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it can never be spontanious
Either the change (which the delta refers to) of the height (which the h represents).
zdfjnghkmdlkdhsgk.d,fgxjhihale.,dhjnbrsfj;z hgikIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will beIn the reaction B + KL + H, if an additional B is added, the result will be
It represents the heat involved in a reaction.
There are three specific laws to keep in mind when working with reaction enthalpies. They are: Î?H is directly proportional to the quantity of a substance that reacts or is produced by a reaction, Î?H for a reaction is equal in magnitude but opposite in sign to Î?H for the reverse reaction, and Î?H is independent of the number of steps involved.
it can never be spontanious
it is never spontaneous
it can never be spontanious
It can be said to be exothermic since H is negative. Also below a temp of 3708ºC, the reaction will be spontaneous because ∆G will be negative. This is from ∆G = ∆H - T∆S.
The Reaction is Endothermic
It can be said to be exothermic since H is negative. Also below a temp of 3708ºC, the reaction will be spontaneous because ∆G will be negative. This is from ∆G = ∆H - T∆S.
it is spontaneous at 500 k
It is spontaneous.
The h reaction is the difference between Hf products and Hf reactants - apex
The reaction is exothermic.
It is spontaneous at 2000 K.
Either the change (which the delta refers to) of the height (which the h represents).