day
At which time of day is the heat flow entering Earth's atmosphere (Hin) highest?A. sunriseB. middayC. sunsetD. midnightThe answer is B midday
Interatomic separation causes heat to flow slowly. As there will be time involved in transferring heat at a gap.
Atmosphere.
Our bodies are perfectly normal with heat and cold at the same time. Heat increases the flow of blood while cold decreases the flow of blood, so when they are both together reacting at the same time, basically the flow of blood is going at a normal rate
the most effective way to do so is to reduce the flow of the heat exchanger
The afternoon because the lower atmosphere receives more heat than it loses.
The moon is hotter than the earth in day time but also colder in night time because the earth has a atmosphere which doesnt object us to as much heat or coldness, but the moon has no atmosphere and take in much heat in day time and freezing cold at night :) So most planets with a larger atmosphere unless really close or really far away to the sun isn't as hotter as the earth
Mercury is less hotter than Venus because it has a thin atmosphere and the heat that is attracted during day time goes away at night and the temperature becomes -170 degrees while Venus has a thick atmosphere and does not allow heat to pass.
The Earth's atmosphere traps heat through a process called the greenhouse effect. Greenhouse gases in the atmosphere, such as carbon dioxide and water vapor, allow sunlight to pass through and warm the Earth's surface. When this heat radiates back towards space, the greenhouse gases trap some of it, preventing it from escaping and leading to an overall warming of the planet.
It's unlikely that light and energy reflected from buildings on earth would heat up the moon. This is because the atmosphere and the ozone insulate and protect the earth, and at the same time contain energy and heat within the atmosphere. Just as the ozone and atmosphere prevent dangerous cosmic energies from penetrating to the earths surface, so too heat from the earth will not go through the ozone back into space, or at least not enough will go back to heat the moon. There will be some 'earth-shine' on the moon, but only enough to be able to see the earth and perhaps give some light to the dark sky.
Terrestrial radiation refers to heat emitted from the earth's atmosphere and surface.
Because it is being heated from below, and warm air likes to rise. Solar radiation generally does not heat the atmosphere, but heats the earth's surface, which then radiates thermal energy (heat) back into the atmosphere. Since this warm air rises, there tends to be constant vertical motion in the lower atmosphere, which is the essence of instability.