You would not feel warm in the thermosphere because even though temperatures in the thermosphere can reach thousands of degrees Celsius, the air density is extremely low. This means that there are very few air molecules to transfer heat to your body, so you would not feel hot.
Temperatures in the thermosphere can vary widely, ranging from about 500°C (932°F) during the day to 2000°C (3632°F) or more during periods of high solar activity. However, it is important to note that the thermosphere is not like a typical environment on Earth where we feel the temperature – the sparse density of gas molecules means that the "hot" thermosphere would not feel hot to our skin.
Because of the low density, molecules, particles and atoms, heat wouldn't be transmitted to your skin receptors.
The thermosphere has high temperature because the few molecules present can absorb high-energy solar radiation. However, since there are so few molecules, the heat energy is not readily transferred to a thermometer, so it would not feel hot to us.
The thermosphere can reach temperatures as high as 2,500 degrees Celsius (4,532 degrees Fahrenheit) due to the absorption of high-energy solar radiation. However, despite these high temperatures, the thermosphere would not feel hot to us because the air density is so low that it cannot transfer much heat to objects passing through it.
The Thermosphere feels very cold to us because of its low Thermal Energy.There are very few particles in the Thermosphere, so even if they were very, very hot, it would feel cold.
You would not feel warm in the thermosphere because even though temperatures in the thermosphere can reach thousands of degrees Celsius, the air density is extremely low. This means that there are very few air molecules to transfer heat to your body, so you would not feel hot.
Temperatures in the thermosphere can vary widely, ranging from about 500°C (932°F) during the day to 2000°C (3632°F) or more during periods of high solar activity. However, it is important to note that the thermosphere is not like a typical environment on Earth where we feel the temperature – the sparse density of gas molecules means that the "hot" thermosphere would not feel hot to our skin.
The thermosphere is so hot because sunlight strikes this layer of the atmosphere first.
Because of the low density, molecules, particles and atoms, heat wouldn't be transmitted to your skin receptors.
The thermosphere has high temperature because the few molecules present can absorb high-energy solar radiation. However, since there are so few molecules, the heat energy is not readily transferred to a thermometer, so it would not feel hot to us.
The thermosphere can reach temperatures as high as 2,500 degrees Celsius (4,532 degrees Fahrenheit) due to the absorption of high-energy solar radiation. However, despite these high temperatures, the thermosphere would not feel hot to us because the air density is so low that it cannot transfer much heat to objects passing through it.
Thermosphere and and Exosphere are the first ones to receive the suns rays so they can reflect to the clouds and the sun could reflect into the water and points to where it is needed Comment: I think the answer is "hot".
The upper layer of the atmosphere is called the thermosphere because temperatures in this region can reach very high values, up to thousands of degrees Celsius. This is due to the absorption of solar radiation by gases in the thermosphere. Despite the high temperatures, the thermosphere would not feel hot to our skin because the air density is so low.
A person would feel cold in the thermosphere because although the temperature is very high due to the sun's radiation, the air density is extremely low, so there are fewer air molecules to transfer heat to the body. The lack of air molecules means there is less heat conduction, making it feel cold to a person.
because of the air molecules when they touch your skin. :)
The thermosphere, one of the outer layers of Earth's atmosphere, has high temperatures but does not feel hot to us because of the extremely low density of molecules in this layer. The lack of molecules means that there is not enough matter to transfer heat to our bodies, making it feel cold even though the temperatures are high.