I don't think so.Because it may have a reaction like this: 3Ag+ + Fe =3Ag + Fe3+.
(personal opinion, because the reaction above is just from the theory and I don't know whether the iron vessel will get deactivated like being put in concentrated sulfuric acid)
Some of the silver ions from the silver nitrate solution are deposited as metallic silver on the contacted parts of the zinc vessel and are replaced by half as many zinc ions in the solution.
Methanal (formaldehyde) reacts with Tollens' reagent, which contains silver ions in an alkaline solution, to produce silver metal. During this reaction, methanal is oxidized to formic acid, while the silver ions are reduced to metallic silver, resulting in a characteristic silver mirror on the inner surface of the reaction vessel. This reaction is a classic test for aldehydes, as they can reduce Tollens' reagent, unlike most ketones.
Storing nickel sulfate (NiSO4) solution in an iron (Fe) vessel is not advisable due to the potential for chemical reactions. Nickel sulfate is corrosive, and it can react with iron, leading to the corrosion of the vessel and contamination of the solution. It's better to use non-reactive materials like glass, plastic, or certain stainless steels for storing such solutions to ensure stability and purity.
The water will be absorbed; calcium chloride being highly hygroscopic become after a period of time a solution. If silica gel was colored with cobalt chloride the color is changed after the water absorption.
A pressure detector placed in a vessel to measure liquid level uses the principle that the pressure at a specific depth in a liquid is proportional to the height of the liquid above it. By measuring the pressure at the bottom of the vessel, the detector can calculate the liquid level. This method is commonly used in industries such as oil and gas, chemical processing, and wastewater treatment.
Some of the silver ions from the silver nitrate solution are deposited as metallic silver on the contacted parts of the zinc vessel and are replaced by half as many zinc ions in the solution.
It is not recommended to place silver nitrate solution in an iron vessel as the iron may react with the silver nitrate solution and cause contamination of the solution, affecting its properties and potentially forming unwanted byproducts. It is best to use glassware or containers made of compatible materials when working with silver nitrate solutions.
No. Iron is a more reactive metal than silver, so the iron will replace the silver in the silver nitrate solution, forming an iron nitrate solution and solid silver. Eventually, the iron container will be gone, its atoms having gone into the iron nitrate solution.
It is not recommended to place silver nitrate solution in an iron vessel as iron can react with silver nitrate, leading to the formation of insoluble iron salts and potentially hazardous gases. It's better to use glassware or vessels made of materials that are compatible with the solution.
It is not recommended to store copper sulfate solution in a silver vessel as silver can react with copper sulfate to form silver sulfate and copper, leading to contamination of the solution. It is better to store copper sulfate solution in a glass or plastic container.
Ammonium nitrate is typically produced by combining ammonia gas and nitric acid in a reactor vessel to form a concentrated solution. The solution is then concentrated and cooled to crystallize the ammonium nitrate, which is then dried and processed into a usable form, such as prills or granules.
It is not possible to store copper sulphate solution in iron vessel.since ,iron is more reactive than copper,it displaces copper from any if its solution.the reaction takes place as , Fe(s)+CuSo4(aq)..............>FeSo4(aq)+Cu(s) (Blue color(light green solution)solution)
Aldehyde are oxidised to the corresponding carbonic acid by F.'s or T.'s agents. Ketone can not be oxidised.
On the forward half of the vessel.
On the forward half of the vessel.
On the forward half of the vessel.
Stent