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Advanced Physics Lab 1

Code: 40644
ECTS: 4.0
Lecturers in charge: izv. prof. dr. sc. Damjan Pelc
Lecturers: Ana Bokulić - Laboratory exercises
Om Prakash Dash , mag. phys. - Laboratory exercises
Ema Jajtić - Laboratory exercises
Take exam: Studomat

1. komponenta

Lecture typeTotal
Laboratory exercises 60
* Load is given in academic hour (1 academic hour = 45 minutes)
By performing advanced lab tasks, students will learn about the more complex aspects of experimental work, which is an indispensable part of research in physics. The knowledge gained from lectures in general physics students will be deepened by experimental work on individual problems, contributing to a deeper understanding of specific topics and acquiring experimental experience. They will be introduced to advanced devices for measurement of physical quantities and the building of experimental research measurement setups. At the Advanced Physics Lab, students have great autonomy in solving tasks, and each task will be performed in two consecutive terms, allowing them to form a working hypothesis based on the first experimental results, which can be confirmed or refuted on the second term. In this way, students will develop a comprehensive ability to solve problems in future research.

1.3 demonstrate a thorough knowledge of the most important physics theories (logical and mathematical structure, experimental support, described physical phenomena)
2.2 evaluate clearly the orders of magnitude in situations which are physically different, but show analogies, thus allowing the use of known solutions in new problems;
2.4 adapt available models to new experimental data
2.6 perform experiments independently using standard techniques, as well as to describe, analyze and critically evaluate experimental data
3.1 work with a high degree of autonomy, even accepting responsibilities in project planning and in the managing of structures
4.2 present one's own research or literature search results to professional as well as to lay audiences
5.3 carry out research by undertaking a PhD

Upon passing this course, the student will be able to:
* independently use measuring devices and apparatus, to perform complex experiments in the field of mechanics, electromagnetism, optics and thermodynamics;
* analyze the measured data using statistical methods and present the results on graphs;
* present the results of their work in the form of a written report, which is structured as a scientific paper, as well as a short oral presentation, which is structured as a talk at a scientific conference;
* connect theoretical knowledge with experiment and functioning of the parts of the apparatus;
* generalize the results of measurements, evaluate them critically, and interpret them in the light of the well-known theory;

Students independently perform five of the following 10 tasks:
Joule-Thomson effect: Students experimentally determined Joule-Thomson coefficient of N2 and CO2 gasses, and compare the results with values from literature and theoretical models.
Barometric formula: Students use the apparatus for the simulation of thermodynamic phenomena with glass balls and compare the height dependence of the number of balls height with predictions of barometric formula.
Electric oscillating circuit: Students study the dependence of impedance and phase shift on frequency, for serial and parallel RLC circuit. They also study the damped oscillations in RLC circuit.
Measurement of low resistances: Students learn how to measure electrical resistance method using four contacts method, and van der Pauw method.
Modulus of elasticity: Students measure the dependence of strain on the force using metal bars.
Free and forced oscillations: Using torsional pendulum with damping and driving motor, students study the behavior of free oscillations, dumped oscillations and driven oscillations.
Coupled pendula: Students study the phenomena of coupled oscillations in coupled pendula: the in-phase oscillations, the opposite phase oscillations, and the beat regime.
Stefan-Boltzmann law: Students use Moll thermocouple and a lamp to verify the Stefan-Boltzmann law.
Specific electron charge: Students use a narrow beam tube in which electrons are accelerated by an electron gun, and rotated using magnetic fields. By measuring the diameter of the electron path and the applied voltage and the magnetic field, students determine the specific electron charge.
Magnetic susceptibility of liquids: Students measure the magnetic susceptibility of solutions with different concentrations of paramagnetic salts.
Every task is performed in two consecutive terms.
Students must prepare themselves for each task. They assemble the apparatus independently and carry out measurements. During the second term, students repeat the measurements and / or carry out additional measurements and have short oral examination. They submit the written report the next time they come to the lab. At the end of the semester, students present the results of the last task orally before the instructor.
During the semester, students have short oral examination during every task and submit a written report after each task that is also evaluated. At the end of the semester, students present the results of the last task orally before the instructor. Weight factors in the final grade are: oral examination 30%, written reports 40%, and the final presentation 30%.
  1. pripreme za vježbe
  2. Požek, Miroslav; Dulčić, Antonije: Fizički praktikum I i II, Zagreb : Sunnypress, 1999.
Prerequisit for:
Enrollment :
Passed : General Physics 4
Passed : Introductory Physics Lab 2
5. semester
Mandatory course - Regular study - Physics
Consultations schedule: