NOruss_watters said:Welcome to PF!
So, that all sounded about right; did you have a question about any of it?
Mohan Nivas said:The photons not only collide with atmospheric molecules it also collides with the surface... In atmosphere the photons are free to move so most of the photons reaches the surface... Hence it collides more in surface and produce more heat in surface... Thus the most of radiation reaches the surface...:-)
Bro, infrared is an electromagnetic wave which is due to the photons... infrared is the cause for heat.. Not only the infrared, ultraviolet can also produce heat.. That's why I had said photons are cause for the heat which are the basic constituents of all electromagnetic radiations... Is there anything u want to say...?davenn said:forget about individual photons ... its going to lead you down a bad path of confusion
Do you understand that it is infra red that is the primary cause of heating ?
absolutely rit I think.rootone said:Light can be considered either as a particle or a wave.
Depending on what we are trying to achieve sometimes it's best to consider light as photons, other situations make more sense to consider EM as waves.
The relationship of these two distict ways to view EM, both of which are valid, is what lies at the heart of quantum mechanics.
Wikipedia has a good graph showing the spectrum of radiant solar energy that is typically extracted by Earth's atmosphere.Mohan Nivas said:Bro, infrared is an electromagnetic wave which is due to the photons... infrared is the cause for heat.. Not only the infrared, ultraviolet can also produce heat...
I believe I understand what you are getting at, but I STRONGLY disagree with your statement as written. Light is NOT a particle and light is NOT a wave. Light is a quantum object that has both particle-like characteristics and wave-like characteristics. Particles and waves are classical physics objects and light is not either one.rootone said:Light can be considered either as a particle or a wave.
phinds said:I believe I understand what you are getting at, but I STRONGLY disagree with your statement as written. Light is NOT a particle and light is NOT a wave. Light is a quantum object that has both particle-like characteristics and wave-like characteristics. Particles and waves are classical physics objects and light is not either one.
I assume that this is what you actually mean (that it "acts" like one or the other, not that it "is" one or the other).[/QUOTEI had not say that they act like one or other I mean to say they possesses both charactersphinds said:I believe I understand what you are getting at, but I STRONGLY disagree with your statement as written. Light is NOT a particle and light is NOT a wave. Light is a quantum object that has both particle-like characteristics and wave-like characteristics. Particles and waves are classical physics objects and light is not either one.
I assume that this is what you actually mean (that it "acts" like one or the other, not that it "is" one or the other).
The Sun warms the Earth through a process called radiation. The Sun emits light and heat energy, which travels through space and reaches the Earth. This energy is then absorbed by the Earth's surface and atmosphere, causing it to warm up.
The Sun produces both light and heat energy through a process called nuclear fusion. In the Sun's core, hydrogen atoms are fused together to form helium, releasing huge amounts of energy in the form of light and heat.
The Earth's atmosphere contains gases such as carbon dioxide, water vapor, and methane, which act as a greenhouse by trapping some of the Sun's heat. This helps to keep the Earth's surface warm enough to support life.
Yes, the Sun's warmth plays a significant role in the Earth's climate. Changes in the Sun's energy output can impact the Earth's temperature and weather patterns, leading to changes in climate over long periods of time.
The Sun's warmth is essential for life on Earth. It provides the energy needed for photosynthesis in plants, which is the basis of the food chain. It also helps to regulate the Earth's temperature, making it possible for a wide variety of organisms to thrive on our planet.