Chemistry, 28.02.2021 23:10 joelpimentel
(d) the weight/volume percentage of KzFe(CN)6. > 0-775L
Example 11 A solution was prepared by dissolving 1210 mg of KzFe(CN)6 (329.2 g/mol) in
sufficient water to give 775 ml. Calculate
(a) the molar analytical concentration of K Fe(CN)6.
(b) the molar concentration of K.
(c) the molar concentration of Fe(CN)6 3..
$1.56
1.20g
(e) the number of millimoles of K+ in 50.0 mL of this solution. 0.837
(f) ppm Fe(CN)63 4.740 6X2 4 1000 s 1560,5 mg,
(g) pk for the solution.
(h) pFe(CN). for the solution.
Answers: 1
Chemistry, 22.06.2019 13:10, kellinvagneur
Which electron configuration represents the electrons in an atom of sodium in the ground state at stp
Answers: 1
Chemistry, 22.06.2019 18:40, bananaslada
What is the binding energy of a nucleus that has a mass defect of 5.81*10-^29 kg a 5.23*10-^12 j b 3.15* 10^12 j c 1.57*10-3 j d 9.44*10^20 j
Answers: 1
Chemistry, 22.06.2019 21:30, crystalbyrd79p8imrx
What is the effect of returning nuclear reactor cooling water back into bodies of water?
Answers: 3
(d) the weight/volume percentage of KzFe(CN)6. > 0-775L
Example 11 A solution was prepared by di...
Mathematics, 01.05.2021 02:30
Mathematics, 01.05.2021 02:30
History, 01.05.2021 02:30
Mathematics, 01.05.2021 02:30