to Modern Physics and Classical Physics and and their different approaches to the events.
Structure of the Atom: Atom models, energy levels, atomic and molecular spectra. Relativity: Time, size and mass. Theories of light, the light particle and the wave model, the photoelectric and Compton effect. Photons: Quant concept, black body radiation. Quantum Mechanics: Wave-particle duality, De Broglie waves, uncertainty principle. Semiconductors, energy bands in solids, semiconductors electrons and halls, the p-n junction, transistors. Atomic nucleus, and cell-rays,units used in radioactivity , radioactive decay law, human health effects of radiation, fission, fission. Solar energy, solar spectrum, the use of solar energy. Lasers and their applications, and applications of X-rays. Superconductivity.

Learning Outcomes
1) It compares the relative approach of the modern physics with the deterministic approach in classical physics.
2) In the 20th century, scientists who have worked in the field of physics are known and interpreted.
3) It uses the concepts of modern physics to describe the nature of photons and subatomic particles.
4) Compares the wave structure with the particle property of the light.
5) Discuss about time expansion, concurrency, twin paradox, length contraction and mass-energy transformation with respect to special relativity.
6) It recognizes that scientific knowledge is not definite, that different paradigms take place in the history of science, and that there is also a revolutionary structure of science.
7) Space is also questioning whether it is life.
8) Understands atomic structure.
9) Learns the blackbody clustering.
10) The Bhor understands that the atom model is valid for single electron atoms.
11) Learns the Schrödinger solution for multi-electron atoms.
12) de Broglie learns the law.
13) Heisenberg learns the uncertainty.
14) What is laser. How to get it. He learns the answer to his questions.
15) How about fission and fission. Learns the core reactions.