6. Phosphoric acid (25 mL) was titrated with sodium hydroxide (50 mL, 0.05 M) to reach Ph.Ph end point. b) 0.050 c) 0.025 d) 0.175 e) 0.0125 Calculate Mo a) 0.10 un titrated with EDTA (21 ml 0.02 M) Calenda

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please solve question 6, analytical chemistry 

6. Phosphoric acid (25 mL) was titrated with sodium hydroxide (50 mL, 0.05 M) to reach Ph.Ph end point.
Calculate Mio,:
a) 0.10
b) 0.050
c) 0.025
d) 0.175
e) 0.0125
7. H20 (200 mL) was titrated with EDTA (21 mL, 0.02 M). Calculate the hardness of water (Ca=40, CO3=60 g/mol):
a) 100
b) 400
c) 301
d) 84
e) 210
8. Which is correct:
a) Zn-in is blue
b) Free EDTA is red
c) ZnY is colorless
d) The Free EBT indicator is red
9. Sn+2 solution (100 mL) was mixed with 12 (115 mL, 0.05 M). the resulting solution was titrated with
thiosulfate (22 mL, 0.05 M). Calculate the ppm of Sn+2(Sn=119 g/mol)
c) 2339 d) 4310
a) 5533 b) 1705
10. ZnSO4.7H20 (1 g, 288 g/mol) was dissolved in 100 mL solution. (10) mL was titrated with 53 mL) EDTA.
Calculate M-EDTA
c) 0.0333
d) 0.0066
a) 0.10
b) 0.175
Transcribed Image Text:6. Phosphoric acid (25 mL) was titrated with sodium hydroxide (50 mL, 0.05 M) to reach Ph.Ph end point. Calculate Mio,: a) 0.10 b) 0.050 c) 0.025 d) 0.175 e) 0.0125 7. H20 (200 mL) was titrated with EDTA (21 mL, 0.02 M). Calculate the hardness of water (Ca=40, CO3=60 g/mol): a) 100 b) 400 c) 301 d) 84 e) 210 8. Which is correct: a) Zn-in is blue b) Free EDTA is red c) ZnY is colorless d) The Free EBT indicator is red 9. Sn+2 solution (100 mL) was mixed with 12 (115 mL, 0.05 M). the resulting solution was titrated with thiosulfate (22 mL, 0.05 M). Calculate the ppm of Sn+2(Sn=119 g/mol) c) 2339 d) 4310 a) 5533 b) 1705 10. ZnSO4.7H20 (1 g, 288 g/mol) was dissolved in 100 mL solution. (10) mL was titrated with 53 mL) EDTA. Calculate M-EDTA c) 0.0333 d) 0.0066 a) 0.10 b) 0.175
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