Respuesta :
Answer :
Oxidation number or oxidation state : It represent the number of electrons lost or gained by the atoms of an element in a compound.
Oxidation numbers are generally written with the sign (+) and (-) first and then the magnitude.
Rules for Oxidation Numbers are :
- The oxidation number of a free element is always zero.
- The oxidation number of a monatomic ion equals the charge of the ion.
- The oxidation number of Hydrogen (H) is +1, but it is -1 in when combined with less electronegative elements.
- The oxidation number of oxygen (O) in compounds is usually -2.
- The oxidation number of a Group 17 element in a binary compound is -1.
- The sum of the oxidation numbers of all of the atoms in a neutral compound is zero.
- The sum of the oxidation numbers in a polyatomic ion is equal to the charge of the ion.
Now we have to determine the oxidation state of the elements in the compound.
(a) [tex]H_2SO_4[/tex]
Let the oxidation state of 'S' be, 'x'
[tex]2(+1)+x+4(-2)=0\\\\x=+6[/tex]
Hence, the oxidation state of 'S' is, (+6)
(b) [tex]Ca(OH)_2[/tex]
Let the oxidation state of 'Ca' be, 'x'
[tex]x+2(-2+1)=0\\\\x=+2[/tex]
Hence, the oxidation state of 'Ca' is, (+2)
(c) [tex]BrOH[/tex]
Let the oxidation state of 'Br' be, 'x'
[tex]x+(-2)+1=0\\\\x=+1[/tex]
Hence, the oxidation state of 'Br' is, (+1)
(d) [tex]ClNO_2[/tex]
Let the oxidation state of 'N' be, 'x'
[tex]-1+x+2(-2)=0\\\\x=+5[/tex]
Hence, the oxidation state of 'N' is, (+5)
(e) [tex]TiCl_4[/tex]
Let the oxidation state of 'Ti' be, 'x'
[tex]x+4(-1)=0\\\\x=+4[/tex]
Hence, the oxidation state of 'Ti' is, (+4)
(f) [tex]NaH[/tex]
Let the oxidation state of 'Na' be, 'x'
[tex]x+(-1)=0\\\\x=+1[/tex]
Hence, the oxidation state of 'Na' is, (+1)
