Physics shows
Since 1953, the Lublin Branch of the Polish Physical Society together with the Institute of Physics of the Maria Curie-Skłodowska University (recently also the Association of the Lublin Educational and Scientific Society) have been organizing Physics Shows. It is an event with the longest tradition in the country among its kind. The shows are intended for students, teachers and anyone interested in physics.
The idea of the Shows in Physics is to popularize physics and help in teaching it by presenting thematically selected, interesting and sometimes even fascinating experiments. Experiments that are difficult or impossible to perform in school conditions are shown, as well as those that can be repeated at home using the simplest means. Every year, in the atmosphere of having fun with physics, the Shows at the Institute of Physics of UMCS are watched by several thousand spectators.
62. Demonstrations in Physics
September 8-28, 2022
Electrostatics: Marek Gorgol, Paweł Wnuk
Fluids: Bozena Zgardzinska, Wojciech Kowalski
Rotational movement: Krzysztof Pyszniak, Andrzej Dździel
Light and Eye: Marcin Turek, Artur Wójtowicz
61. Demonstrations in Physics
September 8-24, 2021
Acoustics: Krzysztof Pyszniak, Andrzej Droździel
(Non)atmospheric pressure: Bożena Zgardzińska, Wojciech Kowalski
Mechanics: Marcin Turek, Artur Wójtowicz
Electromagnetism: Marek Gorgol, Paweł Wnuk
60. Demonstrations in Physics
September 5-27, 2019
Rotational movement: Andrzej Droździel, Krzysztof Pyszniak
Phew, how hot ...: Bożena Zgardzińska, Zbigniew Surowiec
Electric current: Marek Gorgol, Paweł Wnuk
Resonances: Marcin Turek, Artur Wójtowicz
59. Demonstrations in Physics
September 6-28, 2018
Toy physics: Krzysztof Kiszczak, Paweł Wnuk
Blue Planet: Bożena Zgardzińska, Zbigniew Surowiec
The physics of flying: Andrzej Droździel, Krzysztof Pyszniak
Light and Eye: Marcin Turek, Artur Wójtowicz
58. Demonstrations in Physics
September 6-28, 2017
Electrostatics: Krzysztof Kiszczak, Paweł Wnuk
Radioactivity: Bożena Zgardzińska, Zbigniew Surowiec
Acoustics: Andrzej Droździel, Krzysztof Pyszniak
Mechanics: Marcin Turek, Artur Wójtowicz
57. Demonstrations in Physics
September 8-29, 2016
Electromagnetism: Krzysztof Kiszczak, Paweł Wnuk
Liquids: Bożena Zgardzińska, Zbigniew Surowiec
Physics of the human body: Andrzej Droździel, Krzysztof Pyszniak
Resonances: Marcin Turek, Artur Wójtowicz
56. Demonstrations in Physics
September 7-29, 2015
Electric current: Krzysztof Kiszczak, Paweł Wnuk
Radioactivity: Bożena Zgardzińska, Zbigniew Surowiec
The physics of flying: Andrzej Droździel, Krzysztof Pyszniak
Light and Eye: Marcin Turek, Artur Wójtowicz
55. Demonstrations in Physics
September 5-29, 2014
Through play to the laws of physics: Krzysztof Kiszczak, Paweł Wnuk
Vibrations and waves: Bożena Zgardzińska, Zbigniew Surowiec
And yet it spins: Andrzej Droździel, Krzysztof Pyszniak
Temperature and thermal effects: Artur Błażewicz, Marek Gorgol, Maciej Tydda
54. Demonstrations in Physics
September 6-30, 2013
Electrostatics: Juliuszciemniewski, Krzysztof Kiszczak
Low and high blood pressure: Bożena Zgardzińska, Zbigniew Surowiec, Karol Standzikowski
Acoustics: Andrzej Droździel, Krzysztof Pyszniak
Mechanics: Marcin Turek, Artur Wójtowicz
53. Demonstrations in Physics
September 6-28, 2012
Electromagnetism: Juliusz Cieniewski, Krzysztof Kiszczak
Fluid physics: Bożena Zgardzińska, Zbigniew Surowiec
Physics of the human body: Andrzej Droździel, Krzysztof Pyszniak
Everyday optics: Radosław Zaleski, Artur Błażewicz, Marek Gorgol, Maciej Tydda
52. Demonstrations in Physics
September 5-27, 2011
Radiation and radioactivity: Tomasz Kwapiński, Zbigniew Surowiec, Paweł Wnuk
Electricity: Juliuszciemniewski, Krzysztof Kiszczak
The physics of flying: Andrzej Droździel, Krzysztof Pyszniak
Resonances: Marcin Turek, Artur Wójtowicz
51. Demonstrations in Physics
September 6-28, 2010
Let's play cold-warm: Bożena Zgardzińska, Zbigniew Surowiec, Karol Standzikowski
Through play to the laws of physics: Juliuszciemniewski, Krzysztof Kiszczak
Rotational dynamics: Andrzej Droździel, Krzysztof Pyszniak
Optical phenomena - seeing: Artur Wójtowicz, Marcin Turek
50. Demonstrations in Physics
September 7-28, 2009
Acoustics: Zdzisław Zarębski, Roman Kazański
Electrostatics: Juliuszciemniewski, Krzysztof Kiszczak
Fluid physics: Andrzej Droździel, Krzysztof Pyszniak
Vibrations and waves: Artur Wójtowicz, Radosław Zaleski
49. Demonstrations in Physics
September 8-26, 2008
Electromagnetism: Juliusz Cieniewski, Krzysztof Kiszczak
Radioactivity: Jan Sarzyński, Jan Wawryszczuk, Radosław Zaleski
Light sources and optics: A Gruszecka, Monika Szymańska-Chargot, Sławomir Prucnal, Artur Wójtowicz
Forms of energy: Andrzej Droździel, Krzysztof Pyszniak
48. Demonstrations in Physics
September 6-26, 2007
Mechanics: Zdzisław Zarębski, Roman Kazański
Electricity: Juliuszciemniewski, Krzysztof Kiszczak
Thermodynamics: Agnieszka Stępniak, Sławomir Prucnal
The physics of flying: Andrzej Droździel, Krzysztof Pyszniak
47. Demonstrations in Physics
September 7-26, 2006
Resonance: Zdzisław Zarębski, Roman Kazański
In low and high temperatures: Anna Smolira, Monika Szymańska-Chargot
Optical phenomena: Andrzej Droździel, Krzysztof Pyszniak
Through play to physics: Juliuszciemniewski, Krzysztof Kiszczak
46. Demonstrations in Physics
September 8-27, 2005
Liquids and gases: Zdzisław Zarębski, Roman Kazański
Electrostatics: Krzysztof Kiszczak, Juliuszciemniewski
Nature abhors a vacuum: Agata Gardzioła, Krzysztof Głuch, Andrzej Pelc
Rotational dynamics: Andrzej Droździel, Krzysztof Pyszniak
45. Demonstrations in Physics
September 9-27, 2004
Thermodynamics: Roman Kazański, Zdzisław Zarębski
Electromagnetism: Juliusz Cieniewski, Krzysztof Kiszczak
Colors of light: Anna Smolira, Agata Gardzioła
In the world of the atom: Andrzej Droździel, Krzysztof Pyszniak
44. Demonstrations in Physics
September 8-24, 2003
Electric current: Krzysztof Kiszczak, Juliuszciemniewski
Acoustics: Zdzisław Zarębski, Roman Kazański
Large, smaller, smallest masses - mass spectrometry: Anna Smolira, Sylwia Ptasińska, Iwona Jóźwik
Echo and reverberation: Bogdan Adamczyk, Radosław Tuszyński
Home laboratory: Sławomir Prucnal, Rafał Luchowski
43. Demonstrations in Physics
September 9-25, 2002
Dynamics of translational and rotational motion: Zdzisław Zarębski, Janusz Zinkiewicz
The laws of physics in the world of toys: Juliuszciemniewski, Krzysztof Kiszczak
Low and high temperatures: Anna Bajuk, Sylwia Ptasińska
Physics of vision: Andrzej Droździel, Krzysztof Pyszniak
42. Demonstrations in Physics
September 10-26, 2001
Vacuum: Bogdan Adamczyk, Leszek Michalak
Fluid physics: Zdzisław Zarębski, Janusz Zinkiewicz
The nature of light: Andrzej Droździel, Krzysztof Pyszniak
Electrostatics: Juliuszciemniewski, Krzysztof Kiszczak
41. Demonstrations in Physics
September 11-27, 2000
Max Planck 100 years of quanta: Bogdan Adamczyk, Leszek Michalak
Acoustics: Zdzisław Zarębski, Janusz Zinkiewicz
Resonance: Stanisław Hałas, M Malawski
Electromagnetism: Juliusz Cieniewski, Krzysztof Kiszczak
40. Demonstrations in Physics
September 8-24, 1999
Ecological experiments in physics: Bogdan Adamczyk, Leszek Michalak
Principles of dynamics: Zdzisław Zarębski, Janusz Zinkiewicz
Thermodynamics: Stanisław Hałas, Tomasz Durakiewicz
Ionization phenomena: Juliuszciemniewski, Krzysztof Kiszczak
39. Demonstrations in Physics
September 8-25, 1998
Physical concepts in the common sense: Bogdan Adamczyk, Leszek Michalak
Electromagnetic waves: Roman Kazański, Mieczysław Paradowski
Nuclear radiation detection: Jan Wawryszczuk, Jan Sarzyński
Optical phenomena: Janusz Zinkiewicz, Zdzisław Zarębski
38. Demonstrations in Physics
September 8-26, 1997
Energy transformations: Bogdan Adamczyk, Leszek Michalak
Acoustics: Roman Kazański, Mieczysław Paradowski
Liquids and gases: Zdzisław Zarębski, Janusz Zinkiewicz
Panta rhei: Mirosław Kulik, Andrzej Baran
37. Demonstrations in Physics
September 10-24, 1996
Optics among us: Bogdan Adamczyk, Leszek Michalak
In the world of signals: Roman Kazański, Mieczysław Paradowski
Between cause and effect: Bożena Jasińska, Rajmund Kuduk
Electricity: Zdzisław Zarębski, Janusz Zinkiewicz
36. Demonstrations in Physics
September 11-22, 1995
Resonance: Stanisław Hałas, Tomasz Durakiewicz, M Laszewski
Low temperatures: Maria Trajdos, M Kiwala, Tomasz Kwapiński
Newton's laws of motion: Zdzisław Zarębski, Janusz Zinkiewicz
Liquids, vapors and gases: Bogdan Adamczyk, Leszek Michalak
35. Demonstrations in Physics
September 12-21, 1994
Electromagnetism: Tomasz Goworek, Bożena Jasińska, Jan Wawryszczuk
Geometric and wave optics: Janusz Zinkiewicz, Zdzisław Zarębski
Physics for the rich: Bogdan Adamczyk, Tomasz Durakiewicz
Physical puzzles: Maria Trajdos , A Litwiniuk , M Laszewski , J Gutek
34. Demonstrations in Physics
September 15-22, 1993
Nuclear radiation: Tomasz Goworek, Jan Wawryszczuk
Low temperatures: Maria Trajdos, A Czerwińska, Michał Warda
Void: Bogdan Adamczyk, Tomasz Durakiewicz
Liquids and gases: Janusz Zinkiewicz, Zdzisław Zarębski
33. Demonstrations in Physics
September 21-25, 1992
Acoustics
Physics for the poorest
Electromagnetism: Bożena Jasińska, Andrzej Trembaczowski
Paradoxes and illusions
Lecturers: Bogdan Adamczyk, Leszek Michalak, Janusz Zinkiewicz, Zdzisław Wojciech Zarębski, Andrzej Wasiak, Maria Trajdos, Michał Warda, Andrzej Wodecki
32. Demonstrations in Physics
September 16-20, 1991
Colors
Geometric and wave optics
Polarized light
Physical concepts in everyday language
Lecturers: Bogdan Adamczyk, Leszek Michalak, Wojciech Zarębski, Janusz Zinkiewicz, Sławomir Matuszewski
31. Demonstrations in Physics
September 24-28, 1990
Newton's laws of motion
Inertia forces
Recoil phenomenon
Electromagnetic interactions
Low temperatures
Vacuum
colours,
High voltages
Lecturers: Janusz Zinkiewicz, Zdzisław Zarębski, Bogdan Adamczyk, Leszek Michalak, Remigiusz Błażewicz
30. Demonstrations in Physics
September 5-9, 1989
Geometric and wave optics
Polarized light
Speech acoustics
Low temperatures
Lecturers: Bogdan Adamczyk, Leszek Michalak, Jacek Gowin, Wojciech Zarębski, Małgorzata Flis, Rajmund Kuduk, Remigiusz Błażewicz, Bożena Jasińska, Andrzej Zaliwski
29. Demonstrations in Physics
June 6-14, 1988
Phase changes, superconductivity
Color phenomena
Physics for the Poor (experiments for a crisis period)
Wave phenomena
Microcomputers in physics and more…
We will be grateful for supplementing the data
28. Demonstrations in Physics
June 22-27, 1986
Different forms of energy: Bożena Jasińska, Andrzej Trembaczowski, Małgorzata Klepacka, Piotr Staniaszek
Physical concepts in everyday language: Bogdan Adamczyk, Leszek Michalak, Leszek Głusiec
Electromagnetism: Barbara Gładyszewska, Arkadiusz Wiśniewski, MA
The computer is a friend of man: P. Skorzyński
Wave-particle duality: Marianna Trajdos, Zinkiewicz Janusz, Piotr Staszewski
Microcomputers in physics and more ... : Zbigniew Zaliwski, Artur Zarzeka, Jan Trzcianka
27. Demonstrations in Physics
June 10-14, 1985
Electricity in the atmosphere: Bożena Jasińska, Andrzej Trembaczowski, Piotr Staniaszek, Remigiusz Błażewicz
Low temperatures: Bożena Jasińska, Andrzej Trembaczowski, Małgorzata Klepacka, Piotr Staniaszek, Leszek Głusiec
Microcomputers: Andrzej Zaliwski, Jan Trzcianka, Dariusz Dżaman
Forces of inertia: Janusz Zinkiewicz, Roman Kazański
Light interference: Tomasz Goworek, Zdzisław Łojewski
Colours: Wojciech Zarębski, Anna Koczwarska
26. Demonstrations in Physics
June 4-9, 1984
Radioactivity: Barbara Gładyszewska, Dariusz Adamczyk, Jan Trzcianka
Optical phenomena in the atmosphere: Marek Sowa, Stanisław Hałas, Piotr Staniaszek, Andrzej Trembaczowski
Colours: Leszek Głusiec, Jacek Gowin, Wojciech Zarębski
The simplest experiments in physics: Bogdan Adamczyk, Małgorzata Klepacka, Leszek Michalak
25. Demonstrations in Physics
September 17-21, 1980
Forces: Janusz Zinkiewicz, Jan Kuranc, Roman Kazański, Jan Kutnik
Optical fibers
Colors
Low temperatures
We will be grateful for supplementing the data
24. Demonstrations in Physics
September 18-22, 1979
Optical and acoustic phenomena
We will be grateful for supplementing the data
23. Demonstrations in Physics
September 25-29, 1978
centripetal force
Vibrations-waves-resonance
gyroscopic effects
Relaxation systems
Properties of laser light
Color impressions
Atmospheric pressure
Low temperatures
Lecturers: Barbara Gładyszewska, Jerzy Meldizon, Jan Kutnik, Piotr Rozmej, Jan Sarzyński, Janusz Zinkiewicz, Zdzisław Łojewski, Adam Dąbek, Tadeusz Olech, Wojciech Zarębski, Antoni Meldizon, Krystyna Kliszczewska, Dorota Wieluńska, Marek Wieluński, Jan Kuranc, Krystyna Gołaszewska, Krystyna Zając, Paweł Drwal, Andrzej Wasiak, Leszek Głusiec
22. Demonstrations in Physics
September 25-29, 1976
waves
Colors
gyroscopic effects
Static phenomena in physics
Gas discharges
We will be grateful for supplementing the data
21. Demonstrations in Physics
June 1975
Frictionless table
stereophony
Low temperatures
Interference colors
Light polarization
Properties of laser light
We will be grateful for supplementing the data
20. Demonstrations in Physics
1974
We will be grateful for supplementing the data
19. Demonstrations in Physics
February 9-14, 1973
Forces of inertia: Janusz Zinkiewicz, Zdzisław Zarębski
Fermat's Principle: Stanisław Hałas, Jerzy Kotliński
Visible and invisible light: Jan Kutnik, Stanisław Krawczyk
Sounds and ultrasounds: Andrzej Wasiak, Z Misiura
Electric current in gases: Anna Grabarza, Janina Bukowska
The photoelectric effect: Dorota Dworak, Marek Wieluński
Radioactivity: Longin Gładyszewski, Anna Koczwarska
18. Demonstrations in Physics
February 10-14, 1972
Tesla's Transformer: Stanisław Krawczyk, Zdzisław Zarębski
Semiconductors: Anna Koczwarska, Andrzej Wasiak
Current carriers: Krzysztof Paprocki, Mieczysław Jałochowski
Control by weak signals: Paweł Mikołajczak, Barbara Mikołajczak, Leszek Wójcik
Low and high temperatures: Helena Murlak, M Sidor
Sound recording and playback: Jan Kutnik, Longin Gładyszewski
Wave phenomena: Marian Wiertel, C Rybka, T Drążkiewicz
Optical illusions: I Lipska, M Bartkowski
Luminescence: Wiesława Kuniszyk, Krzysztof Bederski
17. Demonstrations in Physics
February 10-14, 1971
Colours: K Pietraszkiewicz, Stanisław Krawczyk
Properties of semiconductors: Stanisław Hałas, Mieczysław Budzyński
Rectifier: J Ulanowski, M Kudlicki, A Ochmiński
Radioactivity: Paweł Mikołajczak, Leszek Wójcik
Low temperatures: Jan Kutnik, Krzysztof Bederski, Wiesława Kuniszyk
Liquid dynamics: Wiesław Kamiński, M Bartkowski
Recoil Phenomenon: Jan Sarzyński, Tomasz Glazowski
Centripetal force: Krzysztof Paprocki, Mieczysław Jałochowski
16. Demonstrations in Physics
February 10-14, 1970
Electromagnetic waves: Jan Kutnik, Łukasiewicz, Prudaczuk, Kalinowski
Light Interference: Wiesław Kamiński, Jan Kuranc, Wiercińska
Resonance: Stanisław Hałas, Czachor
High frequency currents: Paweł Mikołajczak, Leszek Wójcik
Low temperatures: Mańkowska, Helena Murlak, Suchodolska
The photoelectric effect: Kośmider, Pietraszkiewicz
Sounds: Andrzej Latuszyński, Zdzislaw Zarębski
Gyroscopic effect: Mieczysław Jałochowski, Tomasz Glazowski
15. Demonstrations in Physics
February 10-14, 1969
Colours: Helena Murlak, Jan Sarzyński
Discharges in gases: Bernat, Ptaszek, Paweł Mikołajczak
Luminescence: Kośmider, Pietraszkiewicz
X-rays: Rosińska, Kultys
Cathode ray oscillograph: Jan Wawryszczuk , Kolemba , Stanisław Krawczyk
Low temperatures: Janusz Zinkiewicz, Jan Kuranc
Force fields: Jadwiga Skierczyńska, Bańkowska, Czachor
Radioactivity: Longin Gładyszewski, Jan Kutnik
Alpha particle scattering: Stanisław Hałas
Atmospheric pressure and the phenomenon of recoil: Zdzisław Zarębski, Mieczysław Jałochowski, Krzysztof Paprocki, Andrzej Baran
14. Demonstrations in Physics
February 10-14, 1966
Discharge in gases: Janusz Zinkiewicz
Tesla transformer: no names
Electrodynamic force: no names
Eddy currents: no names
Phase shift: no names
Photoelectric cell: no names
Mathematical machines: no names
Standing waves: no names
Centripetal force: no names
Coriolis force: no names
Thermodynamic bird: no names
Mirage: no names
Images in a mirror: no names
13. Demonstrations in Physics
February 10-14, 1965
Emission line spectra: Jagowdzik, Jagowdzik
Interference: Szymczyk
Interference colors: Kluba, Franciszek Jaśkowski
Color reproduction in photography: Antoni Malicki, Dulkowski
Transistors: Zofia Skorzyńska, Antoni Borowski
Luminescence: Woytowicz
Stereophony: Zbigniew Skorzyński, Jan Wawryszczuk
Van de Graff generator: Juliusz Sielanko, Jerzy Meldizon
Oscillograph: Barbara Rozwadowska, Stanisław Hałas
Diode: Jan Sarzyński, Boguslaw Bernat
Amplifier triode: Fijałkowska, Zdzisław Zarębski
Triode generator: Tomasz Goworek, Ciastek
12. Demonstrations in Physics
February 13-16, 1964
Rectifier: Tomasz Goworek, Jan Sarzyński, Bernat
Amplifier: Janusz Zinkiewicz, Florkiewicz
Generator: Jan Kuranc, Kuranc
Transmitter: Estimate, Club
Echo sounder: Zbigniew Skorzyński, Zofia Skorzyńska
Television: Cancer, Raczek, Bolko
Ohm's and Kirchoff's law: Elżbieta Borowska, AntoniBorowski
Power sources: Jadwiga Skierczyńska, Zdzisław Zarębski
Self-induction: Stefan Wieluński, Maria Piasecka
Photocell: Jan Kutnik, Longin Gładyszewski
Combination of sounds: Antoni Malicki, Jan Wawryszczuk
Radioactivity: Dobrzański, Bogdan Adamczyk
11. Demonstrations in Physics
February 1-4, 1963
Colours: Jadwiga Skierczyńska, Janusz Skierczyński
Heat Movement: Edward Krupa, Antoni Malicki
Sound in cinema: Curyło, Paweł Zubik
Recoil Phenomenon: Bogdan Adamczyk, Jan Kutnik
Centripetal force: Stanisław Szpikowski, Maksymilian Piłat
Optical illusions: Elżbieta Borowska, Antoni Borowski
Hertz waves: Barbara Rozwadowska,
Amplifier: Janusz Zinkiewicz
Rectifier: Kozlowska, Zawadzki
Generator: Jan Kuranc
Transmitter and receiver: Longin Gładyszewski, Tomasz Goworek
Television: Zofia Królikowska, Zbigniew Skorzyński
Radioactivity: Dariusz Mączka, Juliusz Sielanko
10. Demonstrations in Physics
February 1-4, 1962
Refraction of light: Marciak, Kozłowski
Diffraction and interference: Antoni Malicki,
Current rectification: Edward Dowgird, Zawadzki
Atmospheric pressure: Jan Kuranc
Centrifugal force: Stefan Wieluński
Liquid air: Barbara Rozwadowska, Janusz Zinkiewicz
Regulators: Bogdan Adamczyk, Kozyra, Sobolewska
Ultrasounds: Antoni Borowski, Stefan Król
Power sources: Jan Kutnik, Tomasz Goworek
Application of electromagnetic waves: Zbigniew Skorzyński, Zofia Królikowska
9. Demonstrations in Physics
February 9-12, 1961
Optical spectra: Jadwiga Skierczyńska, Janusz Skierczyński
The formation of colorful images: Antoni Malicki, Micz
Sound in cinema: Zbigniew Skorzyński, Zofia Królikowska
Radioactivity: Tomasz Goworek, Antoni Borowski
Photoelectric effect: Jan Kutnik, Maksymilian Piłat
Sounds and ultrasounds: Bogdan
Gas discharges: Bożena Gostkowska, Janusz Zinkiewicz
Model of Milikan's experience: Kazimiera Kamińska, Dariusz Mączka
8. Demonstrations in Physics
January 28 - January 31, 1960
Colours: Jadwiga Skierczyńska, Janusz Skierczyński
Optical illusions: Edward Dowgird, Janusz Zinkiewicz
Strobe: Danuta Stachórska, Zbigniew Skorzyński
Centripetal force: Antoni Malicki, Ratajewicz
Kickback principle: Bogdan Adamczyk, Jan Kutnik
Electrostatics: Bożena Szutowicz, Jan Kuranc
Radioactivity: Longin Gładyszewski, Stanisław Kapiszewski
X-rays: Barbara Rozwadowska
Alternating current: Stefan Wieluński, U Gocon
Eddy currents: Wiesław Grunwald
7. Demonstrations in Physics
January 29 - February 3, 1959
Radioactivity: Bogdan Adamczyk, B Wierciak
Discharges in rarefied gases: B Szutowicz, Cz Surowiec
Electron tubes: A Barański, Antoni Borowski
Models of electric meters: S Owsicki
Polarization of light: Maksymilian Piłat, Antoni Malicki
Electromagnetic drive: Jerzy Lis
Self-induction and capacitance: U Gocon, J Tomza
Capacitor discharge: Longin Gładyszewski
Hertz waves: Barbara Klamut, Jan Kuranc
6. Demonstrations in Physics
December 14-17, 1957
Colours: Jadwiga Skierczyńska, Janusz Skierczyński
Light sources: Barbara Klamut, Ratajewicz
Refraction of light: Danuta Stachórska, Jerzy Meldizon
Kickback principle: Bogdan Adamczyk, Jan Kutnik
Induction currents: Wiesław Grunwald
Model of Milikan's experience: Szwew,
Electrostatics experiments: Janusz Zinkiewicz, Jan Kuranc
Surface tension: Jerzy Lis
Kundt tube:
Electrolysis: Stanisław Kapiszewski, Jerzy Mielnik
5. Demonstrations in Physics
1956
Heat Movement: Jadwiga Skierczynska, Janusz Skierczynski
Temperature measurement methods: Jerzy Mielnik
Experiments with liquid air: Barbara Klamut, Jerzy Lis
Acoustic control: Jan Kutnik
Standing waves: Wieslaw Grunwald
Measuring very short times: Danuta Stachórska
Optical illusions: Maria Piasecka, Stanisław Kapiszewski
Chinese shadows (shadow theater): Jerzy Meldizon
Application of radioactive isotopes: Bogdan Adamczyk
4. Demonstrations in Physics
November 23-26, 1955
Boiling Water, Drinking Bird: Cuddles
Total Internal Reflection: Edward Chomicz, Jerzy Meldizon
Discharges in the air: Jadwiga Skierczyńska
Sounds and ultrasounds on the oscilloscope: Janusz Skierczyński, Maria Piasecka
X-rays: Barbara Klamut, Stanisław Kapiszewski
G-M Counter: Jan Kutnik, Tomasz Goworek
Television (tape recorder): Bogdan Adamczyk
3. Physics shows
December 10-12, 1954
Tape recorder: Bogdan Adamczyk
Lecher's needles: Danuta Stachórska
Waves on the water: Wieslaw Grunwald
Voice waves and ultrasounds: Stanisław Kapiszewski
Light Waves: Edward Dowgird, Maximilian Piłat
Liquid Air: Cuddles
Resonance and standing wave: Horseshoe
Uniformly accelerated motion, Tesla transformer: Stefan Wieluński
Currents: Jadwiga Skierczyńska, Janusz Skierczyński
Electrolysis: Emanuel Trembaczowski
Chiral liquids: Edward Chomicz, Jerzy Meldizon
Magnetic fields: Barbara Klamut, Maria Piasecka
2. Demonstrations in Physics
December 18-20, 1953
Television: Bogdan Adamczyk
Photocell: Jadwiga Skierczyńska
Brown's lamp: Danuta Stachórska
Discharge in rarefied gases: Emanuel Trembaczowski
Experiments with carbon dioxide: M Przytuła
Recoil rule: Stefan Wieluński
Gyroscope: Wieslaw Grunwald
Currents: Horseshoe
Mirage, real image, optical illusions: Stanisław Kapiszewski
Electrostatics, GM counter: 4 students
Chiral liquids: Edward Chomicz, Jerzy Meldizon
Specters: Barbara Klamut
1. Demonstrations in Physics
February 7-9, 1953
Interference of water, voice and light waves: Wacław Staszewski, Wiesław Grunwald, Jerzy Mielnik
Spectra and colors: Emanuel Trembaczowski
Electromagnetic Waves: Edward Dowgird
Photo effect: Jadwiga Suchocka
Uniformly accelerated motion, action and reaction: Stefan Wieluński
Cone rolling upwards, boiling under reduced pressure, hemispheres
Magdeburg: Barbara Klamut
Crookes radiometer, total internal reflection, glass conduction,
X-rays, cathode rays and Geissler tubes: M. Przytula,
Maria Piasecka
Oscillograph, television: Danuta Stachórska, Bogdan Adamczyk
According to viewers:
"The experiments were very effective, all the more so that the students could not only observe them, but also participate in them. Practical classes motivate to learn more about the laws of nature and show the usefulness of physics and its connections with various areas of life. The scientists presented all this to us professionally, interestingly and with a hint of humour.",
source: https://zsturobin.szkolnastrona.pl/art,662,pokazy-fiziczne-na-umcs-lublin
"Thanks to these shows, physics is no longer a barrier for us. We know why airplanes float in the air and we realize that the human eye can play pranks. We also saw that everything around us is irradiated, even wristwatches !",
"As every year, eighth and seventh grade students of our school participated in physics shows organized by the UMCS Institute of Physics, the Lublin Branch of the Polish Physical Society and the Lublin Educational and Scientific Society. The program of the 60th shows included: rotational motion, heat, electric current and Young people had the opportunity not only to see spectacular experiments, but also to take an active part in them: Foucault's pendulum, Coriolis force, skin effect, Rubens tube, convection, plasma ball and centripetal force - these are just some of the fantastic experiments we could see. these had practical references to our everyday life.",
source: https://www.zs-cycow.pl/wydarzenia/0231/index.html
"On September 27, 2017, students of the second and third grades of our high school went on a trip to Lublin. The purpose of this trip was physical shows organized by the Institute of Physics of the Maria Curie-Skłodowska University. Physics revealed to high school students hitherto unknown phenomena, and for students the extension of this subject, the presented experiences were an ideal preparation for the final exam.
The program of the show consisted of four different sections: electrostatics, radioactivity, acoustics and mechanics. Some of the shows were devoted to the patron of the institute (Maria Skłodowska-Curie) on the occasion of the 150th anniversary of her birth. The possibility of communing with physics in practice caused that it aroused great interest among the participants of the trip. Scientists presenting the shows in an unusual way presented curiosities in the field of this discipline, which inspired our high school students to actively participate in classes (participation in experiments and asking questions).",
source: http://www.lo.deblin.pl/zso-deblin/aktualnosci-zso/506-pokazy-z-fizyki-w -umcs
"It's another year when students from J. Chreptowicz High School No. II take part in the Physics Shows organized by the Lublin Branch of the Polish Physical Society of the Institute of Physics of the Maria Curie-Skłodowska University. On September 20 and 27, 2012, 174 high school students from classes about leading subjects mathematics - physics - computer science and biology - chemistry - physics The idea of the shows is to popularize physics and help in teaching it by presenting thematically selected, interesting, even fascinating experiments. cooperation with university lecturers, are convinced that this popular science event is an extremely attractive form of learning for young people. Students have the opportunity to come into direct contact with the experiment, see the course of physical phenomena live, the demonstration of which in school conditions would be impossible for many reasons. the opportunity to observe unique experiences, all impressively presented, and many of them in an atmosphere of fun.
This is undoubtedly a great asset of the shows, especially appealing to young viewers. Students from "Chreptus" watched the laboratory demonstrations with great interest and absorbed the knowledge passed on. Some of them (Dominika Kowalska, Jakub Węgłowski, Marcin Łyjak, Łukasz Jasik, Paulina Siepitowska, Bartek Klauziński - students of class Ib and Maciej Surmański, Sebastian Pecio, Dominik Cieślak - students of class II b) had the opportunity to play the roles of leading "physical show ". Scientists from the university presented experiments together with students, both difficult and complicated, as well as those that can be repeated at home using the simplest means. How to generate electricity? How to use electricity in ecology, or how to get rid of soot from smoke in a simple way? The students of "Chreptus" learned the answers to these and many other questions. The physics teacher W. Studzieżba, who every year enjoys the successes of his charges - Olympians and winners of physics competitions, claims that the Physical Shows significantly affect the work of students: they awaken their curiosity about the subject, inspire them to conduct experiments, and result in results in competitions, Olympiads and impressive results at the high school final exam. No wonder that teachers and students willingly participate in the Lublin Science Festival.",
source: https://www.lokalnatelewizja.pl/artykul/5244,uczniowie-z-quot-chreptowicza-quot-na-pokazach-umcs