History and archeology - Administrative-territorial units of the Russian Empire. Crosswordist's Handbook

Free technical library

CROSSWORD HANDBOOK
Free library / Crosswordist's Handbook / Administrative-territorial units of the Russian Empire

Reference book crossword. Quick word search by mask. Administrative-territorial units of the Russian Empire

Crosswordist's Handbook / Index

Crosswordist's Handbook

Comments on the article

History and archeology / History / Administrative-territorial units of the Russian Empire

(3)

YRT

(4)

ALL - village

GUBA - a district equal to a volost

SHARE - part of the province, divided into districts

EDGE

POLK - in Ukraine

MILL

County

ULUS - a unit within a district

(5)

HUNDRED - in Ukraine

(6)

PYATINA - in the Novgorod land

THOUSAND

(7)

VOLOST

MAAKOND - in Estonia

REGION

(8)

PROVINCE

DISTRICT - part of the share

(14)

Viceroyalty - a unit of 2-3 provinces, management. viceroy

Word search to solve the crossword puzzle:

Replace each unknown letter with *. For example, dog * ka, * oshka, we ** a. Pairs е - ё, and - й are equated.

See other articles Section Crosswordist's Handbook.

Read and write useful comments on this article.

<< Back

Latest news of science and technology, new electronics:

Machine for thinning flowers in gardens 02.05.2024

In modern agriculture, technological progress is developing aimed at increasing the efficiency of plant care processes. The innovative Florix flower thinning machine was presented in Italy, designed to optimize the harvesting stage. This tool is equipped with mobile arms, allowing it to be easily adapted to the needs of the garden. The operator can adjust the speed of the thin wires by controlling them from the tractor cab using a joystick. This approach significantly increases the efficiency of the flower thinning process, providing the possibility of individual adjustment to the specific conditions of the garden, as well as the variety and type of fruit grown in it. After testing the Florix machine for two years on various types of fruit, the results were very encouraging. Farmers such as Filiberto Montanari, who has used a Florix machine for several years, have reported a significant reduction in the time and labor required to thin flowers. ... >>

Advanced Infrared Microscope 02.05.2024

Microscopes play an important role in scientific research, allowing scientists to delve into structures and processes invisible to the eye. However, various microscopy methods have their limitations, and among them was the limitation of resolution when using the infrared range. But the latest achievements of Japanese researchers from the University of Tokyo open up new prospects for studying the microworld. Scientists from the University of Tokyo have unveiled a new microscope that will revolutionize the capabilities of infrared microscopy. This advanced instrument allows you to see the internal structures of living bacteria with amazing clarity on the nanometer scale. Typically, mid-infrared microscopes are limited by low resolution, but the latest development from Japanese researchers overcomes these limitations. According to scientists, the developed microscope allows creating images with a resolution of up to 120 nanometers, which is 30 times higher than the resolution of traditional microscopes. ... >>

Air trap for insects 01.05.2024

Agriculture is one of the key sectors of the economy, and pest control is an integral part of this process. A team of scientists from the Indian Council of Agricultural Research-Central Potato Research Institute (ICAR-CPRI), Shimla, has come up with an innovative solution to this problem - a wind-powered insect air trap. This device addresses the shortcomings of traditional pest control methods by providing real-time insect population data. The trap is powered entirely by wind energy, making it an environmentally friendly solution that requires no power. Its unique design allows monitoring of both harmful and beneficial insects, providing a complete overview of the population in any agricultural area. “By assessing target pests at the right time, we can take necessary measures to control both pests and diseases,” says Kapil ... >>

Random news from the Archive

Ultracold molecular quantum gas 04.12.2020

For the first time, American physicists have obtained a controlled state of an ultracold molecular quantum gas, which can have many practical applications - from ultraprecise measurement devices to quantum computing.

In the classical sense, a gas consists of a large number of randomly moving particles. When the gas is cooled to near absolute zero, the molecules stop behaving like particles and take on the properties of waves that overlap. This state is called a quantum gas, and the transition temperature of a molecular gas to a quantum state is called the degeneracy temperature.
The properties of a quantum gas depend on the degree of its degeneracy, when the gas molecules, like particles, repel each other, but interact at large distances due to their overlapping waves, electric dipole moments, and other characteristics.

Researchers at JILA - a joint venture between the US National Institute of Standards and Technology (NIST) and the University of Colorado Boulder - have developed tools to "turn on" the state of an ultracold molecular quantum gas and control intermolecular interactions over long distances.

Ultracold quantum gases can potentially find application in ultraprecise measurement devices, for modeling extreme states of matter, creating quantum many-particle systems, and in quantum computing.

According to the authors, a new scheme for pushing a molecular gas to its lowest energy state, called quantum degeneracy, which suppresses chemical reactions that destroy molecules, will allow us to explore exotic quantum states in which all molecules interact with each other.

At a temperature of 250 nanokelvins - just above absolute zero - the researchers created a dense gas of about twenty thousand dipole potassium-rubidium molecules, which behave like tiny magnets in an electric field, due to the fact that rubidium atoms have a positive charge, and potassium atoms - negative.

Turning on the horizontal electric field slowly over hundreds of milliseconds reduced the strength of the trap in one direction long enough for the hot molecules to escape and the remaining molecules to cool. At the end of this process, the molecules returned to their most stable state, but now in a denser gas.

Other interesting news:

▪ Bottle furniture

▪ 3C-HSDPA technology at 63 Mbps

▪ MDmesh K5 - new 900V MOSFETs from STMicroelectronics

▪ Refractory clay supercapacitor

▪ An eco-friendly way to get vanillin

News feed of science and technology, new electronics

Interesting materials of the Free Technical Library:

▪ section of the site Grounding and grounding. Selection of articles

▪ article Vegetable cutter from the washing machine. Drawing, description

▪ article Which of the African mammals kills more people than any other? Detailed answer

▪ article Work with liquid nitrogen and liquid helium. Standard instruction on labor protection

▪ article Light switch: remote control and timer. Encyclopedia of radio electronics and electrical engineering

▪ article From one coin - three. Focus secret

Leave your comment on this article:

All languages of this page

Home page | Library | Articles | Website map | Site Reviews