The temperature difference above Earth's surface is mainly due to variations in solar radiation absorption and atmospheric conditions. Different parts of the planet receive varying amounts of sunlight depending on factors like latitude and time of year, leading to variations in temperature. Additionally, atmospheric dynamics, such as the greenhouse effect and vertical temperature profiles, also contribute to differences in temperature at different altitudes.
The Earth's average surface temperature during the twentieth century was around 13.9 to 15.1 degrees Celsius, depending on data sources.
The average surface temperature of the Earth is approximately 288 Kelvin (K), which is equivalent to about 15 degrees Celsius or 59 degrees Fahrenheit.
The temperature typically decreases by 6.4°C for every 1 km increase in altitude in the troposphere. So, the total temperature change between 3km and 7km above Earth's surface would be around 25.6°C, calculated by multiplying the lapse rate by the difference in altitude (6.4°C/km x 4km).
Thick cloud cover can act as a blanket, trapping heat and causing the surface temperature to increase. Conversely, it can also reflect sunlight back into space, leading to a cooling effect on the surface temperature. The net effect depends on factors such as cloud altitude, composition, and thickness.
Height above earths surface is called elevation
is mount novarupta responsible for any of earths surface changes
temperature increases with depth
i belive so
A temperature inversion.
No when there density increases
it increases
Help me!
Mercury has an average surface temperature (67°) closest to the Earths average surface temperature (14°C). The temperature on Mercury varies a lot though - you could argue that Mars is closer in temperature.
It would block out significant sunlight, lowering the temperature.
Lower temperature and the counter-effect of condensation.
water
The force responsible for keeping you on Earth's surface is the gravitational force. This force is generated by the mass of the Earth, which pulls objects towards its center.