Why is This Reaction Endothermic?

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The reaction C(s) + H2O ↔ CO(g) + H2 is identified as endothermic because increasing the temperature from 1000 °C to 1500 °C results in more CO production. According to Le Chatelier's principle, adding heat shifts the equilibrium towards the products to counteract the change, indicating that heat acts as a reactant. When more hydrogen is added, the system shifts to the right, producing more CO to restore equilibrium. This behavior confirms that the forward reaction absorbs heat, characteristic of endothermic processes. Thus, the increase in CO formation at higher temperatures supports the conclusion that the reaction is endothermic.
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Homework Statement


At 1500 ° C , CO is formed more than at 1000 ° C. Is the reaction from left to right exothermic or endothermic?

Homework Equations



C(s) + H2O ↔CO(g) + H2[/B]

The Attempt at a Solution


I think its Exothermic reaction . The temperature is increased from 1000°C to 1500 °C . If heat increases the CO + H2 (products) shall produced more. Heat is a product in a exothermic reaction .So
C(s) + H2 ↔CO(g) + H2 +x KJ
But correct answer seems to be endothermic. I don't know why?[/B]
 
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If the system is initially at equilibrium then you add more water vapor, in which direction do you expect the reaction to go? Similarly, if the system is initially at equilibrium then you add more hydrogen gas, in which direction do you expect the reaction to go?
 
If you add hydrogen , the reaction shifts to the right
 
If the products increase when the temperature is increased, then the reaction has to be endothermic. The energy could then be looked at as a reactant and when you increase the reactants, the system has to shift to making more product to compensate- therefore the system would create more CO at higher temperatures.
 
In an equilibrium reaction the system always tries to counter the change introduced. In this reaction the temperature increases so the system tries to decrease the temperature by increasing the production of CO. So the forward reaction decreases the surrounding temperature meaning it is an endothermic reaction.
 

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