The Earth's atmosphere extends upward about 6,000 kilometers (approximately 3,700 miles) from the surface. This includes various layers such as the troposphere, stratosphere, mesosphere, thermosphere, and exosphere. While the majority of the atmosphere is concentrated within the first 50 kilometers, traces of atmospheric gases can be found at much higher altitudes, contributing to the overall extent.
The layer that extends upward from an altitude of 550 km to 1,000 km is known as the thermosphere. In this region, temperatures can rise significantly due to the absorption of high-energy solar radiation, leading to the presence of ionized particles. The thermosphere is also where the auroras occur and is home to the International Space Station's orbit.
The chromosphere of the sun extends about 10,000 km above the sun's surface. This region is located above the photosphere and is characterized by a reddish glow during solar eclipses.
The layer that extends from 300 km to more than 600 km above the Earth's surface is the thermosphere. In this layer, temperatures can rise significantly due to the absorption of high-energy solar radiation. The thermosphere is characterized by a decrease in density and is where phenomena such as the auroras occur, as well as the region where the International Space Station orbits.
It extends from roughly 4.4 to 7.4 billion kilometers from the Sun.
The exosphere is the atmospheric layer that is the furthest from Earth's surface. It extends from about 500 km to 10,000 km above sea level.
A depth of 6000 km would be within the lower mantle layer of the Earth. The lower mantle extends from about 660 km to 2900 km below the Earth's surface.
The layer that extends upward from an altitude of 550 km to 1,000 km is known as the thermosphere. In this region, temperatures can rise significantly due to the absorption of high-energy solar radiation, leading to the presence of ionized particles. The thermosphere is also where the auroras occur and is home to the International Space Station's orbit.
The chromosphere of the sun extends about 10,000 km above the sun's surface. This region is located above the photosphere and is characterized by a reddish glow during solar eclipses.
It is: 6000 m = 6 km
6,000 km = 3,728.23 miles.
Neither is bigger. 6 km and 6000 m are equal to the same distance.
They are the same because 6000 meters equals 6 km
6 km
1 mile = 1.609344 km, use this conversion factor
6 km = 6000 m ! ============ There are 1000 meters in every 1 kilometer.
1 km = 1000 m so 6 km = 6*1000 = 6000 m. Simple!
6000