When ferrous sulphate solution is stored in an aluminum can, there is a risk of a chemical reaction occurring between the ferrous sulphate and the aluminum metal. This can lead to the formation of hydrogen gas and aluminum sulphate, which may cause the can to corrode or leak. It is advisable to use containers made of materials that are compatible with ferrous sulphate solutions, such as glass or polyethylene.
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You can obtain the ferric sulphate - Fe2(SO4)3; because the ferrous sulphate react as a reducing agent.
For analysis through titration method: Zinc sulfate can be titrated using EDTA as the titrant. Ferrous sulfate can be titrated using potassium permanganate as the titrant. Copper sulfate can be titrated using sodium thiosulfate as the titrant.
The coating formed on the zinc granules when zinc reacts with ferrous sulfate is black in color. It is due to the formation of ferrous sulfide as a result of the reaction.
When ferrous sulfate is heated, it turns from its original pale green color to a reddish-brown color due to decomposition and oxidation.
When ferrous sulphate crystals are heated, they lose water molecules and undergo dehydration, forming a white powder known as anhydrous ferrous sulphate. This process is also known as thermal decomposition.
The molecular formula of ferrous sulphate is FeSO4.
The formula for ferrous sulphate is FeSO4.
The chemical formula of ferrous sulphate is FeSO4.
When hydrated ferrous sulfate is heated, it loses its water molecules and undergoes thermal decomposition. The color change is from pale green (hydrated) to white (anhydrous).
The chemical formula for ferrous sulfate is FeSO4.
Ferrous sulfate is usually a pale blue-green color when in its solid form.
The aqueous solution of ferrous sulphate is typically pale green in color.
Ferrous sulphate typically appears as a pale green or bluish-green colored powder or solid.
The chemical formula of the ferrous sulfate is FeSO4.
The color of ferrous sulphate solution is pale green or light green.