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Explanation & Evaluation of 'Interstellar dust hypothesis'., Study notes of Physical Geography

University of RajasthanPhysical Geography

Topics covered: a) Introduction to the 'Interstellar dust hypothesis' given by Otto Schmidt in 1943. b) Formation of Terrestrial and Jovian planets according to Schmidt. c) Merits of 'Interstellar dust hypothesis'. d) Disputable points in 'interstellar dust hypothesis'. e) Galactic Revolution.

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2022/2023

Available from 11/20/2023

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Physical Geography
University of Rajasthan, Jaipur
Origin of the Earth
Inter-stellar Dust Hypothesis by Otto Schmidt
The interstellar dust hypothesis was put forward by
a Russian scientist, Otto Schmidt, in 1943 to explain the
complex problem of the origin of the Solar System and our
Earth. The outstanding feature of this hypothesis is that the
Earth and the Solar System are believed to have been formed
from particles of gas and dust, the origin of which is not
explained by Schmidt.
According to this theory, our Sun attracted dark
matter* scattered across the universe during its ‘galactic
revolution’*. This dark matter was called 'interstellar dust' by
Schmidt. Dark matter began to revolve around the primordial
rotating Sun after being attracted by the Sun during its galactic
revolution. It can be explained that initially the gaseous clouds
and dust particles were not well organized and stable and
hence they were moving around the Sun separately.
Gases, being lesser in volume, were more unstable
and less systematically arranged while dust particles, being
more in amount and quantity, were more stable and
systematically arranged. Thus, the dust particles combined and
condensed and turned into a flat disk which started revolving
around the Sun under the combined impact of three types of
motion e.g.
a) the rotational motion of the sun itself,
b) gravitational force exerted by the sun on the
disc and
c) the angular momentum of dark matter of the
disc.
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Physical Geography

University of Rajasthan, Jaipur

Origin of the Earth

Inter-stellar Dust Hypothesis by Otto Schmidt

The interstellar dust hypothesis was put forward by a Russian scientist, Otto Schmidt, in 1943 to explain the complex problem of the origin of the Solar System and our Earth. The outstanding feature of this hypothesis is that the Earth and the Solar System are believed to have been formed from particles of gas and dust, the origin of which is not explained by Schmidt. According to this theory, our Sun attracted dark matter* scattered across the universe during its ‘galactic revolution’*. This dark matter was called 'interstellar dust' by Schmidt. Dark matter began to revolve around the primordial rotating Sun after being attracted by the Sun during its galactic revolution. It can be explained that initially the gaseous clouds and dust particles were not well organized and stable and hence they were moving around the Sun separately. Gases, being lesser in volume, were more unstable and less systematically arranged while dust particles, being more in amount and quantity, were more stable and systematically arranged. Thus, the dust particles combined and condensed and turned into a flat disk which started revolving around the Sun under the combined impact of three types of motion e.g. a) the rotational motion of the sun itself, b) gravitational force exerted by the sun on the disc and c) the angular momentum of dark matter of the disc.

Thus, under the combined effect of these three types of motions each and every particle of the dark matter of the universe began to redistribute itself on the basis of mass, density, dimension. The intense heat of the Sun dispersed the gaseous particles away from the Sun and towards the periphery of the disk of dark matter. Collisions between dust particles initiated the process of aggregation and accretion around larger particles that became the embryos of future planets. As time passed these embryos took up more and more matter and thus grew in size and became asteroids. These asteroids were still inside the disk and were rotating in the evolutionary direction of the disk. The size of these asteroids increased further due to the continuous accumulation of nearby matter around them and thus they became planets. Even after the formation of plants, some matter remained in the disk. These matter were condensed to form satellites of the planets. The planets of the outer bands of the disc (Jovian planets) were of low density because they were formed by the freezing out process of the gaseous matter. It may be pointed out that since lighter matters were pushed towards the periphery of the disk due to various factors (intense heat of sun, unstability due to less volume, etc.) and heavy matters were pushed towards the inner bands of the disk, the planets formed in the inner bands of the disk were also of higher density than the planets formed in the outer bands of the disk. Evaluation: The ‘Inter-stellar dust hypothesis’ of Otto Schmidt solves almost all of the problems of the bizarre characteristics features of our solar system like a) Placements of planets according to their size, b) Near circular and similar planes of orbits of the planets,

Fig- These embryos of planets continue to grow through mutual collisions, eventually to become protoplanets and ultimately a planetary system, here attributed to the solar system. Dark matter- It was the matter whose origin was not clearly defined. It was hypothetical mass that was not visible. It consists of dust particles and gaseous clouds. In ‘Inter-stellar dust hypothesis’, Schmidt termed this dark matter as ‘inter- stellar dust’. Galactic Revolution- The revolution of the sun with its planetary system around the central part of our Milky Way is called galactic revolution of our sun.

Reference Lucy-Ann McFadden, Torrence Johnson, Paul Weissman. Encyclopedia of the Solar System Savindra Singh. Physical Geography