The scale height of Earth's atmosphere is about 8.5 kilometers. This height plays a crucial role in determining the distribution of gases in the atmosphere, which in turn affects the planet's climate and weather patterns. The scale height influences the temperature, pressure, and density of the atmosphere at different altitudes, leading to variations in weather conditions and climate patterns across the globe.
Prominences occur in the chromosphere layer of the sun's atmosphere. They are large, bright, gaseous features that extend outward from the sun's surface.
The Earth's atmosphere extends about 480 km (300 miles) from the surface, but the majority of its mass is concentrated within the first 16 km (10 miles), known as the troposphere. Beyond the atmosphere lies outer space.
The atmosphere can extend up to about 10,000 km above Earth's surface, but the density of air decreases significantly as you move higher. The exosphere, the outermost layer of Earth's atmosphere, is where the atmosphere transitions into space.
Scale height is a crucial factor in understanding the composition and properties of an atmosphere. It represents the distance over which the atmospheric pressure decreases by a factor of e (approximately 2.718), and is influenced by the temperature and mass of the atmosphere. A larger scale height indicates a more gradual decrease in pressure with altitude, which can affect the distribution of gases and their interactions within the atmosphere. This information is essential for studying atmospheric dynamics, climate, and the potential habitability of a planet.
Greenhouse gases extend very high. They extend in the troposphere.
Troposphere is the lowest layer of atmosphere. It extend up to a height of 10km. It is a turbulent and dusty zone as it contains air (N2, O2, CO2 )much water vapours and clouds .
Pull up exercise will not shorten your height. There is no scientific evidence that pull ups will shorten or extend your height.
it means the air height.
describe how the height of the tides changes from monday to thursday
To find the percentage of atmosphere above a certain height in kilometers, you can use the barometric formula to calculate the pressure at that height. Then, you can simply divide the pressure at the given height by the pressure at sea level (1013.25 mb) and multiply by 100 to get the percentage of atmosphere above that height.
I believe they are called Prominences. Cheers
No, only through the trophosphere...
In our atmosphere there are different layers and Troposphere is the lowest layer , which extend up to a height of 10 km. It is called turbulent sphere as it contains air (N2, O2, CO2 )much water vapours and clouds .
The scale height of Earth's atmosphere is about 8.5 kilometers. This height plays a crucial role in determining the distribution of gases in the atmosphere, which in turn affects the planet's climate and weather patterns. The scale height influences the temperature, pressure, and density of the atmosphere at different altitudes, leading to variations in weather conditions and climate patterns across the globe.
Yes, that works for any triangle. The height always has to be at a right angle to the base. If there is an angle over 90 degrees, you may have to extend the base.Yes, that works for any triangle. The height always has to be at a right angle to the base. If there is an angle over 90 degrees, you may have to extend the base.Yes, that works for any triangle. The height always has to be at a right angle to the base. If there is an angle over 90 degrees, you may have to extend the base.Yes, that works for any triangle. The height always has to be at a right angle to the base. If there is an angle over 90 degrees, you may have to extend the base.
ledger lines