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18 Nov 2019
Please briefly explain how you solved it. And thank you in advance!!
M and L react to form a stable complex ion M_m L_n. In which tube(s) do you expect to see the SMALLEST concentration of M_m L_n? (Check all that apply) Tube 1:1.00 mL M: 9.00 mL L Tube 2: 2.00 mL M: 8.00 mL L Tube 3: 2.50 mL M: 7.50 mL L Tube 4: 3.00 mL M: 7.00 mL L Tube 5: 3.33 mL M: 6.67 mL L Tube 6: 4.00 mL M: 6.00 mL L Tube 7: 5.00 mL M: 5.00 mL L Tube 8: 6.00 mL M: 4.00 mL L Tube 9: 7.00 mL M: 3.00 mL L Tube 10:8.00 mL M: 2.00 mL L Tube 11:9.00 mL M: 1.00 mL L Tube 12:10.00 mL M: 0.00 mL L Tube 13:0.00 mL M: 10.00 mL L Explain your answer(s), briefly.
Please briefly explain how you solved it. And thank you in advance!!
M and L react to form a stable complex ion M_m L_n. In which tube(s) do you expect to see the SMALLEST concentration of M_m L_n? (Check all that apply) Tube 1:1.00 mL M: 9.00 mL L Tube 2: 2.00 mL M: 8.00 mL L Tube 3: 2.50 mL M: 7.50 mL L Tube 4: 3.00 mL M: 7.00 mL L Tube 5: 3.33 mL M: 6.67 mL L Tube 6: 4.00 mL M: 6.00 mL L Tube 7: 5.00 mL M: 5.00 mL L Tube 8: 6.00 mL M: 4.00 mL L Tube 9: 7.00 mL M: 3.00 mL L Tube 10:8.00 mL M: 2.00 mL L Tube 11:9.00 mL M: 1.00 mL L Tube 12:10.00 mL M: 0.00 mL L Tube 13:0.00 mL M: 10.00 mL L Explain your answer(s), briefly.
Patrina SchowalterLv2
3 May 2019