That's a decomposition reaction. One reactant, two (or more) simpler products.
More No will be produced
Both H2O2I and H2OI O2 are unknown compounds, chemically speaking even the first looks rather impossible to me. However HO2I and HOI (with 1 i.s.o. 2 H atoms) are real compounds, when correctly written as HIO2 and HIO they are commonly known as Iodic and hypo-Iodic acid. Doing so, the reaction 2 HIO2 --> 2 HIO + O2(g) is called an 'auto-redox decomposition' or an 'internal oxidation-reduction' reaction.
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Its 0
That's a decomposition reaction. One reactant, two (or more) simpler products.
Calcium (Ca) is element. O2 and CaO are molecules.
More No will be produced
Both H2O2I and H2OI O2 are unknown compounds, chemically speaking even the first looks rather impossible to me. However HO2I and HOI (with 1 i.s.o. 2 H atoms) are real compounds, when correctly written as HIO2 and HIO they are commonly known as Iodic and hypo-Iodic acid. Doing so, the reaction 2 HIO2 --> 2 HIO + O2(g) is called an 'auto-redox decomposition' or an 'internal oxidation-reduction' reaction.
Please provide more information/context/clarification to help us answer this question. You can post your response in this answer text by clicking "Edit."
Please provide more information/context/clarification to help us answer this question. You can post your response in this answer text by clicking "Edit."
Enzymes are biological molecules that facilitate chemical reactions. They do not have a fixed structural formula like simple chemicals, as they are composed of amino acids arranged in specific sequences that form complex three-dimensional structures necessary for their function.
O2G commonly refers to "oxygen-to-glucose" ratio, which is a measurement used in biology to determine the efficiency of oxidative metabolism in cells. This ratio indicates how much oxygen is consumed relative to how much glucose is metabolized during cellular respiration. It is an important parameter in understanding cellular energy production.
The coefficient for carbon dioxide in the balanced equation C5H12I + 8 O2 -> 5 CO2 + 6 H2O is 5.
In:(H2)g oxidation state: 0 In:(O2)g oxidation state: 0 In:(H2O)l oxidation state: H: +1 and O: -2
Endothermic reaction.