The atmosphere of Earth changed over millions of years due to volcanic activity releasing gases, the development of photosynthetic organisms producing oxygen, and the evolution of plants that further increased oxygen levels and reduced carbon dioxide. These changes led to the composition of the atmosphere we have today with a balance of gases crucial for supporting life.
Algae played a critical role in changing the atmosphere of Earth by producing oxygen as a byproduct of photosynthesis, which gradually increased the oxygen levels in the atmosphere. This oxygenation helped create conditions that supported the evolution of more complex life forms over time.
A person who studies the Earth's atmosphere is called an atmospheric scientist or meteorologist. They study the behavior and composition of the atmosphere to better understand weather patterns and climate change.
Water vapor is not cycled through the atmosphere of the earth. While water does evaporate into the atmosphere and precipitate back to the earth's surface, the water molecules themselves are not cycled through the atmosphere in the same way that gases such as nitrogen and oxygen are.
No, cyanobacteria helped change the young Earth's atmosphere by producing oxygen through photosynthesis. The accumulation of oxygen in the atmosphere eventually led to the Great Oxidation Event, around 2.4 billion years ago, which transformed the atmosphere to be more oxygen-rich.
One way in which Earth's atmosphere interacts with the hydrosphere is through the process of evaporation. Water from oceans, lakes, and rivers evaporates into the atmosphere, where it then condenses to form clouds and eventually falls back to the Earth's surface as precipitation, completing the water cycle.
Early microbes did not significantly change Earth's atmosphere or climate because they did not produce enough oxygen as a byproduct of their metabolism to have a large-scale impact on the environment.
Barometric pressure,humidity,and temperature.
Algae played a critical role in changing the atmosphere of Earth by producing oxygen as a byproduct of photosynthesis, which gradually increased the oxygen levels in the atmosphere. This oxygenation helped create conditions that supported the evolution of more complex life forms over time.
dynasty
no its dust storm
Yes and no. Our atmosphere is part of the earth, and when you see the blue sky you are actually seeing the light scattered by the atmosphere. Of course if you think of the sky as going all the way to the distant stars, then you are no longer talking about the earth's atmosphere.
Yes.
A person who studies the Earth's atmosphere is called an atmospheric scientist or meteorologist. They study the behavior and composition of the atmosphere to better understand weather patterns and climate change.
Water vapor is not cycled through the atmosphere of the earth. While water does evaporate into the atmosphere and precipitate back to the earth's surface, the water molecules themselves are not cycled through the atmosphere in the same way that gases such as nitrogen and oxygen are.
The earths atmophere came from your mom!
Assuming that the Earth's atmosphere is a perfect sphere, then the atmosphere's center of mass will be at the point equidistant between Earth's poles (i.e. the center of the Earth!).
No, cyanobacteria helped change the young Earth's atmosphere by producing oxygen through photosynthesis. The accumulation of oxygen in the atmosphere eventually led to the Great Oxidation Event, around 2.4 billion years ago, which transformed the atmosphere to be more oxygen-rich.