It is not a chemical reaction, it is dissolution; this physical process is exothermic.
The chemical formula of magnesium sulfate is MgSO4.7H2O.
When dehydrated magnesium sulfate dissolves in water, it undergoes a hydration process where water molecules surround and interact with the magnesium and sulfate ions. This process releases energy in the form of heat, making the dissolution exothermic. The energy released is due to the formation of new bonds between the water molecules and the ions, which is energetically favorable. This heat released during the dissolution process is what makes it exothermic.
Magnesium Oxide Reacts With Sulfur Trioxide added: Magnesium sulfate is formed: MgO + SO3 --> MgSO4
Lead will not react with magnesium sulfate because lead is less reactive than magnesium. Magnesium will displace lead in a single displacement reaction, but in the case of magnesium sulfate, there is no driving force for the reaction to occur.
When you mix Epsom salts (magnesium sulfate) with calcium chloride, a chemical reaction occurs that produces magnesium chloride and calcium sulfate. This reaction is exothermic, meaning it releases heat. The resulting mixture can lead to the formation of solid precipitates, depending on the concentrations used. It's important to handle these chemicals with care, as the heat generated can be significant.
The stuff is actually used in some hotpacks. It's exothermic.
exothermicby Arindam
The dehydration of hydrated copper II sulfate is an endothermic reaction because energy in the form of heat is required to break the bonds holding the water molecules within the crystal lattice of the compound. This results in the absorption of heat from the surroundings.
The reaction ofanhydrousmagnesium sulfate with water is exothermic. This is a fine white powder. The container must be covered for it will react with water in the air if exposed. The container will feel warm otherwise. In the tests I've done, it gets no higher than 30˚C which is roughly 86˚F. So it is warm, but not hot.The hydrous magnesium sulfate (epsom salt) is endothermic. This is a crystalized form magnesium sulfate where water is used in thecrystalbonds. To access the magnesium sulfate in its ionized form, the crystal must be broken. This requires energy and thus results in a lower heat yield in he aqueous solution.
The reaction of white copper sulfate with water is exothermic because it releases heat as it dissolves in water. This heat is generated due to the breaking of bonds between the copper and sulfate ions in the solid compound.
No, the reaction between copper sulfate and hydrochloric acid is exothermic, meaning it releases heat. This is because energy is released when the products are formed, making the overall reaction exothermic.
When magnesium reacts with dilute sulfuric acid, magnesium sulfate and hydrogen gas are produced. The balanced chemical equation for the reaction is: Mg + H2SO4 -> MgSO4 + H2. The reaction is exothermic, meaning that it releases heat.
When dilute sulfuric acid is added to zinc granules, a displacement reaction takes place, resulting in the formation of zinc sulfate and hydrogen gas. This reaction is exothermic, which means it releases heat energy.
When magnesium reacts with sulfuric acid, it produces magnesium sulfate, hydrogen gas, and heat. The reaction is exothermic and the hydrogen gas produced can be observed as bubbles. Additionally, magnesium sulfate is a white solid that can form as a precipitate in the solution.
because magnezium is more reactive
When sodium hydroxide reacts with magnesium sulfate, a double displacement reaction occurs where the sodium ions from sodium hydroxide switch places with the magnesium ions from magnesium sulfate to form sodium sulfate and magnesium hydroxide. The products of this reaction are aqueous sodium sulfate and a white precipitate of magnesium hydroxide.
When magnesium reacts with sulfuric acid, you would observe the production of hydrogen gas bubbles, the magnesium metal dissolving or reacting to form magnesium sulfate, and the solution becoming warmer due to the exothermic nature of the reaction.