exothermic
because of exothermic reaction b/w water and detergent
Endothermic and exothermic reactions are chemical reactions where as cooling a beer is simply moving heat from one place to another. So to answer your question, cooling a beer is neither endothermic, nor exothermic, it is thermally neutral. That is to say that ( not counting heat generated by inefficiency ) the amount of heat remains constant throughout the "cooling" process.
Steam itself is not endothermic or exothermic - only chemical reactions can be labelled as exothermic or endothermic the reaction whithin the steam can only be exothermic or endothermic
It is probably the neutralisation of the detergent, an alkali, and water, although the pH of water is 7. Neutralisation is an exothermic reaction, which means heat is produced, therefore detergent gets hot when wet.
exothermic
exothermic
Examples for exothermic change are burning of fuels or coal, burning of a fire cracker and glowing of an electric lamp.
Condensation is exothermic reaction because it is the process of conversion of gas into liquid by cooling and for cooling heat is released. Hence, it is exothermic reaction.Hope you are satisfied with the answer.
because of exothermic reaction b/w water and detergent
It Get's Really Hot. An Exothermic Reaction/
The hotness of water proves heat is absorbed by water so the process is exothermic which releases the heat and is absorbed by water.
it is obviously rock
Do home repair grants cover heating and cooling units or hot water heaters
That would be an endothermic process.
Endothermic and exothermic reactions are chemical reactions where as cooling a beer is simply moving heat from one place to another. So to answer your question, cooling a beer is neither endothermic, nor exothermic, it is thermally neutral. That is to say that ( not counting heat generated by inefficiency ) the amount of heat remains constant throughout the "cooling" process.
The water pump humps cool water from the radiator through the engine. Hot water. Leaves the engine and enters the top of the radiator. The hot water works its way through the radiator cooling itself.