No. It is endothermic as it requires energy.
Electrolysis is the process that divides water into oxygen and hydrogen through use of electricity.
The decomposition of H2O2 is exothermic and oxygen is released.
Exothermic , since when they react, they form a bond. All bonds that are formed release potential energy , and any exothermic reaction involves a loss of energy.
chemical and exothermic
It is an endothermic reaction because in endothermic reaction energy is added .In that reaction nitrogen does not react with oxygen without energy added in the shape current . In that reaction 3000`current is applieded to take reaction b/w nitrogen and oxygen
Hydrogen combining with oxygen to form water is an exothermic reaction, which is why hydrogen burns.
A chemical reaction.
Electrolysis is the process that divides water into oxygen and hydrogen through use of electricity.
The decomposition of H2O2 is exothermic and oxygen is released.
To produce water? Exothermic and very much so.Take a mixture, spark it and it will burn or explode. Heat energy is given off far in excess of whatever energy was needed to start the reaction.
During the light dependent reaction, it produced Oxygen and Hydrogen..hope that can help...:D
Exothermic , since when they react, they form a bond. All bonds that are formed release potential energy , and any exothermic reaction involves a loss of energy.
The mixture of oxygen and hydrogen at high temperature (a reaction occur) is very explosive.
Splitting water results in oxygen and hydrogen. The water element is separated into two hydrogen atoms and one oxygen atom.
chemical and exothermic
The reaction of potassium with water is highly exothermic. That is, it gives off a lot of heat. Hydrogen, which is formed by the chemical reaction is ignited by this heat and so explodes.
It is an endothermic reaction because in endothermic reaction energy is added .In that reaction nitrogen does not react with oxygen without energy added in the shape current . In that reaction 3000`current is applieded to take reaction b/w nitrogen and oxygen