If you mean the enthalpy of formation then no, it is exothermic.
That reaction is vigorously exothermic. Energy in the form of heat and light is released to the surroundings during this reaction.
All elements up to Iron are exothermic in their formation. The formation of magnesium in a star is therefore accompanied by a release of energy from matter.
Quick reality check: did you actually ask if burningsomething was endothermic?
endothermic i think
exothermic
Exothermic (gives off heat - and light!).
The combustion is exothermic.
This is a vigorous exothermic reaction
NO ... all burning/combustion reactions are exothermic.
Yes, very. Exothermic - Reaction that produces heat. Endothermic - Reaction that absorbs heat.
Exothermic (gives off heat - and light!).
No, it is exothermic.
The combustion is exothermic.
exothermic reactions are the reactions which give out heat and endothermic reactions are the reaction which absorb heat.so combustion is an exothermic reaction.
This is a vigorous exothermic reaction
An endothermic reaction is a reaction that absorbs heat. This is different from an exothermic reaction, such as combustion, which releases heat.
NO ... all burning/combustion reactions are exothermic.
Yes, very. Exothermic - Reaction that produces heat. Endothermic - Reaction that absorbs heat.
An exothermic process is one that gives off energy/heat, while an endothermic process absorbs heat/energy.So a combustion reaction, which is basically an explosion, would definitely be exothermic.
It is not a chemical reaction, it is dissolution; this physical process is exothermic.
The stuff is actually used in some hotpacks. It's exothermic.
exothermicby Arindam