When anhydrous copper sulfate (CuSO4) gets wet, it absorbs water and undergoes a chemical reaction to form hydrated copper sulfate (CuSO4·5H2O), which is commonly known as blue vitriol. This results in a color change from white to blue as the compound gains water molecules and becomes hydrated.
When anhydrous copper sulfate becomes wet, it undergoes an exothermic reaction as it absorbs water to form hydrated copper sulfate. This reaction releases heat, resulting in a temperature increase in the surrounding area.
If pewter gets wet, it may develop water stains or tarnish. It is important to dry pewter thoroughly after it gets wet to prevent any damage. Additionally, prolonged exposure to water could potentially cause corrosion on the surface of pewter over time.
If water is added to copper ore, the ore may undergo a process called leaching, where the water can dissolve some of the copper content from the ore. This can help in separating the copper from the other components of the ore, making it easier to extract the copper.
When plaster gets wet, it can soften, weaken, and eventually crumble. The water breaks down the gypsum crystals in the plaster, leading to loss of structural integrity and deformation. Mold and mildew growth can also occur in wet plaster, causing damage and posing health risks.
Then the ear gets wet...
It gets disappeared when if it gets wet.
When anhydrous copper sulfate (CuSO4) gets wet, it absorbs water and undergoes a chemical reaction to form hydrated copper sulfate (CuSO4·5H2O), which is commonly known as blue vitriol. This results in a color change from white to blue as the compound gains water molecules and becomes hydrated.
When anhydrous copper sulfate becomes wet, it undergoes an exothermic reaction as it absorbs water to form hydrated copper sulfate. This reaction releases heat, resulting in a temperature increase in the surrounding area.
it gets wet
it disolves
He gets wet
it gets wet
It gets rusty and smells funny.
It changes color and
It spawns.
It breaks