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Yes, when magnesium ribbon is added to copper sulfate solution, a reaction takes place where magnesium displaces copper from the solution. This reaction produces magnesium sulfate and elemental copper. No gas is formed during this reaction.
When Copper II Sulfate reacts with Magnesium, a single-replacement reaction occurs where magnesium replaces copper in the compound. The result of this reaction is the formation of Magnesium Sulfate and Copper metal.
Cu & MgSO4 do NOT react. because in the Reactivity Series magnesium is MORE reactive than copper. So Mg will preferentially oxidise before Cu, Since it is already oxidised in MgSO4 as the ion Mg^(2+), it has already reacted, by ionising two electrons.
A displacement reaction takes place as magnesium is above copper in the electrochemical series. This reaction would produce copper (Cu) and magnesium sulphate (MgSO4) (sorry i cant find an arrow symbol for below) Mg + CuSO4 (arrow) Cu + MgSO4
At ambient conditions (the temperatures and pressure in an ordinary lab room) magnesium sulfate will be solid. It will also dissolve easily in water to become aqueous; magnesium sulfate is the chemical formula for Epsom Salts. It will hydrate easily in the presence of humid air - but remain solid. You really won't get it to melt - it decomposes before melting - so you wouldn't get it as a liquid, nor would you get it to boil to become a gas. Like any solid, it will sublime just a little bit at low pressures but the vapor pressure of the salt is so low that for all practical purposes we wouldn't worry about it ever evaporating/subliming any more than we worry about table salt evaporating.
Yes, when magnesium ribbon is added to copper sulfate solution, a reaction takes place where magnesium displaces copper from the solution. This reaction produces magnesium sulfate and elemental copper. No gas is formed during this reaction.
When Copper II Sulfate reacts with Magnesium, a single-replacement reaction occurs where magnesium replaces copper in the compound. The result of this reaction is the formation of Magnesium Sulfate and Copper metal.
Cu & MgSO4 do NOT react. because in the Reactivity Series magnesium is MORE reactive than copper. So Mg will preferentially oxidise before Cu, Since it is already oxidised in MgSO4 as the ion Mg^(2+), it has already reacted, by ionising two electrons.
A displacement reaction takes place as magnesium is above copper in the electrochemical series. This reaction would produce copper (Cu) and magnesium sulphate (MgSO4) (sorry i cant find an arrow symbol for below) Mg + CuSO4 (arrow) Cu + MgSO4
At ambient conditions (the temperatures and pressure in an ordinary lab room) magnesium sulfate will be solid. It will also dissolve easily in water to become aqueous; magnesium sulfate is the chemical formula for Epsom Salts. It will hydrate easily in the presence of humid air - but remain solid. You really won't get it to melt - it decomposes before melting - so you wouldn't get it as a liquid, nor would you get it to boil to become a gas. Like any solid, it will sublime just a little bit at low pressures but the vapor pressure of the salt is so low that for all practical purposes we wouldn't worry about it ever evaporating/subliming any more than we worry about table salt evaporating.
Not really. Table salt is Sodium chloride whereas Epsom salt is Magnesium Sulfate and is composed of magnesium, sulfur and oxygen and unlike table salt, it has to be refined before it has any particular use. Table salt will not have the same muscle relaxing effect as Epsom salts, and you may find table salt more drying to the skin.
These two salts are laxatives, but the Epsom salt is more frequently used.
Reaction that takes place when magnesium burns in air= Magnesium + Oxygen = Magnesium Oxide (magnesia)
no, but the name magnesium came from ancient greek city of magnesia.
Formation of a new substance: When magnesium reacts with copper sulfate, the blue color of copper sulfate fades as copper metal is formed, indicating a chemical change has occurred. Release of gas: In this reaction, bubbles of gas may be observed, which could be hydrogen gas being evolved as magnesium displaces copper from copper sulfate. Temperature change: The reaction between magnesium and copper sulfate is exothermic, meaning it releases heat. The mixture may feel warm or hot to touch during the reaction, indicating a temperature change has taken place.
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The reaction that takes place when a magnesium ribbon is burnt in air is a combustion reaction. This reaction produces magnesium oxide as a product, and it is exothermic, releasing heat and light.