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How do you balance Fe H2O---Fe3O4 H2?
To balance the equation Fe + H2O → Fe3O4 + H2, you need to ensure the number of atoms of each element are equal on both sides. Start by balancing the iron atoms, then balance the oxygen atoms, and finally balance the hydrogen atoms. The balanced equation is 3Fe + 4H2O → Fe3O4 + 4H2.
Is Fe3O4 a compound or element?
Fe3O4 is a compound. It is known as iron(II,III) oxide, where iron atoms are present in a combination of +2 and +3 oxidation states with oxygen.
What is the formula of tri ferric tetra oxide?
The chemical formula for tri ferric tetra oxide is Fe3O4. It consists of 3 iron (Fe) atoms and 4 oxygen (O) atoms. It is also known as magnetite and is a black mineral with magnetic properties.
How many atoms are in a molecule of FE03?
The formula FeO3 is written with 4 atoms: 1x Fe and 3x O, but it is NOT a possible iron oxide formula. However some of the possible iron oxides are: FeO, Fe2O3, Fe3O4 having 2, 5, 7 atoms respectively.
How many iron atoms are in a molecule of magnetite?
The oxidation stateof Fe in Fe3O4 is 8/3. This is possible because two of the irons are +3, but the other one is +2. The crystal structure of magnetite actually has two different sites in which these two different ions reside. No single Fe has a charge of +8/3, but the relative amounts of the Fe2+ and Fe3+ cause the formal oxidation state to be 8/3.
How do you balance Fe H2O---Fe3O4 H2?
To balance the equation Fe + H2O → Fe3O4 + H2, you need to ensure the number of atoms of each element are equal on both sides. Start by balancing the iron atoms, then balance the oxygen atoms, and finally balance the hydrogen atoms. The balanced equation is 3Fe + 4H2O → Fe3O4 + 4H2.
What is the percent composition of oxygen in the magnetite Fe3O4?
The molar mass of Fe3O4 is 231.55 g/mol. The molar mass of oxygen is 16.00 g/mol. There are 12 oxygen atoms in Fe3O4, so the total mass of oxygen in Fe3O4 is 192.00 g. Therefore, the percent composition of oxygen in Fe3O4 is (192.00 g / 231.55 g) x 100 = 82.97%.
How many atoms are in Fe3O4?
Fe + 2x Cl = Fe + Cl + Cl = 3 atoms per molecule.
Is Fe3O4 a compound or element?
Fe3O4 is a compound. It is known as iron(II,III) oxide, where iron atoms are present in a combination of +2 and +3 oxidation states with oxygen.
What is the chemical formula for oxygen and iron III?
Fe3O4 (The numbers are subscripts, meaning they are smaller, and go beside the element.)
What is the formula of tri ferric tetra oxide?
The chemical formula for tri ferric tetra oxide is Fe3O4. It consists of 3 iron (Fe) atoms and 4 oxygen (O) atoms. It is also known as magnetite and is a black mineral with magnetic properties.
How do you balance the folowing equation Fe H20 --Fe3O4 H2?
The balanced equation is: 3Fe + 4H2O → Fe3O4 + 4H2. To balance it, you need to ensure that the number of atoms of each element is the same on both sides of the equation. In this case, you adjust the coefficients to get the same number of atoms of Fe, H, and O on both sides.
The compound that is made of atoms of iron and oxygen is?
Iron oxide is the compound made of atoms of iron and oxygen.
What is the valency iron in Fe3o4?
The valency of iron in Fe3O4 is +2 and +3. In this compound, two iron atoms have a valency of +3 and one iron atom has a valency of +2.
How do you find the valency of each element in Fe3O4?
In Fe3O4, iron has a valency of +2 and oxygen has a valency of -2. The formula indicates that there are three iron atoms for every four oxygen atoms in the compound. Thus, the overall charge is balanced out by three iron atoms each with a +2 charge and four oxygen atoms each with a -2 charge.
How many atoms are in a molecule of FE03?
The formula FeO3 is written with 4 atoms: 1x Fe and 3x O, but it is NOT a possible iron oxide formula. However some of the possible iron oxides are: FeO, Fe2O3, Fe3O4 having 2, 5, 7 atoms respectively.
How many iron atoms are in a molecule of magnetite?
The oxidation stateof Fe in Fe3O4 is 8/3. This is possible because two of the irons are +3, but the other one is +2. The crystal structure of magnetite actually has two different sites in which these two different ions reside. No single Fe has a charge of +8/3, but the relative amounts of the Fe2+ and Fe3+ cause the formal oxidation state to be 8/3.
