Balance and find pH range (show all steps):
Cl2 + Br- = Cl- + BrO3-
2. Balance the following reaction under acidic conditions. Cl2(aq) + Br2(1) BrO3-(aq) + Cl-(aq)
Balance the redox reactions: basic: ClO-(aq)+Cr(OH)4-(aq)----> CrO42-(aq)+Cl-(aq) MnO4-(aq)+Br-(aq)--> MnO2(s)+BrO3-(aq) NO2-(aq)+Al(s)--->NH3(g)+AlO2- Aidic: ClO4-(aq)+Cr(OH)4---->ClO3-(aq)+Cl2(g)
balance the reaction using the appropriate electrons. H+ or H2O. BrO3-+Br>Br2
Balance the following redox reaction in acidic solution. BrO3 + N2H4 - Br" + N2
Balance the redox equations: a. CO2+ Mn2+→H2C2O4+ MnO4- (in basic conditions) b. Br- + MnO4 ----> MnO2+ BrO3- (in acidic conditions) Please show all steps and explain
Balance the following redox reaction in basic solution: Br2(l) ----> BrO3-(aq) + Br-(aq)
help me balance the redox equations (acidic solutions) 1) BrO3- + Br- —> Br2 2) IO3- + I- —> I2 3) C2H4 + MnO-4 —> Mn2+ + CO2
Balance the following oxidation-reduction reaction: MnO-4 + Cl- --------> Mn2+ + Cl2 Show how valence numbers were assigned. Show how the transfer of electrons was balanced by cross multiplication. Show how the masses were balanced. Show a check for balanced masses and charges.
find partial pressure of I2, Cl2,ICL. please show all steps
Consider the following reaction: 12(g) + Cl2(g) = 21C1(8), Kp = 81.9 (at 25°C) A reaction mixture at 25°C initially contains P1, = 0.100 atm, Pci, = 0.100 atm , and Pici = 0.00 atm.
Complete and balance the following redox reaction in basic solution MnO4-(aq) + Br-(aq) → MnO2(s) + BrO3-(aq) Attempts remaining: 3 Complete and balance the following redox reaction in basic solution 103-(aq) + Re(s) → Re04 (aq) + 10-(aq) Attempts remaining: 3