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How do temperature differences in the protoplanetary disk explain the arrangement of the planets in the solar system?
The protostellar disk is very hot and only rocks and metal can combine together in that heat, so that makes the inner planets. In the outer disk it is very cold, so there are only ice and dust particles able to combine together, there are though rock centers in the outer planets but ice and gas make up the majority: that makes the outer planets.
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How do temperature difference in the protoplanetary disk explain the arrangement of the planets in the solar system?
The protostellar disk is very hot and only rocks and metal can combine together in that heat, so that makes the inner planets. In the outer disk it is very cold, so there are only ice and dust particles able to combine together, there are though rock centers in the outer planets but ice and gas make up the majority. that makes the outer planets.
Can changes in distance between the Earth and the Sun explain seasons?
Not really, the change in distance produces a small effect compared to the differences between summer and winter caused by the tilt of the Earth's axis.
Explain why the temperature of the atmosphere does not increase or decrease steadily as you move from earth's surface toward space.?
The temperature in the Earth's atmosphere does not increase or decrease steadily as you move from the surface towards space because it is influenced by various factors such as solar radiation, atmospheric composition, and the Earth's surface features. These factors create complex interactions that lead to temperature variations at different altitudes, resulting in the atmosphere having distinct layers with different temperature profiles.
Why did originate the protoplanet hypothesis based on theory?
The protoplanet hypothesis originated from the need to explain the formation of planets in a systematic way, based on observations of protoplanetary disks around young stars. It suggests that dust and gas in these disks coalesce through processes like accretion and gravitational attraction, leading to the formation of larger bodies, or protoplanets. This hypothesis is supported by the laws of physics, including gravity and conservation of angular momentum, and aligns with the observed structure of our solar system and others. Ultimately, it provides a coherent framework for understanding the transition from dust clouds to planetary systems.
How do you explain photoplanet hypothesis?
The photoplanet hypothesis suggests that planets can form in the vicinity of stars through the accumulation of dust and gas that is influenced by the star's radiation pressure and stellar wind. This process occurs in protoplanetary disks, where particles collide and stick together, gradually building up larger bodies. The hypothesis emphasizes the role of light and radiation in shaping the conditions for planet formation, particularly in how these forces can affect the distribution and stability of material in the disk. Overall, it contributes to our understanding of how various environmental factors influence the birth and evolution of planetary systems.
How do temperature difference in the protoplanetary disk explain the arrangement of the planets in the solar system?
The protostellar disk is very hot and only rocks and metal can combine together in that heat, so that makes the inner planets. In the outer disk it is very cold, so there are only ice and dust particles able to combine together, there are though rock centers in the outer planets but ice and gas make up the majority. that makes the outer planets.
How do you think the atomists would explain the differences between the drops?
The atomists would explain the differences between drops as variations in the configuration and movement of atoms. They would argue that differences in size, shape, and chemical composition of drops are a result of the atoms they are made of and how these atoms are arranged and interact with each other. Additionally, they might suggest that external factors such as temperature and pressure play a role in shaping these differences.
How does convection explain land?
Convection is the transfer of heat by the movement of a fluid, such as air or water. In the context of land, convection helps explain how heat from the ground is transferred to the atmosphere, leading to differences in temperature between the land surface and the air above it. This temperature difference is responsible for the movement of air masses and the formation of weather systems over land.
How do scientists describe and explain winds?
Scientists describe winds as the movement of air in Earth's atmosphere caused by differences in air pressure. These pressure differences result from variations in temperature, geography, and the Earth's rotation. Scientists use mathematical models and observations from weather stations, satellites, and weather balloons to study and explain the behavior of winds.
Explain the differences between binocular and panoramic vision?
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mike
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kamil_ka@list.ru
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