Student Education Repository (மாணவர்கள் கல்விக் களஞ்சியம்): Today (January 6, 1945) is Vladimir Ivanovich Vernadsky Memorial Day (January 6, 1945), the first discovery of uranium ore and the exploration of possible life elements.

Wednesday, January 6, 2021

Today (January 6, 1945) is Vladimir Ivanovich Vernadsky Memorial Day (January 6, 1945), the first discovery of uranium ore and the exploration of possible life elements.

Today (January 6, 1945) is Vladimir Ivanovich Vernadsky Memorial Day (January 6, 1945), the first discovery of uranium ore and the exploration of possible life elements.

Vladimir Ivanovich Vernadsky was born on March 12, 1863, in St. Petersburg. Vernadsky's search for Darwin's texts may have begun as a boy's gift for his seventeenth birthday. The book, signed by Vernadsky's father as My Beloved Son, is on display today in Vernadsky's Library Room in Moscow. Vernadsky's house is in the gallery. The young Vernadsky wrote the following in an article he submitted at the age of 21 to the Student Organization for Science and the Arts at the University of Petersburg. What is life? And with the substance of everlasting-ever-continuing rules, is that material, with its infinite creation, destruction and restlessness, lifeless? Are there such characteristics only in a small membrane that stretches very gently over a small dot invisible in this giant sari? Is the vast expanse beyond that ruled by inanimate objects?... only time can answer these questions. Science will one day answer these questions.

The search and the visuals of the search marked the beginning of Vernadsky's life. He began his search path in the natural sciences to spin great philosophical questions in his mind. He graduated in 1885 from St. Petersburg University. At that time the post of University Mineral was vacant. Geologist Vasily Tokushev and geologist Alexei Pavlov studied mineralogy there for some time. Vernadsky wanted to enter mineralogy. He wrote to his wife Natasha, who was in Switzerland in 1888, that he could gather as much information as many people do today. With no plan or purpose, I have no interest in doing this except to raise a small question and replace it. Many of the conundrums that are still to be found here are hidden when looking at the problems of chemical elements and the order in which they occur in the mass. These occur in different domains on Earth and result only according to specific rules. We are well aware of these rules. Then we know that there is a microcosm between the general changes that have taken place on Earth and the general laws of the Earth's cosmology.

Vernadsky mentioned this in another letter to his life partner at the age of 25. Life is amazing. I was first fascinated by human history and mathematics. However, I took the natural sciences as the path of my study. I considered progressing from the history of nature to the history of monsters. As for mathematics, I do not believe in my own abilities. In his thirties, he met Tolstoy. We can feel the impact of that encounter throughout his life. On April 23, 1892, Vernadsky writes: Tolstoy came to see us today. For a long time, we were talking about scientific ideas. There is greater depth in Tolstoy’s thoughts than I had at first thought. What that depth means:

1. The basis of our life should be the search for truth.

2. The purpose of one's life should be to reveal the truth that one discovers without any hesitation or expectation of rewards.

Lemurs invaded my sketchbook!!! (When have they... | Google doodles, Doodles, Illustration

Vernadsky's crew was the one who greatly developed Vernadsky's assessments of scientific personality. He was the famous Russian geologist Tokusev (1846-1903). But the scientific view that went into more detail than geology was Tokusev. Otham, the author of The Basics of Ecology, a world-class textbook on environmental ecology, refers to Tokusev as a 'pioneering scientist of ecology'. Vernadsky scientifically presented a new perspective on the biosphere, combining research results from many seemingly unrelated fields with beautiful philosophical threads. Through that vision, we can discover new natural relationships. Our scientific view of nature can be advanced with depth and breadth. Vernadsky's field of geochemistry. Not biological. He was in contact with geologists around the world at a time when information technology was not as advanced as it is today, and political walls and iron screens were suffocating the breath of liberation. Vernadsky discovered some basic facts of nature through extensive and in-depth geological research.

He first discovered the uranium ore in Russia in 1916. Radium was produced in Russia in 1918. In 1922 he established the Radium Center in Petersburg. He served as its director until 1938. In his opening remarks, he said, "Atomic energy holds enormous potential in our hands. It is up to us whether we use it for the creation or for human genocide. He noted that there is also an essential need for values for science with immense potential. In 1922 he began researching meteorites. He also published a series of research papers on it. He also founded the Meteorological Research Institute. Throughout his life, he was a guide to the activities of the academy. Vernadsky's greatest contribution to science was his biographical book, The Biosphere, published in 1926 by St. Petersburg in 2000. In 1929 the French version was published in Paris. The first English edition was published in 1986.

Atomic structure - nuclear energy-nuclear fission Uranium atom by Veronika Vieyra on Dribbble

Vernadsky's speeches were heard by a French monk and another French mathematician while attending a geophysical conference in Soforn in 1922-23. Vernadsky befriended the philosopher Le Roy and the monk Theil Heart the Sardin. They agreed on the development of the sensory sphere called the nucleus. Vernadsky finally wrote an article entitled 'A few words about the noosphere'. Originally published in Russian, it was later published in 1945 in the journal American Scientist entitled "Biosphere and the Sense of Sense". 'Mankind as a whole has evolved into an enormous geological dynamic,' he notes. Vernadsky discovered some basic facts of nature through extensive geological research. He categorized the material found on the Earth's crust as follows: Consider that this analysis was made based on geochemistry.

Living things that freeze in living things.

Biomaterials are created and transformed by living things.

Materials in which lives do not participate.

Biodegradable substances are formed by living and non-living reactions.

Natural radioactive material.

Particulate matter.

The cosmic matter is found on Earth.

This category may seem like an easy one to us today. But this view was a revolutionary one at a time when geochemistry and biology were clearly defined by boundaries. Even today it is not easy to establish consensus threads between the fields of atmospheric chemistry, biology and hydrology. Vernadsky's lines on the geography and migration of living matter related to time clarify the nature of his vision, based on the Lord's study of the Red Sea locust population. No chemist had ever seen life like this before Vernadsky. Even from today's scientific point of view, this view is bold. He distinguished between heterogeneous biomaterial groups and pluralistic biomaterial groups.

Biological Diversity & Ecological Forecasting

Based on these predictions he created a new field of science. It is in 'Biogeochemistry'. He found the following three to be the basic rules of the field (these are not definite immutable rules, but rather compasses.)

1. The atoms of the elements that undergo biogenic migration operate in such a way as to obtain their absolute mass exposure in the biosphere.

2. The direction in which the evolution of organisms moves in geological time depends on the direction in which such systems largely accept biological migration.

3. Immediately after the pre-Cambrian geology, the number of organisms that underwent biogas migration reached their absolute mass expression

Ecosystem GIFs - Get the best GIF on GIPHY

Vernadsky has given us directions on where to look for answers to many hierarchical puzzles. One of the most famous biological facts of the ancient frozen biologist Stephen J. Gold is the colossal change in the Cambrian ecosystem. The basic structural similarities we see in all living things today began with the Cambrian 'Big Bang of Life'. The reasons for this have been explored by fossil scientists. Vernadsky's rules can greatly help us to understand the role of geochemical factors in this - which may certainly be a decisive factor. Vernadsky was the first scientist to claim that humans could control radioactive decay and use it for energy. Vernadsky called the sensory field the area where the attacking fibres of human thought flow in the biosphere. He attempted to link geospatial changes caused by the activities of this sensory sphere to the biosphere.

He served as a consultant on the Soviet nuclear program in the 1930s and early 1940s. Raised the voice loudly for the creation of nuclear power. Undertook uranium resource exploration in the Soviet Union. He conducted fission research at his radium company. However, he had a natural disaster before the entire project was overseen and completed. In 1936 he became an elected member of the Society for Biochemistry in Bangalore. In his honour, the Moscow campus, the National Library of Ukraine and the Tavarita National University in Crimea are named in his memory. Pavel Cerenkov, a pioneer scientist who studied the relationship between the biosphere and geography, passed away on January 6, 1945, in Moscow at the age of 81.

Source By: Wikipedia

Information: Ramesh, Assistant Professor of Physics, Nehru Memorial College, Puthanampatti, Trichy.