thedarkshade Posted November 7, 2007 Share Posted November 7, 2007 We were discussing about magnesium last class and its reactions with water. And what I found interesting is that when the water is cold, it forms magnesium oxide, but when the water is hot (near boiling temperature) then it forms magnesium hydroxide. These are the reactions: Mg + H20 --> MgO +H2 (cold water) Mg + 2H2O --> Mg(OH)2 + H2 (hot water) Interesting! WHY DOES THIS HAPPEN? WHAT CAUSES IT? Link to comment Share on other sites More sharing options...
psynapse Posted November 8, 2007 Share Posted November 8, 2007 temperature affects pH so what are the formation constants for each and check if the pK's are near that of different pH's. Thats where I would start. Link to comment Share on other sites More sharing options...
thedarkshade Posted December 24, 2007 Author Share Posted December 24, 2007 When we learned about pH, we mentioned that water can function as base and also as acid ([ce]H2O ->[/ce][math]H^{+} + OH^{-}[/math]) and we also mentioned that the the product of these two represents the ionic product for water : [math]Kw=[H^{+}][OH{-}]=10^{-7}\frac{mol}{dm^3}\times 10^{-7}\frac{mol}{dm^3}=1\times 10^{-14}\frac{mol^2}{dm^6}[/math] But this product is when the temperature is round 25C (or a bit lower), because this product changes with temperature. For example, in 50C the ionic product for water is 5 times greater than in 25C, and in 100C the product is 50 times greater. So could this be the reason why Mg + H2O forms different substances in different temperature? [ce]Mg + H2O -> MgO + H2[/ce] (cold water) [ce]Mg + 2H2O -> Mg(OH)2 + H2 [/ce] (hot water) So is the answer "the ionic product for water"? Link to comment Share on other sites More sharing options...
ChemSiddiqui Posted December 25, 2007 Share Posted December 25, 2007 Well as the temperature increases and looking at the equillibrium that is to say H20 -------> H+ + OH- . The process is endothermic. So according to Le Chateleir's Principal (don't mind the spellings), as we increase the temperature the forward reaction is favoured and so does the production of H+ ions. So ph does drop and the reaction will take place completely and more reactively. Link to comment Share on other sites More sharing options...
thedarkshade Posted December 25, 2007 Author Share Posted December 25, 2007 Well as the temperature increases and looking at the equillibrium that is to say H20 -------> H+ + OH- . The process is endothermic. So according to Le Chateleir's Principal (don't mind the spellings), as we increase the temperature the forward reaction is favoured and so does the production of H+ ions. So ph does drop and the reaction will take place completely and more reactively. Yeah, you're right! It just has to maintain the balance somehow! Thanks for the info;) ! Link to comment Share on other sites More sharing options...
ChemSiddiqui Posted December 26, 2007 Share Posted December 26, 2007 No problem! Link to comment Share on other sites More sharing options...
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