i) CaCo3(s) -> CaO(g)+CO2()g {heat energy}
ii)2AgCl(s) -> 2Ag(s)+Cl2(g){light energy}
iii)2H2O(l) -> 2H2((g)+O2(g){electricity}
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Breaking chemical bonds is always endothermic. 463 kJ/mole are required to break O-H bonds. There are two O-H bonds per water molecule, so one mole of water requires 926kJ to break all the bonds. this energy requirement is supplied by the electrical current.
Dark reaction needs energy. this energy is supplied by light reaction
It means heat was supplied to make the reaction occur.
A chemical reaction that releases energy is called an exothermic reaction.
It is released into the atmosphere, but some of it is used later on in cellular respiration
Li2O is the answer because the decomposition of a binary compound, a compound made up of two elements, into the two individual elements in their standard form. This process usually requires energy in the form of heat or electricity to be supplied.
Breaking chemical bonds is always endothermic. 463 kJ/mole are required to break O-H bonds. There are two O-H bonds per water molecule, so one mole of water requires 926kJ to break all the bonds. this energy requirement is supplied by the electrical current.
Dark reaction needs energy. this energy is supplied by light reaction
It means heat was supplied to make the reaction occur.
the photosynthetic process= 6 CO2 + 6 H2O --> C6H12O6 + 6 O2
Heat-- CaCO3 (Limestone/ Calcium Carbonate)(s)------>(Thermal decomposition that is, decompsition by heat)CaO(Quick Lime)(s) + CO2 (carbon dioxide)(g)CaCO3--->CaO + CO2Light2AgCl(s)(Silver Chloride)----->(Sunlight)2Ag(s)(silver)+ Cl2 (g) (chlorine gas)2AgCl--->2Ag+Cl2Electricity2H2O(Water)--->(Electric Current)2H2(Hydrogen gas) (g) + O2(Oxygen) (g)2H2O----> 2H2 + O2Also called electrolysis of water, that is, breaking up water into hydrogen and oxygen.PS- I can't believe I just answered your question and that I am this idle. See, I even put the subscripts!Well it will I just answered your question.
Insufficient information has been supplied to enable a satisfactory answer to this question to be provided.
There is NO form of energy in which it can ever be supplied by enzyme, because enzymes do not change (chemically) in their supported reactions, and so 'energy' is never 'supplied' by any enzyme. It can however lower the activation energy but that is only a virtual form of chemical energy which cannot be added or lowered by anything.
Water is split during light reactions to release oxygen.
Mitochondria make Adenosine Tri-Phosphate (ATP) from Adenosine Di-Phosphate (ADP), a phosphate and energy supplied for various reactions.
Water is broken down. It is called photolysis. Electrons are supplied to photosynthesis
Read the leaflet supplied with the box It has been tested by the british drugs foundation any reactions,side effects will be notified in the leaflet