Dear colleagues! In this chapter you will find a small collection of photos, which may help you to create an impression about our organization. Process of assembling and adjustment of laboratory modules is showed. Work concerning development of laboratory equipment isn't our main purpose. We occupy scientific researches on the progressive side of physics, electronics, working in JINR, Kurchatov Institute (Russia, Moscow) e.t.c.  We use potential of knowledges in educational activity, too. In our laboratory modules we widely use achievements of modern science, such as programmable microcontrollers for manipulation and control, original technical decisions for elimination of defects and problems.
    On this page you will find some photos concerning our elaborations. However, it is need to keep in mind, that we permanently do modernization of laboratory modules. As a result, the appearance of equipment is changed. Now we don't use analog devices. Instead of them we use a digital measuring devices on base of microcontrollers. The following photos represent first from set of our elaborations. Waiting for updates, please!

Information about our devices you can find, using the following link

   @ Let education will be vivid

All our modules you will order in Russian Scientific production association "RosUchPribor"
          Details are


Concerning all questions phone to 8-910-585-55-02
+7-910-585-55-02 for calls not from Russia
Ring in any time without days off. Pankov Sergey Eugenievich.


@ Scientific production association of educational equipment "TulaScientificDevice", 2007. All rights reserved.
A few about work

НПО Учебной Техники "ТулаНаучПрибор"
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Laboratory module "Study of hydrogen atom spectrum". In this work uses a monochromator. Power box for spectral lamp and lighter are showed on the picture.
Spectrum of mercury quartz burner (MSL-125)     for calibration of monochromator and statement the work, as "Study of mercury atom spectrum. Fine structure of mercury spectral lines". Lamp has a clear linear spectrum in visible span.
Laboratory module "Determination of excitation and ionizing potentials for mercury (inert gas) atom by method of electron impact". At present we don't use analog devices. Instead of them we use a digital measuring devices on base of microcontrollers.
Laboratory module "Study of Hall effect in semiconductors". Module introduces to Hall effect in semiconductors and allows to determine Hall constant for observable example. According to this principle, the next laboratory work is realized. In it fied distribution in solenoid with help of Hall probe is studied.
Laboratory module "Study of damping oscillation". This module uses with standard oscillograph. It is no need to use additional generators and devices.
Laboratory module "Study of electrostatic field. Equipotential surfaces". Potential distribution in space simulates by method of electrolytic bath.

Laboratory module "Study of resonance phenomenon under series and parallel connections of oscillation circuit"
Examples of methodical guides. For each module technical passport, theoretical description and reference guide are applied.
Set of laboratory modules with monochromators.
Laboratory module "Determination of inert gas atom (mercury atom) resonance potential. Franck-Hertz experiment" with demonstrational oscillograph.
The appearance of registration of digital indicators. They were developed and adjusted for each laboratory facility.

Spectral natrium lamp ANL-18. Preparation for start.
Chief engineer is working. It's very good, when work, besides money, brings a pleasure.
Repair of laboratory module.
Natrium lamp is working. Now it is possible to see the spectrum.
Control of voltage and current at work of gas-discharge spectral lamp needs to do permanently, especially during the adjustment.
This monochromator intends for spectrometric researches.
Stable work may guarantee after using the equipment during some time.

What is the interesting in the ocular of monochromator? :)) Probably, a physical discovery!
Natrium spectrum is seen. It is possible to distinguish fine structure of spectral line l=589; 589,6 нм.

Adjustment of electronics.
It's the scientific research. High pressure camera for study of examples, which was developed in Kurchatov Institute (Russia, Moscow), is presented.
Neutron diffractometer. With help of it study of crystal and magnetic structure of different materials is accomplished.
Block of electronics CAMAC. It counts a scattered neutrons under determined angles and energies.
    You may write for us, if have questions and requests, in  FAQ chapter. We necessarily takes them into account in our further work.

All our laboratory modules are the part of the typical set of equipment, which you can find on the site of Russian Scientific production association "RosUchPribor"
8-910-585-55-02 Ring in any time without days off.

Main page      /       Laboratory modules of practical work      /      Specific details for practical work     /      Useful literature

Methodical elaborations      /       Scientific activity      /       FAQ      /       A few about work (photos)

                        Useful links      /       Useful programs      /       Contacts and legal documents

Laboratory setup "Determination of mercury atom (inert gas) resonance potential. Franck-Hertz experiment" with demonstrational oscillograph (updated, digital manipulation).
Laboratory setup "Study of electrostatic field. Equipotential surfaces". Potential distribution in space simulates by method of electrolytic bath (updated, digital manipulation).
Laboratory setup "Observation of set transistor input and output characteristics on the screen of oscillograph".
Laboratory setup "Study of natrium atom fine structure".
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