Iron would require a higher amount of heat due to the fact that it is a metal and has stronger bonds than water does. Water is made up of hydrogen bonds which allow it to heat up quickly.
um i am very sorry but i am not sure why dont you try to google it if you dont know !
Aluminium
they do not form when heated! they form crystals when they are frozen bu a freezer or room tempreature.
The end that is being heated should be hotter than the other end.
Carbon burn in air.
When methane is heated strongly, it undergoes a process called pyrolysis, breaking down into simpler compounds like carbon and hydrogen. This can result in the formation of volatile hydrocarbons, carbon black, and even soot.
A gas as carbon dioxide is easily expanded by heating; hydrogen peroxide is decomposed.
I am almost positive that it explodes
when natural gas is strongly heated, hydrogen(H) and carbon(C) are obtained.
The word equation for sodium hydrogen carbonate when heated is: sodium hydrogen carbonate (sodium bicarbonate) → sodium carbonate + carbon dioxide + water.
It decomposes into calcium oxide and carbon dioxide
Here is the reaction:CaCO3(s) ==heat==> CaO(s) + CO2(g) So, when calcium carbonate is heated, you get calcium oxide and carbon dioxide gas.
If a solid is heated to give off carbon dioxide and water, it must contain at carbon, oxygen, and hydrogen atoms. One such substance is the bicarbonate ion, which is formed from hydrogen and water with the loss of a proton. In fact, when salts of this ion are sufficiently heated, they decompose to water and carbon dioxide.
KCLO3 is used in the determination of hydrogen and carbon in sugar through a process called combustion analysis. When sugar is heated with KCLO3, it undergoes combustion, converting all carbon to CO2 and all hydrogen to H2O. By measuring the amount of CO2 and H2O produced, the amount of carbon and hydrogen in the sugar can be calculated.
When formic acid is heated at 575 K with magnesium, the formic acid will undergo decarboxylation, resulting in the formation of carbon dioxide gas and magnesium formate. Magnesium will react with formic acid to form magnesium formate and hydrogen gas will be released as a byproduct.
copper sulphate and hydrogen is released.