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When a candle burns, why does the top of wick glow if bottom of flame is hottest?



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$begingroup$


Totally an elementary question.



Staring at a candle, it appears that the bottom of the wick is dark whereas the top glows. However the bottom of the flame (the blue) is the hottest.



Is the reason for this that the concentration of liquid wax is greater at the bottom, offsetting the greater temperature at the bottom?



enter image description here










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  • $begingroup$
    The yellow part of a flame is coloured by glowing tar/char and wick particles.
    $endgroup$
    – Karl
    52 mins ago
















3












$begingroup$


Totally an elementary question.



Staring at a candle, it appears that the bottom of the wick is dark whereas the top glows. However the bottom of the flame (the blue) is the hottest.



Is the reason for this that the concentration of liquid wax is greater at the bottom, offsetting the greater temperature at the bottom?



enter image description here










share|improve this question









New contributor




ZAR is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.







$endgroup$












  • $begingroup$
    The yellow part of a flame is coloured by glowing tar/char and wick particles.
    $endgroup$
    – Karl
    52 mins ago














3












3








3


1



$begingroup$


Totally an elementary question.



Staring at a candle, it appears that the bottom of the wick is dark whereas the top glows. However the bottom of the flame (the blue) is the hottest.



Is the reason for this that the concentration of liquid wax is greater at the bottom, offsetting the greater temperature at the bottom?



enter image description here










share|improve this question









New contributor




ZAR is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.







$endgroup$




Totally an elementary question.



Staring at a candle, it appears that the bottom of the wick is dark whereas the top glows. However the bottom of the flame (the blue) is the hottest.



Is the reason for this that the concentration of liquid wax is greater at the bottom, offsetting the greater temperature at the bottom?



enter image description here







thermodynamics heat combustion light






share|improve this question









New contributor




ZAR is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.











share|improve this question









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edited 22 mins ago









A.K.

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asked 1 hour ago









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New contributor





ZAR is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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Check out our Code of Conduct.












  • $begingroup$
    The yellow part of a flame is coloured by glowing tar/char and wick particles.
    $endgroup$
    – Karl
    52 mins ago


















  • $begingroup$
    The yellow part of a flame is coloured by glowing tar/char and wick particles.
    $endgroup$
    – Karl
    52 mins ago
















$begingroup$
The yellow part of a flame is coloured by glowing tar/char and wick particles.
$endgroup$
– Karl
52 mins ago




$begingroup$
The yellow part of a flame is coloured by glowing tar/char and wick particles.
$endgroup$
– Karl
52 mins ago










2 Answers
2






active

oldest

votes


















2












$begingroup$

The top of the wick glows because it is hotter than the bottom. The wick temperature does not have to be the same as the flame temperature.



For a candle, the wick burning isn't the intended purpose of the wick; light comes from burning wax (more generally: fuel), you want to burn the wax not the wick. Rather the purpose purpose of a wick is to help fuel evaporate by soaking up wax and allowing the radiant energy from the flame to heat the wax causing it to evaporate and burn also.



As wax travels up the wick, it evaporates and less wax is in the wick the further up you go. Eventually the dries up and the radiant energy is heating a wick without any wax. Eventually the wick get so hot at the tip, that it will glow due to black-body radiation.



In summary: though the blue is the hottest part of the flame, the wick can evaporate wax to cool towards the bottom. There is no wax at the top and thus as the radiant energy of the flame causes it to get hotter until it starts to glow.



Extra: I will note that the top of the wick does not burn when lit as the gas around the wick has too little oxygen to burn (unless the wick slumps out side the flame). When you blow out the candle the low oxygen environment of a flame is gone and thus the hot wick will smolder.






share|improve this answer









$endgroup$





















    1












    $begingroup$

    Because fire is not the same thing as light.



    Michael Faraday did a wonderful job of explaining how the candle works, and I direct to look at it (there are also Youtubes videos giving a modern take on this work) if you're interested.



    In short, the candle produces light, not because it is hot, but because it is sooty. The particles of soot glow when they are hot (blackbody radiation), and that's what produces light.



    If you take a flame where the fuel is very well-mixed with oxygen and the flame that's produced is not sooty, it does not glow like a candle even though it's very hot. This is precisely why Bunsen burners are used in a laboratory. They give a hot but non-illuminating flame that's great for doing analysis.






    share|improve this answer









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      2 Answers
      2






      active

      oldest

      votes








      2 Answers
      2






      active

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      votes









      active

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      active

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      2












      $begingroup$

      The top of the wick glows because it is hotter than the bottom. The wick temperature does not have to be the same as the flame temperature.



      For a candle, the wick burning isn't the intended purpose of the wick; light comes from burning wax (more generally: fuel), you want to burn the wax not the wick. Rather the purpose purpose of a wick is to help fuel evaporate by soaking up wax and allowing the radiant energy from the flame to heat the wax causing it to evaporate and burn also.



      As wax travels up the wick, it evaporates and less wax is in the wick the further up you go. Eventually the dries up and the radiant energy is heating a wick without any wax. Eventually the wick get so hot at the tip, that it will glow due to black-body radiation.



      In summary: though the blue is the hottest part of the flame, the wick can evaporate wax to cool towards the bottom. There is no wax at the top and thus as the radiant energy of the flame causes it to get hotter until it starts to glow.



      Extra: I will note that the top of the wick does not burn when lit as the gas around the wick has too little oxygen to burn (unless the wick slumps out side the flame). When you blow out the candle the low oxygen environment of a flame is gone and thus the hot wick will smolder.






      share|improve this answer









      $endgroup$


















        2












        $begingroup$

        The top of the wick glows because it is hotter than the bottom. The wick temperature does not have to be the same as the flame temperature.



        For a candle, the wick burning isn't the intended purpose of the wick; light comes from burning wax (more generally: fuel), you want to burn the wax not the wick. Rather the purpose purpose of a wick is to help fuel evaporate by soaking up wax and allowing the radiant energy from the flame to heat the wax causing it to evaporate and burn also.



        As wax travels up the wick, it evaporates and less wax is in the wick the further up you go. Eventually the dries up and the radiant energy is heating a wick without any wax. Eventually the wick get so hot at the tip, that it will glow due to black-body radiation.



        In summary: though the blue is the hottest part of the flame, the wick can evaporate wax to cool towards the bottom. There is no wax at the top and thus as the radiant energy of the flame causes it to get hotter until it starts to glow.



        Extra: I will note that the top of the wick does not burn when lit as the gas around the wick has too little oxygen to burn (unless the wick slumps out side the flame). When you blow out the candle the low oxygen environment of a flame is gone and thus the hot wick will smolder.






        share|improve this answer









        $endgroup$
















          2












          2








          2





          $begingroup$

          The top of the wick glows because it is hotter than the bottom. The wick temperature does not have to be the same as the flame temperature.



          For a candle, the wick burning isn't the intended purpose of the wick; light comes from burning wax (more generally: fuel), you want to burn the wax not the wick. Rather the purpose purpose of a wick is to help fuel evaporate by soaking up wax and allowing the radiant energy from the flame to heat the wax causing it to evaporate and burn also.



          As wax travels up the wick, it evaporates and less wax is in the wick the further up you go. Eventually the dries up and the radiant energy is heating a wick without any wax. Eventually the wick get so hot at the tip, that it will glow due to black-body radiation.



          In summary: though the blue is the hottest part of the flame, the wick can evaporate wax to cool towards the bottom. There is no wax at the top and thus as the radiant energy of the flame causes it to get hotter until it starts to glow.



          Extra: I will note that the top of the wick does not burn when lit as the gas around the wick has too little oxygen to burn (unless the wick slumps out side the flame). When you blow out the candle the low oxygen environment of a flame is gone and thus the hot wick will smolder.






          share|improve this answer









          $endgroup$



          The top of the wick glows because it is hotter than the bottom. The wick temperature does not have to be the same as the flame temperature.



          For a candle, the wick burning isn't the intended purpose of the wick; light comes from burning wax (more generally: fuel), you want to burn the wax not the wick. Rather the purpose purpose of a wick is to help fuel evaporate by soaking up wax and allowing the radiant energy from the flame to heat the wax causing it to evaporate and burn also.



          As wax travels up the wick, it evaporates and less wax is in the wick the further up you go. Eventually the dries up and the radiant energy is heating a wick without any wax. Eventually the wick get so hot at the tip, that it will glow due to black-body radiation.



          In summary: though the blue is the hottest part of the flame, the wick can evaporate wax to cool towards the bottom. There is no wax at the top and thus as the radiant energy of the flame causes it to get hotter until it starts to glow.



          Extra: I will note that the top of the wick does not burn when lit as the gas around the wick has too little oxygen to burn (unless the wick slumps out side the flame). When you blow out the candle the low oxygen environment of a flame is gone and thus the hot wick will smolder.







          share|improve this answer












          share|improve this answer



          share|improve this answer










          answered 20 mins ago









          A.K.A.K.

          10.2k62671




          10.2k62671























              1












              $begingroup$

              Because fire is not the same thing as light.



              Michael Faraday did a wonderful job of explaining how the candle works, and I direct to look at it (there are also Youtubes videos giving a modern take on this work) if you're interested.



              In short, the candle produces light, not because it is hot, but because it is sooty. The particles of soot glow when they are hot (blackbody radiation), and that's what produces light.



              If you take a flame where the fuel is very well-mixed with oxygen and the flame that's produced is not sooty, it does not glow like a candle even though it's very hot. This is precisely why Bunsen burners are used in a laboratory. They give a hot but non-illuminating flame that's great for doing analysis.






              share|improve this answer









              $endgroup$


















                1












                $begingroup$

                Because fire is not the same thing as light.



                Michael Faraday did a wonderful job of explaining how the candle works, and I direct to look at it (there are also Youtubes videos giving a modern take on this work) if you're interested.



                In short, the candle produces light, not because it is hot, but because it is sooty. The particles of soot glow when they are hot (blackbody radiation), and that's what produces light.



                If you take a flame where the fuel is very well-mixed with oxygen and the flame that's produced is not sooty, it does not glow like a candle even though it's very hot. This is precisely why Bunsen burners are used in a laboratory. They give a hot but non-illuminating flame that's great for doing analysis.






                share|improve this answer









                $endgroup$
















                  1












                  1








                  1





                  $begingroup$

                  Because fire is not the same thing as light.



                  Michael Faraday did a wonderful job of explaining how the candle works, and I direct to look at it (there are also Youtubes videos giving a modern take on this work) if you're interested.



                  In short, the candle produces light, not because it is hot, but because it is sooty. The particles of soot glow when they are hot (blackbody radiation), and that's what produces light.



                  If you take a flame where the fuel is very well-mixed with oxygen and the flame that's produced is not sooty, it does not glow like a candle even though it's very hot. This is precisely why Bunsen burners are used in a laboratory. They give a hot but non-illuminating flame that's great for doing analysis.






                  share|improve this answer









                  $endgroup$



                  Because fire is not the same thing as light.



                  Michael Faraday did a wonderful job of explaining how the candle works, and I direct to look at it (there are also Youtubes videos giving a modern take on this work) if you're interested.



                  In short, the candle produces light, not because it is hot, but because it is sooty. The particles of soot glow when they are hot (blackbody radiation), and that's what produces light.



                  If you take a flame where the fuel is very well-mixed with oxygen and the flame that's produced is not sooty, it does not glow like a candle even though it's very hot. This is precisely why Bunsen burners are used in a laboratory. They give a hot but non-illuminating flame that's great for doing analysis.







                  share|improve this answer












                  share|improve this answer



                  share|improve this answer










                  answered 49 mins ago









                  ZheZhe

                  13.2k12650




                  13.2k12650






















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