The central atom in this molecule is chlorine. It is bonded with two oxygen atoms and a hydrogen atoms. The oxidation number of chlorine is +3: four covalent bonds with oxygen yields +4 and the bond with hydrogen yields -1.
Yes, HClO2 is chlorous acid, a weak acid. Cl-oxidation state is +3.
In HClO2, the oxidation number of hydrogen (H) is +1 since it is typically +1 in compounds, the oxidation number of chlorine (Cl) is +3, and the oxidation number of oxygen (O) is -2. The sum of the oxidation numbers in a compound must equal zero, so in HClO2, the oxidation number of chlorine (+3) is balanced by the oxidation numbers of hydrogen (+1) and oxygen (-2).
Chlorine shows many numbers. It dhows +3 in here.
The oxidation state of Cl in HCIO2 is +3. This is because hydrogen is typically assigned an oxidation state of +1 and oxygen is typically assigned an oxidation state of -2, so the sum of the oxidation states in HClO2 must equal the charge of the ion, which is 0 in this case.
The oxidation state of Fe in FeCl3 is +3. Each Cl atom has an oxidation state of -1, and since there are three Cl atoms in FeCl3, the overall charge from the Cl atoms is -3. This makes the Fe atom's oxidation state +3 to balance the charges.
Yes, HClO2 is chlorous acid, a weak acid. Cl-oxidation state is +3.
In HClO2, the oxidation number of hydrogen (H) is +1 since it is typically +1 in compounds, the oxidation number of chlorine (Cl) is +3, and the oxidation number of oxygen (O) is -2. The sum of the oxidation numbers in a compound must equal zero, so in HClO2, the oxidation number of chlorine (+3) is balanced by the oxidation numbers of hydrogen (+1) and oxygen (-2).
Chlorine shows many numbers. It dhows +3 in here.
HClO is stronger than HClO2 because in HClO, the oxidation state of chlorine is +1, while in HClO2, the oxidation state of chlorine is +3. The higher the oxidation state, the weaker the acid. Additionally, the electronegativity difference between chlorine and oxygen in HClO2 is greater, resulting in a weaker bond and a weaker acid overall.
The oxidation state of Cl in HCIO2 is +3. This is because hydrogen is typically assigned an oxidation state of +1 and oxygen is typically assigned an oxidation state of -2, so the sum of the oxidation states in HClO2 must equal the charge of the ion, which is 0 in this case.
The oxidation state of Fe in FeCl3 is +3. Each Cl atom has an oxidation state of -1, and since there are three Cl atoms in FeCl3, the overall charge from the Cl atoms is -3. This makes the Fe atom's oxidation state +3 to balance the charges.
HClO2 is the stronger acid between HBrO2 and HClO2. This is because chlorine (Cl) is more electronegative than bromine (Br), making the H-Cl bond in HClO2 more polarized and easier to break, resulting in a stronger acid.
The oxidation state of chlorine in the ClO- ion is 1+
the most common oxidation state of chlorine is -1.
In MgCl2, the oxidation state of Cl is -1 because it is a halogen. Since there are two Cl atoms, the total oxidation state contribution from Cl is -2. This means that the oxidation state of Mg is +2 in order to balance out the charges and form a neutral compound.
The oxidation state of Cl in HClO3 is +5. This is because the sum of the oxidation states in a neutral molecule must be zero, and since H has an oxidation state of +1, O has an oxidation state of -2, the oxidation state of Cl must be +5 in order to balance the charges.
The oxidation state of Cl in HClO4 is +7. In HClO4, since the oxidation state of H is +1 and that of O is -2, the sum of the oxidation states in the compound must equal 0. Therefore, the oxidation state of Cl in this case is +7.