When iron (II) sulfate is put into water, it dissolves to form Fe2+ ions and SO4 2- ions. The chemical equation is: FeSO4 (s) โ Fe2+ (aq) + SO4 2- (aq).
Potassium reacts vigorously with water to produce potassium hydroxide and hydrogen gas. This reaction releases a lot of heat and hydrogen gas, which can ignite, resulting in a flame or explosion. Therefore, it is not safe to put potassium in water.
The reversible chemical reaction for the heating of hydrated copper sulfate (CuSO4ยท5H2O) is: CuSO4ยท5H2O (blue) โ CuSO4 (white) + 5H2O The blue hydrated copper sulfate loses its water molecules when heated to form white anhydrous copper sulfate and water molecules are released. This reaction is reversible, meaning the white anhydrous copper sulfate can regain water molecules to reform the blue hydrated copper sulfate under appropriate conditions.
To transform cupric sulfate to cupric hydroxide, you can mix cupric sulfate (CuSO4) with a base like sodium hydroxide (NaOH) in a reaction vessel. The balanced chemical equation for this reaction is: CuSO4 + 2NaOH โ Cu(OH)2 + Na2SO4. This will result in the formation of cupric hydroxide (Cu(OH)2) and sodium sulfate (Na2SO4) as a byproduct.
When nickel sulfate is put into water, it dissociates into its ions - nickel (II) ions and sulfate ions. These ions then interact with water molecules through hydration to form a homogeneous solution.
This compound is soluble in water.
Potassium Sulfate, as it suggests, is made up of potassium and a sulfate ion. Potassium is an element shown as K on the periodic table. However, sulfate is a polyatomic ion (basically two or more atoms put together that have a charge). The formula for sulfate is SO4 with a charge of 2-. Potassium, on the other hand, has a charge of +1. Therefore, when you put the two together it would give you potassium sulfate, aka K2SO4.
Any reaction occur when gold is put in copper sulfate.
When cobalt(II) sulfate is added to water, it dissociates into its ions. The formula for cobalt(II) sulfate is CoSO4, and when it is added to water, it dissociates into Co^2+ (cobalt ion) and SO4^2- (sulfate ion).
When iron (II) sulfate is put into water, it dissolves to form Fe2+ ions and SO4 2- ions. The chemical equation is: FeSO4 (s) โ Fe2+ (aq) + SO4 2- (aq).
Potassium metal will react violently with water to form KOH and hydrogen gas. Due to the heat released by the reaction - the hydrogen gas will ignite. So: placing potassium in water will cause a fire!
A strong electrolyte dissociates completely into ions in aqueous solution. When potassium acetate, a strong electrolyte, is put into water the cations and anions are surrounded by water molecules and the solid dissolves by the following equation:KCH3COO(s) ----> K+(aq) + CH3CO2-(aq)
Potassium reacts violently with water to form POTASSIUM HYDROXIDE(KOH)and hydrogen gas K+H2O---------- KOH+H2 The H2 catches fire due to the heat of the reaction which in turn ignites potassium .potassium burn's with a crimson flame.
The potassium reacts with the water to form potassium hydroxide and hydrogen gas. The reaction is very exothermic, and the hydrogen explodes during the reaction. THIS IS A VERY DANGEROUS REACTION! DO NOT ATTEMPT IT ON YOUR OWN!
Potassium reacts vigorously with water to produce potassium hydroxide and hydrogen gas. This reaction releases a lot of heat and hydrogen gas, which can ignite, resulting in a flame or explosion. Therefore, it is not safe to put potassium in water.
Pure Potassium (K) will catch fire and may explode upon contact with water or very humid air.
The reversible chemical reaction for the heating of hydrated copper sulfate (CuSO4ยท5H2O) is: CuSO4ยท5H2O (blue) โ CuSO4 (white) + 5H2O The blue hydrated copper sulfate loses its water molecules when heated to form white anhydrous copper sulfate and water molecules are released. This reaction is reversible, meaning the white anhydrous copper sulfate can regain water molecules to reform the blue hydrated copper sulfate under appropriate conditions.