It entirely depends on what the blue solid is! If it's copper sulfate, the solid dissolves. If it's lapis lazuli, the solid sinks to the bottom. If it's small pieces of blue fibreglass, it will probably float.
The blue copper (2) sulfate is undergoing a reversible reaction. When heated, it forms a white solid (copper (2) oxide) and water. When water is added to the white solid, it forms the original blue copper (2) sulfate, releasing heat, indicating an exothermic reaction.
When water is added to anhydrous copper sulfate, it forms copper (II) sulfate pentahydrate, a blue crystalline solid. So, the color change observed is from white (anhydrous) to blue (pentahydrate) when water is added.
When copper sulphate is added to water, it dissociates into copper ions (Cu2+) and sulphate ions (SO4 2-). This forms a blue-colored solution due to the presence of copper ions in the water.
When copper sulfate is added to water, it dissociates into copper ions and sulfate ions. The copper ions give the solution a blue color, while the sulfate ions do not impact the color. The solution becomes a blue color due to the presence of copper ions.
When copper sulfate is added to water, it dissolves to form a blue colored solution. This solution can be used for various applications, such as a fungicide in agricultural settings or as an ingredient in electrolyte solutions.
The blue copper (2) sulfate is undergoing a reversible reaction. When heated, it forms a white solid (copper (2) oxide) and water. When water is added to the white solid, it forms the original blue copper (2) sulfate, releasing heat, indicating an exothermic reaction.
When water is added to anhydrous copper sulfate, it forms copper (II) sulfate pentahydrate, a blue crystalline solid. So, the color change observed is from white (anhydrous) to blue (pentahydrate) when water is added.
Blue, because the copper cations become hydrated and the hydrated ions have a blue color.
Anhydrous copper sulfate solid is white. When it is added to water, it dissolves and the solution of aqueous copper sulfate becomes blue.
Copper reacts with nitric acid to produce copper (II) nitrate. In water, it forms a clear blue solution.
When copper sulphate is added to water, it dissociates into copper ions (Cu2+) and sulphate ions (SO4 2-). This forms a blue-colored solution due to the presence of copper ions in the water.
When water is added to white copper sulfate (CuSO4), it dissolves and forms a blue-colored solution. This reaction is reversible, as the blue color disappears when the water evaporates and the white copper sulfate crystals are left behind.
When blue light is shone on a red solid, the red solid will absorb the blue light and reflect or transmit the red color. This is because the red solid absorbs blue light due to its selective absorption properties.
Copper nitrate is a blue crystalline solid and is soluble in water. It has a melting point of 114 °C.
As you know that iodine act as indicator for testing of starch so when a drop of iodine is added to starch it turns bluish black but when added to distilled water nothing happens except the colour of water which turns brown and its is the colour of iodine.
When copper sulfate is added to water, it dissociates into copper ions and sulfate ions. The copper ions give the solution a blue color, while the sulfate ions do not impact the color. The solution becomes a blue color due to the presence of copper ions.
When water is added to anhydrous copper (II) sulfate, it will undergo an exothermic reaction where the compound absorbs water molecules to form hydrated copper (II) sulfate. The anhydrous copper (II) sulfate changes color from white to blue as it forms the hydrate.