The compound FeF3 is a salt, meaning that it has a covalent bond. Split the anion and the cation apart to determine the charge. Since iron can be either +2 or +3, you have to look at the anion (F- in this case) and look at how many negative charges are there. If there are three F-, that means there are three negative charges. That should tell you which iron is involved in the bond.
Qualitative means what is it while quantative means how much is there. Some examples of qualitative data might be whether a solution is of copper or iron or if a compound is formed with nitrate or carbonate. Quantative data could be the concentration of a solution or the mass present in a sample.
The percentage of iron oxide in iron oxide is ... yep, you guessed ... 100%!
An alloy of iron and lead.
Iron is magnetic
26 is the atomic number of Iron.
This fluoride is FeF3.
FeF3
FeF3
FeF3
The formula for iron(II) flluoride is FeF2. The formula for iron (III) fluroide is FeF3.
Iron (III) fluoride nonahydrate.
Iron III fluoride is FeF3 Note that it is iron III fluoride not iron 111 fluoride.
Iron and fluorine can be form the compounds FeF2 (iron [II] fluoride)and FeF3 (iron [III] fluoride or ferric fluoride). The equations are Fe + (F2) = FeF2 and 2 Fe + 3 (F2) = 2 (FeF3)
It's a Polyatomic compound its name is Iron Bromate. Learn & Enjoy
Iron ll fluoride is a chemical compound that is solid green and melts around 1000 degrees Celsius. The formula for Iron ll fluoride is FeF2.
The expert that a historian should consult to determine whether iron tools could be found in the ruins of an ancient African city is an archaeologist. Archaeologists are experts in the study of human history through the recovery and analysis of material culture, which includes artifacts, architecture, and cultural landscapes. Iron tools would be considered a part of this "material culture." Archaeologists have a deep understanding of the different types of tools that were used in different cultures and time periods. They would be able to examine the ruins of the ancient African city and determine whether there is any evidence of iron tools being used. This evidence could include the presence of iron slag, which is a byproduct of iron smelting, or the actual remains of iron tools. In addition to their knowledge of material culture, archaeologists also have a deep understanding of the history of technology. They would be able to use this knowledge to determine when iron tools were first introduced to Africa and how they spread throughout the continent. This information would be invaluable to the historian who is trying to understand the development of iron technology in Africa. Therefore, the best expert to consult to determine whether iron tools could be found in the ruins of an ancient African city is an archaeologist.
Samples of the rock could be crushed to a fine powder, then separated by magnets to determine the relative percentage of iron.