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Given that E(o(2)//H(2)O)^(Theta)= +1.23...

Given that `E_(o_(2)//H_(2)O)^(Theta)= +1.23V`, `E_(S_(2)O_(8)^(2-)//SO_(4)^(2-))^(Theta)=2.05V`, `E_(Br_(2)//Br^(-))^(Theta)=+1.09V`, `E_(Au^(3+)//Au^(Theta))=+1.4V`
The strongest oxidizing agent is :

A

`S_(2)O_(B)^(2-)`

B

`O_(2)`

C

`Br_(2)`

D

`Au^(3+)`

Text Solution

AI Generated Solution

To determine the strongest oxidizing agent from the given standard reduction potentials, we will follow these steps: ### Step 1: List the given standard reduction potentials We have the following standard reduction potentials: 1. \( E^\circ_{O_2/H_2O} = +1.23 \, V \) 2. \( E^\circ_{S_2O_8^{2-}/SO_4^{2-}} = +2.05 \, V \) 3. \( E^\circ_{Br_2/Br^-} = +1.09 \, V \) 4. \( E^\circ_{Au^{3+}/Au} = +1.40 \, V \) ...
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