if it is heated above 1200 degrees celsius than it melts
copper sulphate and hydrogen is released.
The dehydrated copper sulfate is grayish-white.
When copper and zinc are heated together, they can bond and form an alloy called brass. Brass is a strong and durable material that is commonly used in applications where both metals' properties are desired.
When HCl (hydrochloric acid) mixes with heated copper, the copper reacts with the acid to form copper(II) chloride and hydrogen gas. The reaction releases heat and the copper may also appear to be dissolved as it reacts with the acid.
When copper wire is heated, it expands due to thermal expansion. As it gets hotter, the electrons in the copper atoms move more freely, increasing electrical resistance. Excessive heating can cause the copper wire to melt and ultimately vaporize.
When copper(II) sulfate is heated, it undergoes thermal decomposition and breaks down into copper(II) oxide and sulfur dioxide gas. The blue color of copper(II) sulfate fades as it loses water molecules during heating.
When sulfuric acid is mixed with copper oxide and heated, a chemical reaction occurs. The copper oxide reacts with the sulfuric acid to form copper sulfate and water. The reaction is exothermic, meaning it releases heat.
When copper sulfate crystals are heated, they lose their water of hydration and turn into anhydrous copper sulfate, which is a white powder. The color change from blue to white signifies the removal of water molecules.
They both release carbon dioxide,but at different temperatures
it went up because the mass increases
The space of the atoms increase!