As a teenager, have you ever accidentally burned aluminum in a campfire?

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    Heating Magnesium
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When heating magnesium in a crucible, magnesium oxide (MgO) can escape if the lid is lifted, primarily due to the potential for powdered solids to become airborne. Magnesium burns exothermically, producing high temperatures that can lead to vaporization, although the combustion process primarily involves molten magnesium rather than significant vaporization. The discussion highlights a misconception about the relationship between boiling points and combustibility, clarifying that ignition temperatures and surface oxidation properties are more relevant. The differences in burning behavior between magnesium and aluminum are attributed to their oxide properties and surface reactions, which affect combustion rates. Overall, the combustion of magnesium is characterized by a bright flame and rapid oxidation, contrasting with the slower oxidation of aluminum.
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Hi

If you were making MgO by heating Mg in a crucible with a lid on, why might the MgO escape when you lift the lid. Isn't MgO a solid?

thanks
 
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It is solid, but nothing stops solids from becoming airborne if they are powdered. Try to blow into pinch of starch.

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methods
 
thanks
 
Furthermore, consider that magnesium boils at ~ 900°C (it's for this reason that you can ignite it with a normal flame; with aluminum you can't, it boils at ~ 2500°C). The combustion of Mg with air is extremely exothermic (temperatures reached are much more than 900°C) and Mg boils off quickly.
 
lightarrow said:
Furthermore, consider that magnesium boils at ~ 900°C (it's for this reason that you can ignite it with a normal flame; with aluminum you can't, it boils at ~ 2500°C).

That's just plain wrong. The boiling point of a substance, which is related to the energy of its intermolecular bonds, has nothing at all to do with its combustibility, which is related to the energy required to initiate a reaction with oxygen.

Heat a bit of aluminum foil in a crucible to a relatively modest 5-600 C and you'll see it rapidly oxidize and much of it will vaporize.
 
alxm said:
That's just plain wrong. The boiling point of a substance, which is related to the energy of its intermolecular bonds, has nothing at all to do with its combustibility, which is related to the energy required to initiate a reaction with oxygen.

Heat a bit of aluminum foil in a crucible to a relatively modest 5-600 C and you'll see it rapidly oxidize and much of it will vaporize.
Probably "ignite" it's not the proper term, don't know. What I mean is that you can make an Mg tape (for ex.) start burning and making a flame, simply using a bunsen/lighter flame. When you "ignite" (tell me if it's the proper term) a piece of wood, it starts burning and making a flame because of the gaseous chemicals generated, which mix with air and burn. The same with Mg: it melts, then a small percent vaporizes and that gaseous part mixes with air and burns. You can do this with a bunsen/lighter flame because Mg metal boils at 900°C only. You can't do it with Al metal.
Hope it's more clear now.
 
lightarrow said:
The same with Mg: it melts, then a small percent vaporizes and that gaseous part mixes with air and burns. You can do this with a bunsen/lighter flame because Mg metal boils at 900°C only. You can't do it with Al metal.
Hope it's more clear now.

No, you're still entirely wrong. Solids and liquids burn just fine, things do not have to be mixed with air in the gas phase to burn. Burning magnesium gives off a lot of heat, so some of it will melt, and you'll have droplets of molten, burning magnesium, but little or none of the metallic Mg will boil off or vaporize. Your description is simply not what's happening.

A bunsen burner does not get anywhere near 900 C, unless you've got a huge burner and it happens to be inside a refractory furnace that you're pumping air into.
 
alxm said:
No, you're still entirely wrong.
Sorry, it's you the one who is wrong.

Solids and liquids burn just fine, things do not have to be mixed with air in the gas phase to burn.
Why you didn't read what I wrote? Now I underline it:
<<you can make an Mg tape (for ex.) start burning and making a flame, simply using a bunsen/lighter flame>>

Burning magnesium gives off a lot of heat, so some of it will melt, and you'll have droplets of molten, burning magnesium, but little or none of the metallic Mg will boil off or vaporize. Your description is simply not what's happening.
A bunsen burner does not get anywhere near 900 C, unless you've got a huge burner and it happens to be inside a refractory furnace that you're pumping air into.
You have seen bunsen burners in pictures only, isnt'it? I easily (= a few seconds) melt copper threads with my own bunsen burner, at home. Which is the melting point of copper? 1083°C?
 
alxm said:
Solids and liquids burn just fine

I think a lot depends on what you mean by "burn". As far as I can tell from my observations (and I am a pyromaniac :devil:), flame requires gaseous fuel mixed with air. For example when you burn wood, initially when heated it emits flammable gases which burn and form the flame around the piece of wood itself. Once only charcoal is left, there are no longer flames present, just glowing embers.

Could be that's kind of a language problem - for example in Polish first phase of the process has different name (wood "płonie" - with flames) than the second one (charcoal "żarzy się" - it glows, emits heat, but there are no flames present).
 
  • #10
Borek said:
I think a lot depends on what you mean by "burn". As far as I can tell from my observations (and I am a pyromaniac :devil:), flame requires gaseous fuel mixed with air.

Well, I define 'burn' as 'thermal oxidation' (I'm not sure if I would narrow it down to 'with air' or not). I don't think it's so far fetched, people consider charcoal to be 'burning' even when there's no flame. It's not uncommon to say "burns without a flame" in English if you want to specify the latter.

In either case, a magnesium strip does not burn with a flame in the same way that a piece of wood does; there are no (or few) vaporized partially-oxidized species flying around.
 
  • #11
lightarrow said:
Furthermore, consider that magnesium boils at ~ 900°C
No, I remembered wrongly, it's zinc whic boils at ~ 900°C. Magnesium boils at ~ 1090°C . Anyway a bunsen burner reach easily that temperature.
 
  • #12
alxm said:
In either case, a magnesium strip does not burn with a flame in the same way that a piece of wood does; there are no (or few) vaporized partially-oxidized species flying around.
It cannot burn exactly in the same way that a piece of wood does, since a burning piece of wood doesn't melt, it releases gaseous chemicals (mostly methanol and acetone) by thermal decomposition; magnesium instead melts when it burns; I used the example of the wood just because of the flame; our controversy is if it vaporizes significantly or not during the process. When a thin piece of magnesium is heated with a flame, it starts burning *suddenly* and with a *very bright combustion*. Why? And why the same doesn't happen with aluminium, even if its melting point is very similar to that of Mg (Mg = 650°C, Al = 660°C)?
 
  • #13
lightarrow said:
our controversy is if it vaporizes significantly or not during the process

No, the 'controversy' is that you equated boiling points with ignition temperatures when they have nothing to do with each other. There's nothing to debate about this, it's factually false.

When a thin piece of magnesium is heated with a flame, it starts burning *suddenly* and with a *very bright combustion*. Why?

Why is explained in chemistry textbooks. Boiling and melting points have nothing to do with it.

And why the same doesn't happen with aluminium, even if its melting point is very similar to that of Mg (Mg = 650°C, Al = 660°C)?

Aluminum burns brightly and gives off quite a lot of energy as well, just look at a thermite reaction. It just has a higher ignition temperature, and will generally burn slower due to how the oxidation occurs at the surface interface.

Which again has nothing to do with boiling or melting points.
 
  • #14
alxm said:
No, the 'controversy' is that you equated boiling points with ignition temperatures
? Not at all!

when they have nothing to do with each other. There's nothing to debate about this, it's factually false.
Of course it's false, but I also have *never* stated that...

Why is explained in chemistry textbooks. Boiling and melting points have nothing to do with it.
Really? I was waiting for you to tell me this :smile:

Aluminum burns brightly and gives off quite a lot of energy as well, just look at a thermite reaction.
So you don't want to read what I wrote. Please, try to ignite with a bunsen burner a piece of aluminium tape/ribbon in the same way as you do with magnesium:
http://www.amazingrust.com/experiments/how_to/Mg.html

If that was still not clear:
*take a piece of Al ribbon and try to ignite it with a bunsen burner*

It just has a higher ignition temperature, and will generally burn slower due to how the oxidation occurs at the surface interface.
And why it has a (very) higher ignition temperature if it has (almost) the same melting point? And why it should burn slower due to how the oxidation occurs at the surface interface, since this oxidation at the surface interface (obviously) happens with Mg too?
 
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  • #15
lightarrow said:
And why it should burn slower due to how the oxidation occurs at the surface interface, since this oxidation at the surface interface (obviously) happens with Mg too?

Properties of oxides are different, one sticks to the surface isolating metal from the oxygen, other falls off, exposing more metal ready to react. For me that's a sufficient explanation.
 
  • #16
Borek said:
Properties of oxides are different, one sticks to the surface isolating metal from the oxygen, other falls off, exposing more metal ready to react. For me that's a sufficient explanation.
It is, in the case of a solid phase; but here we are talking of a liquid phase, many little droplets of liquid metal burning inside a very hot surrounding (we can have an idea of the temperature from the white colour of the flame); in these conditions, even Al2O3 is continuously removed/broken from the liquid surphace. You say it could be rimoved with greater difficulty compared to MgO, ok, it's possible; I say however that a small but significant percent of Mg also vaporizes and this contributes to the burning of the Mg ribbon.
 
  • #17
lightarrow said:
? Not at all! Of course it's false, but I also have *never* stated that...

Yes you did. you wrote: "Furthermore, consider that magnesium boils at ~ 900°C (it's for this reason that you can ignite it with a normal flame; with aluminum you can't, it boils at ~ 2500°C)"

Really? I was waiting for you to tell me this :smile:

Why would I bother? I know that I know the chemistry here. I've got a M.S in phys chem after all.

*take a piece of Al ribbon and try to ignite it with a bunsen burner*

Yes, why don't you? It will oxidize into Al2O3. It will just not burn as violently as magnesium does.
I have done it, in effect, by leaving an empty aluminum pot on a gas stove. Within 10 minutes it'd burned a hole straight through it.

And why it has a (very) higher ignition temperature if it has (almost) the same melting point?

You just repeated your idiotic equating of ignition temperature with material properties. They have next to nothing to do with each other.
And aluminum does not have a much higher ignition temperature. Aluminum powder will ignite at around 650 C, not much higher than for magnesium. The reason why block aluminum metal does not readily ignite is due to surface interface effects.

And why it should burn slower due to how the oxidation occurs at the surface interface

Because the rate of combustion is limited by that. Maybe you should look up how dust explosions occur.

since this oxidation at the surface interface (obviously) happens with Mg too?

They don't have the same crystal or oxide structures.
 
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  • #18
alxm said:
? Not at all! Of course it's false, but I also have *never* stated that...
Yes you did. you wrote: "Furthermore, consider that magnesium boils at ~ 900°C (it's for this reason that you can ignite it with a normal flame; with aluminum you can't, it boils at ~ 2500°C)"
You are right, don't know what I was thinking about here :smile:
take a piece of Al ribbon and try to ignite it with a bunsen burner
Yes, why don't you? It will oxidize into Al2O3. It will just not burn as violently as magnesium does.
"As violently"? I've never been able to ignite an aluminium ribbon with a bunsen burner *at all*. Ah, yes, it oxidizes, of course, but it doesn't make a flame with sudden heat and light generation, I mean this with "igniting".
And aluminum does not have a much higher ignition temperature. Aluminum powder will ignite at around 650 C, not much higher than for magnesium.
Aluminum powder is not an aluminum ribbon.
The reason why block aluminum metal does not readily ignite is due to surface interface effects.
Maybe. But maybe it's not the only reason.
Why would I bother? I know that I know the chemistry here. I've got a M.S in phys chem after all
I can make mistakes and I'm ready to accept it, even because I don't have a master in chemistry (but it's not the only reason). Anyway you have made at least two mistakes :

1. you wrote a bunsen burner cannot reach 900°C:
A bunsen burner does not get anywhere near 900 C, unless you've got a huge burner and it happens to be inside a refractory furnace that you're pumping air into

2. you wrote magnesium cannot boil in the flame:
Burning magnesium gives off a lot of heat, so some of it will melt, and you'll have droplets of molten, burning magnesium, but little or none of the metallic Mg will boil off or vaporize.
 
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  • #19
alxm said:
That's just plain wrong. The boiling point of a substance, which is related to the energy of its intermolecular bonds, has nothing at all to do with its combustibility, which is related to the energy required to initiate a reaction with oxygen.

Heat a bit of aluminum foil in a crucible to a relatively modest 5-600 C and you'll see it rapidly oxidize and much of it will vaporize.

With out a doubt. I personally have burned Al in a camp fire. Wish it had been foil but it was a relatively new pancake griddle. I was a teenager, what more need I say.
 
  • #20
lightarrow said:
You are right, don't know what I was thinking about here :smile:

So read your own damn posts before you accuse someone else of being wrong and misquoting you.

lightarrow said:
Ah, yes, it oxidizes, of course, but it doesn't make a flame with sudden heat and light generation, I mean this with "igniting".

So try aluminum powder instead. Or a thermite reaction. The fact that you can't ignite an aluminum ribbon with a bunsen burner does not mean that aluminum cannot ignite at that temperature, much less that aluminum doesn't burn.

Anyway you have made at least two mistakes :
1. you wrote a bunsen burner cannot reach 900°C:

How is that a mistake? An ordinary bunsen burner flame barely reaches 900 C, which means that if you heat a solid object with it, in an open environment, it will be much lower than 900 C. Again you're taking an overly simplistic view. A burning substance does not have a specific temperature, it's all due to circumstances. Charcoal burns slowly on a fire, but charcoal dust in air will explode. Charcoal in a blast furnace will melt steel, charcoal in a barbecue will not.

2. you wrote magnesium cannot boil in the flame:

No, I didn't. I wrote that 'little or none' of the magnesium will boil off. Because it burns faster than it can boil off. Magnesium, like all metals, has a huge heat of vaporization. It does not instantly turn into gas just because you're at or above the boiling temperature.
 
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  • #21
alxm said:
So read your own damn posts before you accuse someone else of being wrong and misquoting you.
Ok, I apologize for this.
So try aluminum powder instead. Or a thermite reaction. The fact that you can't ignite an aluminum ribbon with a bunsen burner does not mean that aluminum cannot ignite at that temperature, much less that aluminum doesn't burn.
Ok, agreed. However from some posts we were discussing about igniting an Al ribbon and now it seems you are trying to avoid the subject.

Anyway you have made at least two mistakes :
1. you wrote a bunsen burner cannot reach 900°C
How is that a mistake? An ordinary bunsen burner flame barely reaches 900 C, which means that if you heat a solid object with it, in an open environment, it will be much lower than 900 C.
That's false, you can melt copper wires up to ~1mm in a few seconds in a bunsen flame. Copper melting point =~ 1083°C. Unless in your country/region/laboratory you have really poor bunsen fuel.

Again you're taking an overly simplistic view. A burning substance does not have a specific temperature, it's all due to circumstances. Charcoal burns slowly on a fire, but charcoal dust in air will explode. Charcoal in a blast furnace will melt steel, charcoal in a barbecue will not.
Ok, I can agree with it. At ~ 600°C Mg starts reacting with air oxygen fast enough to mantain the burning without the flame, then temperature increases again, up to ~ 2200°C:
http://en.allexperts.com/q/Thermodynamics-2200/2008/11/Magnesium-Combustion-1.htm
and this means Mg vaporizes abundantly.

2. you wrote magnesium cannot boil in the flame
No, I didn't. I wrote that 'little or none' of the magnesium will boil off. Because it burns faster than it can boil off. Magnesium, like all metals, has a huge heat of vaporization. It does not instantly turn into gas just because you're at or above the boiling temperature.
This is rather ridiculous. If a substance is above boiling temperature (and 2200°C are much above 1100°C), by definition it boils...
Certainly it boils at the surface only, it's not water in a pot just before putting spaghetti in it.
 
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  • #22
Integral said:
With out a doubt. I personally have burned Al in a camp fire. Wish it had been foil but it was a relatively new pancake griddle. I was a teenager, what more need I say.

You have seen it burning, or did it fall into fire, got oxidized and changed into some modern Al based sculpture?
 
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