Flame Wallpapers Description
Flame: for the fire to take a rapid burning action, the combustible material must reach the combustion temperature and contact oxygen for the reaction. For a match to be lit, we bring the match head to the combustion temperature by rubbing it on a flammable surface with the energy of friction. As a result, we see the flame by reaching the flaming combustion reaction. Well, to anyone, "What is a flame?" When we pose the question, he can tell us the formula for a flaming response if he has chemical knowledge.
How the flame radiates light and heat around it. How does it release light and warmth around it, why is it cone-shaped, how does it move in that way, as if it "dances," why is it orangeish? Personally, they were simple questions that I never got a satisfactory answer to, all of these. Now, in a concise and straightforward language, we will explain this phenomenon to those who are curious about this phenomenon like me.
Carbon dioxide and water are formed as a result of flaming combustion with inputs in suitable conditions. So, what kind of dynamic does this fascinating, wonderful feast of light and heat have? Substances that reach a certain temperature radiate. They glow in infrared, ultraviolet, or visible light. The factors that determine this radiation depend on the chemical personality of the substances involved in the combustion reaction. The colors resulting from the radiation depend on the degree of combustion.
Before going into black body radiation, let's talk about what colors it radiates depending on the degree of the burning flame. It is always said that blue and its tones are cold, red, and warm colors. But not so much in terms of physics. The hottest point of a candle or match flame is at the bottom. Noticeably, those hottest spots also glow blue. It is on a scale of 1000-1400 °C. In the reactions here, the vibration is extreme on a molecular basis. Therefore, the wavelength they emit is narrower and closer to purple, glowing blue. At 800-1000 °C, the body of the flame is more orangeish. Since the vibration is less, it is closer to the red, that is, to the broader wavelength. This is roughly why stars moving away from us have a redshift. As the distance traveled by the light increases, the wavelength also opens and shifts to red. Towards the tip of the flame, the color appears to get darker and paler.
Please choose your desired flame wallpaper and set it as a lock screen or home screen to give your phone an outstanding appearance.
We are grateful for your great support and always welcome your feedback about flame wallpapers.
How the flame radiates light and heat around it. How does it release light and warmth around it, why is it cone-shaped, how does it move in that way, as if it "dances," why is it orangeish? Personally, they were simple questions that I never got a satisfactory answer to, all of these. Now, in a concise and straightforward language, we will explain this phenomenon to those who are curious about this phenomenon like me.
Carbon dioxide and water are formed as a result of flaming combustion with inputs in suitable conditions. So, what kind of dynamic does this fascinating, wonderful feast of light and heat have? Substances that reach a certain temperature radiate. They glow in infrared, ultraviolet, or visible light. The factors that determine this radiation depend on the chemical personality of the substances involved in the combustion reaction. The colors resulting from the radiation depend on the degree of combustion.
Before going into black body radiation, let's talk about what colors it radiates depending on the degree of the burning flame. It is always said that blue and its tones are cold, red, and warm colors. But not so much in terms of physics. The hottest point of a candle or match flame is at the bottom. Noticeably, those hottest spots also glow blue. It is on a scale of 1000-1400 °C. In the reactions here, the vibration is extreme on a molecular basis. Therefore, the wavelength they emit is narrower and closer to purple, glowing blue. At 800-1000 °C, the body of the flame is more orangeish. Since the vibration is less, it is closer to the red, that is, to the broader wavelength. This is roughly why stars moving away from us have a redshift. As the distance traveled by the light increases, the wavelength also opens and shifts to red. Towards the tip of the flame, the color appears to get darker and paler.
Please choose your desired flame wallpaper and set it as a lock screen or home screen to give your phone an outstanding appearance.
We are grateful for your great support and always welcome your feedback about flame wallpapers.
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