Temperature: The thermosphere is known for its extremely high temperatures, but it's important to note that the airdensity is so low at this altitude that it would not feel hot to a human standing in the thermosphere.
Ionization: The high-energysolar radiation in the thermosphere causes the ionization of gasmolecules, leading to the formation of ions and free electrons. This ionization is responsible for the auroras that occur near the poles.
International Space Station (ISS): The ISS orbits within the thermosphere, experiencing the very low airdensity and high temperatures of this layer.
The process of ionization and its effects on the behavior of gases in the thermosphere.
The significance of the thermosphere for the International Space Station and other satellites in low Earthorbit.
The gradual transition from the thermosphere to the exosphere and the characteristics of the exosphere.
Additionally, it's helpful to explore the impact of the thermosphere on our daily lives and technological advancements in space exploration and communication.
Concepts of Physical Science: A student should understand and be able to apply the concepts, models, theories, universal principles, and facts that explain the physical world. A student who meets the content standard should:
Develop an understanding of the interactions between matter and energy, including physical, chemical, and nuclear changes, and the effects of these interactions on physical systems.