Respuesta :
First change L in moles. you can figure out how many moles of each are in equilibrium.
If L = x moles, M2+ = x moles, ML2 = 3x moles
then divide the moles by total volume to get the concentration.
in the end, you will find out that [M2+]= 0.04 M
hope this helps
If L = x moles, M2+ = x moles, ML2 = 3x moles
then divide the moles by total volume to get the concentration.
in the end, you will find out that [M2+]= 0.04 M
hope this helps
Answer:
0.02 M
Explanation:
10.0 ml of a 0.1 M of M2+ means that, at the beginning, there were present:
10 ml * 0.1 mol/1000 ml = 0.001 mol of M2+
Analogously, there were 0.001 mol of L
After the reaction occurred the concentration of L is 0.01M. The volume of the solution is now 10 ml + 10 ml = 20 ml, this means that there is present:
20 ml * 0.01 mol/1000 ml = 0.0002 mol of L
So, 0.001 - 0.0002 = 0.0008 mol of L reacted
From the balanced equation:
M2+ (aq) + 2 L (aq)<-> ML2 2+ (aq)
we know that 2 moles of L reacts to form 1 mole of ML2 2+, then 0.0008 mol of L produce:
0.0008 mol of L / 2 moles of L = x mole of ML2 2+/ 1 mole of ML2 2+
x = (0.0008/2)*1
x = 0.0004 moles of ML2 2+
The concentration of ML2 2+ is the number of moles divided by the volume of the solution, that is:
concentration: 0.0004 moles of ML2 2+/ 0.02 L = 0.02 M
(20 ml is equivalent to 0.02 litre)
