There are many different forms of energy, including heat and light. if u heat an object, like the burner on a stove, to a high enough temperature, it will get re hot. when this happens, the burner is giving off 2 forms of energy , heat and light.If you put your hands near a light buld, you can see light and feel heat, even though you are not touching the light bulb . this kind is radiation and i cant tell you the rest so find it somewhere else not here kk ppl
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U MAKE ME SICK BECAUSE U PPL ARE DUM AND U PPL ONLY FIND ANSWERS HERE SO TRY THINKING HARDER THTS MA ADVICE OR SHOULD I SAY DONKEYS OR IN SPANISH BURRO O TONTO
Heat transfer within the atmosphere occurs via all three modes of heat transfer:Conduction - as the air contacts existing heat sources. These might be surfaces that have been heated previously viaabsorptionof solar radiation or from chemical reactions Convection - as warm air mixes with cold air as air currents move the air around and as buoyancy effects cause warm air to rise and cooler air to sink. Radiation - much of the air is composed of heat absorbing molecules such as water vapor. Solar radiation is absorbed by these molecules, causing them to warm up.
What kind of radiation? Remember, Beta radiation is particles (electrons)and Alpha radiation is Helium nuclei.Some radiation will transfer energy to particles ... which may speed them up,it may heat them,it may cause fluorescence.
Solar radiation mostly passes through the atmosphere without heating it, due to its wavelength. It does not pass through the ground, however, and it heats the ground. The ground emits radiation at a wavelength dependent on its temperature. This radiation happens to be in the thermal infrared part of the spectrum, or in other words, sensible heat. Therefore, the atmosphere is heated by the surface, whereupon the heat tends to rise and heat the lower atmosphere.
heat will escape a window by conduction as is it a solid, if something is touching it, by convection, as a fluid (air included) moves past it, and by radiation since thermal energy will always flow from hot to cold.
The heat transfer between the heated water in a pool and yourself will primarily occur through conduction. When you enter the water, the molecules of your body come into direct contact with the water molecules, transferring heat. Additionally, some heat transfer may also occur through convection as warmer water moves and circulates around your body.
it is heated by conduction by the earths atmosphere
Conduction warms the atmosphere as fast-moving molecules come into contact with lower-energy molecules until all molecules are moving at about the same rate. As the atmosphere warms, molecules move apart. As the heated air flows, heat is transferred by convection from warm, low-pressure air to cooler, high-pressure air.
conduction
Earth's atmosphere is mainly heated from the ground up because the heat is absorbed into the ground. The warmed surface of the earth then emits heat as infrared radiation which rises into the atmosphere. There the greenhouse gases like water vapour, carbon dioxide and methane absorb and hold the heat.
Conduction heats the atmosphere by transfer of heat from the Earth's surface to the lower atmosphere through direct contact. As the Earth's surface gets heated by the sun, it transfers some of that heat to the air molecules in contact with it. This process helps warm the lower atmosphere.
Radiation from the Sun warms the Earth's surface, which then emits infrared radiation towards the atmosphere. This infrared radiation can be absorbed by greenhouse gases and clouds, leading to reradiation back towards the Earth, trapping heat. Conduction and convection transfer this heat within the atmosphere, redistributing it vertically and horizontally to maintain Earth's temperature balance.
Conduction warms the atmosphere as fast-moving molecules come into contact with lower-energy molecules until all molecules are moving at about the same rate. As the atmosphere warms, molecules move apart. As the heated air flows, heat is transferred by convection from warm, low-pressure air to cooler, high-pressure air.
The atmosphere near Earth's surface is heated from below primarily through the process of conduction. This occurs as the Earth's surface absorbs solar radiation and heats up, transferring this heat to the adjacent air molecules through direct contact. As the air warms, it becomes less dense and rises, creating convective currents that distribute the heat throughout the atmosphere.
Energy is passed to the atmosphere by conduction when the air near the Earth's surface is heated by contact with the warm ground. This heat transfer occurs as molecules collide and transfer kinetic energy to adjacent molecules, causing the air to warm up.
The atmosphere is heated chiefly by radiation from Earth's surface because the Earth's surface absorbs solar energy and emits it as infrared radiation. This infrared radiation is then trapped by greenhouse gases in the atmosphere, causing the atmosphere to be heated. Direct solar radiation contributes to heating the Earth's surface, which in turn warms the atmosphere through convection and radiation.
The atmosphere is heated below primarily through the absorption of solar radiation by the Earth's surface. This leads to the gradual warming of the air closest to the surface through conduction and convection. Additionally, heat is also transferred from the surface to the atmosphere through processes like evaporation and condensation.
Well, honey, conduction is like a game of hot potato where molecules pass on heat by bumping into each other. So, when the sun's rays hit the Earth, the ground gets heated up and then transfers that heat to the air through conduction. It's like a giant cozy blanket keeping our atmosphere warm and toasty.