Review Of The Hot Zone

Hot zone: Richard Preston writes about Ebola virus, a small virulence factor consisting of proteins and membranes and a core including DNA and RNA. The real story of the causative factor) The virus is dependent on living cells for replication. It occurred in the laboratory in the suburbs of Washington DC in 1989. In this laboratory, monkeys used in scientific experiments soon died of virus infection (a family of viruses, including viruses) Ebola and Marburg. )

Many of the comments on The Hot Zone reflect the impact this book has on general perception of emerging viruses. The explanation of the British Medical Journal captures the paranoia and public panic described in this book. The reviewer emphasizes "I want to know when and where this mysterious agent appears, and that other disasters may be waiting for human primates". "The seriousness of our current situation" and "Our ability to respond to serious health threats"

Let's see. The mantle plume is a virtual hot mantle rock pillar that rises from the mantle-core boundary through the mantle to the bottom of the lithosphere. The rocks of the lower lithosphere are heated by the plume and melted to form hot spots. Geological events caused by mantle plumes include volcanic island chains and flood basalt. Currently, many geologists question whether the mantle plume is present, but it is accepted as an explanation of the volcanic activity unrelated to the subduction zone.

Igneous rocks are rocks that crystallize from lava and magma. Melt consists of various components of existing rock melting in the subduction zone or inside the mantle. Because the molten metal is very hot, it will rise through the colder country rocks. As it moves, it cools and forms various types of rocks through a process called fractional crystallization. Igneous rocks can be seen on the mid-ocean ridges, arc volcanic areas or plate hot spots

The planet of the rock has to circulate the livable area to form a life. Hot stars, such as Sirius and Vega, have a wide range of possibilities, but Hot Stars emit more ultraviolet light and allow you to ionize any planet's atmosphere. They may become red giants before they can evolve on their planet. These considerations exclude huge and powerful stars (see Star classification) from F 6 to O as evolutionary animal habitat. On the other hand, for small red dwarfs, there are places where the planets are easy to live, with the tides locked. One very hot side always faces the stars and the other very cold side. Therefore, there is no life in such a system. Supporters of rare earths claim that only F1 - K1 type stars are kind. Such stars are rare: G-type stars like the sun (between higher temperature F and lower temperature K) account for only 9% of hydrogen combustion stars in the Milky Way.