Iron could have a charge of +2, or of +3 depending on the compound.
Pretty much. To calculate the electrical force Fe, one can use the equation... Fe = k(q1 * q2)/r^2 Where k is the constant 8.988 * 10^9 , q1 and q2 are the two charged objects (an object without an electrical charge will not experience an electrical force), and r^2 is the square of the distance between them. Now, the direction of the force is dependent on the polarity of the charges! Like charges cause acceleration in the opposite direction: unlike charges cause acceleration toward each other, and, subsequently, the force increases. One can also consider the force Fe in terms of an electric field E, in which Fe = Eq Thus: an object of charge q will experience a force Fe in relation to its exposure to the field E. Now, units are important! Fe is in Newtons: that means, if an object undergoes force Fe, it will accelerate in relation to its mass. The "q"s are always in coulombs, or measures of electric charge. K and E are compound--their "units" are made up of other units multiplied together. Don't worry too much about units, unless you're getting really technical. Just know that the electrical force is the result of two charged particles interacting. =]
What is the chemical 'FE'. Do you mean 'Fe'. If so to answer your question . The molar mass of iron (Fe) is 55.845
An electric field E is produced by a punctual electric charge q or by any electrically charged object. The Efield produced by a charge is analogous to the gravitational field g produced by a mass : Fg= mg the same way Fe = qE.
Positive charges attract negative charges and repel other positive charges. Negative charges do the opposite, attracting positive charges and repelling other negative charges. Like charges repel and opposite charges attract.
The possessive form for the plural noun charges is charges'.Examples:The charges' total exceeded my ability to pay.She always took care with her charges' appearance and behavior.
The chemical symbol for iron is Fe. Iron can commonly form two charges, +2 and +3.
The oxidation number of Fe in Fe(CN)6 is +2. Each CN group has a charge of -1, and since there are a total of 6 CN groups surrounding Fe, they contribute a total charge of -6. Therefore, the oxidation number of Fe must be +2 to balance the charges.
Fe+3 Cl-1 --------> These are the ions and their chargesFeCl3 ----------> This is the formula when the charges add up to zeroFeCl3
Iron ions, Fe+3, will bind to oxygen ions, O-2, in a ratio that depends on their charges since the total positive charges in the molecule must equal the total negative charges. The eventual number of positive and negative charges is found by the least common multiple of the charges. In this instance, the charges are 3 and 2. The least common multiple is 6, so two atoms of the Fe+3 are needed to have a total positivie charge of +6, and three O-2 are needed to have a total negative charge of -6 to provide the electrical balance. The resulting molecule is Fe2O3.
These are the ions and their charges: Fe+3 S-2The charges have to add up to zero, so two +3 iron ions cancel out three -2 sulfur ions: Fe+3 Fe+3 S-2 S-2 S-2Simplify: Fe2S3
Fe+3 SO3-2 ------> these are the ions and their charges. Sulfite's charge is -2 and Iron's charge is +3 (you know this because of the (III)Fe+3 Fe+3 SO3-2 SO3-2 SO3-2 ------> the charges have to add up to zero, so two +3 Fe ions equal +6 and three -2 Sulfite ions equal -6.Fe2(SO3)3 -----> simplify
Fe+2 NO3-1
These are the ions and their charges: Fe+2 SO4-2. The charges have to add up to zero, so one +2 iron ion cancels out one -2 sulfate ion. Therefore, the formula is FeSO4
Pretty much. To calculate the electrical force Fe, one can use the equation... Fe = k(q1 * q2)/r^2 Where k is the constant 8.988 * 10^9 , q1 and q2 are the two charged objects (an object without an electrical charge will not experience an electrical force), and r^2 is the square of the distance between them. Now, the direction of the force is dependent on the polarity of the charges! Like charges cause acceleration in the opposite direction: unlike charges cause acceleration toward each other, and, subsequently, the force increases. One can also consider the force Fe in terms of an electric field E, in which Fe = Eq Thus: an object of charge q will experience a force Fe in relation to its exposure to the field E. Now, units are important! Fe is in Newtons: that means, if an object undergoes force Fe, it will accelerate in relation to its mass. The "q"s are always in coulombs, or measures of electric charge. K and E are compound--their "units" are made up of other units multiplied together. Don't worry too much about units, unless you're getting really technical. Just know that the electrical force is the result of two charged particles interacting. =]
Fe(NO3)3 Since Iron has two charges the terms ferric and ferrous are used to distinguish between the two charges when in a compound. Ferric refers to the higher charge of iron which is 3+ and ferrous refers to the lower charge of iron which is 2+. So ferrous nitrate has an iron charge of 2+ and since NO3 has a 1- charge to balance the compound it becomes Fe(NO3)2
A technically imposible compound. Iron in any compound has one of two charges: +2 and +3. Hydroxide (OH) always has a charge of -1. Thus, the compound is not balanced enough to be even remotely stable; the proper forms of iron hydroxide are Fe(OH)2 and Fe(OH)3.
a)3 b)2 c)1 d)4 Fe is the transitional metal K3[Fe(CN)6] , we know that Potassium, K, has an oxidation number of +1 The oxidation number of CN= -1, so 6*CN has an oxidation number of -6 so therefore Fe - 6 = -3 Fe = -3 + 6 = +3 The oxidation number of Fe is +3. so A