Physical and Biophysical Foundation of Biotechnology II

Data

Official data in SubjectManager for the following academic year: 2024-2025

Topic

The aim of the course is to familiarize students with the principles and laws of physics and biophysics that underlie the structure and function of biological systems as well as the principles behind methods and equipment used in biotechnological procedures. In addition to the transfer of basic knowledge, the aim of the training is to broaden the general knowledge of natural sciences and to present some special applications. The aim of the practices is to familiarize students with the use of measuring instruments and experimental tools, as well as the evaluation and analysis of measurement data.

Lectures

• 1. Magnetism - Grama László
• 2. Electromagnetic induction, alternating current - Grama László
• 3. Electromagnetic waves - Takács-Kollár Veronika Tünde
• 4. Wave optics - Takács-Kollár Veronika Tünde
• 5. Geometric optics - Trombitás Norbert
• 6. Vision and optical instruments - Huberné Barkó Szilvia
• 7. Quantum physics - Zalai Zsófia
• 8. Atomic physics - Trombitás Norbert
• 9. X-rays - Telek Elek
• 10. Lasers - Telek Elek
• 11. Fluorescence - Pécsi Ildikó
• 12. Nuclear physics, radioactivity - Szabó-Meleg Edina
• 13. Radioactive radiations - Szabó-Meleg Edina
• 14. Effects of radioactive radiations, dosimetry - Szabó-Meleg Edina

Practices

• 1. Introduction
• 2. Introduction
• 3. Mathematical basics
• 4. Mathematical basics
• 5. Audiometry
• 6. Audiometry
• 7. Ultrasound
• 8. Ultrasound
• 9. Doppler-ultrasound
• 10. Doppler-ultrasound
• 11. Geometric optics
• 12. Geometric optics
• 13. Wave optics
• 14. Wave optics
• 15. Light microscopy
• 16. Light microscopy
• 17. Geiger-Muller counter
• 18. Geiger-Muller counter
• 19. Gamma spectrometry and dosimetry
• 20. Gamma spectrometry and dosimetry
• 21. Absorption of beta-radiation
• 22. Absorption of beta-radiation
• 23. Absorption of gamma-radiation
• 24. Absorption of gamma-radiation
• 25. Make-up lab, seminar, consultation
• 26. Make-up lab, seminar, consultation
• 27. Make-up lab, consultation
• 28. Make-up lab, consultation

Seminars

• 1. Magnetism - Grama László
• 2. Electromagnetic induction, alternating current - Grama László
• 3. Electromagnetic waves - Takács-Kollár Veronika Tünde
• 4. Wave optics - Takács-Kollár Veronika Tünde
• 5. Geometric optics - Trombitás Norbert
• 6. Vision and optical instruments - Huberné Barkó Szilvia
• 7. Quantum physics - Zalai Zsófia
• 8. Atomic physics - Trombitás Norbert
• 9. X-rays - Telek Elek
• 10. Lasers - Telek Elek
• 11. Fluorescence - Pécsi Ildikó
• 12. Nuclear physics, radioactivity - Szabó-Meleg Edina
• 13. Radioactive radiations - Szabó-Meleg Edina
• 14. Effects of radioactive radiations, dosimetry - Szabó-Meleg Edina

Reading material

Obligatory literature

College Physics 2e, OpenStax, ISBN-13: 978-1-951693-60-2

Literature developed by the Department

Available on Teams, Moodle or PotePedia platforms.

Notes

Biophysics Practicals, Pécs University Press, Pécs

Recommended literature

Halliday, Resnick, Walker: Fundamentals of Physics, Wiley, ISBN-13: 978-0471216438 ISBN-10: 0471216437

Conditions for acceptance of the semester

Completion and proper documentation of all laboratory practicals and approval of lab reports by the lab instructor. No more than 2 absences from practices.

Mid-term exams

Midterm test from the theory material that can provide exemption from the exam.

Making up for missed classes

Missed practices can be made up during make-up opportunities provided by the department. During each make-up lab, only one missed practice can be made up with the student's own group.

Exam topics/questions

Available on Teams, Moodle or PotePedia platforms.

Examiners

• Grama László

Instructor / tutor of practices and seminars

• KURZUSHOZ RENDELT OKTATÓ