What Are the Concentrations of M2 and M3 in Electrolyte Solutions?

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The discussion focuses on calculating the molarity of solutions M1, M2, and M3 based on the dissolution of CuSO4.2H2O. The initial concentration M1 is determined from 4.500 grams dissolved in 250.0 mL of water. Subsequently, M2 is calculated using the dilution formula with 10.0 mL of M1 diluted to 25.00 mL. Finally, M3 is derived from diluting 50.00 mL of M2 to 75.00 mL. The thread also touches on classifying various compounds as strong electrolytes, weak electrolytes, or nonelectrolytes, seeking clarification on their behavior in aqueous solutions.
rodjav305
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Ok so for the first part my questions I do not understand how to start it off.

1. Calculate the concentration in molarity. 4.500 grams of CuSO4.2H2O is dissolved in water to make 250.0 mL solution. The concentration is labeled as M1.





2. A student used 10.0 ml of M1 from problem# 1 and added water to make 25.00 mL of solution M2. Calculate the molarity of M2 ( use M1xV1=M2xV2).




3. A student used 50.00 mL of M2 from problem #2 and added water to make 75.00 mL of solutionM3. Calculate the concentration of M3.


Electrolytes-
1. Label the following compounds as strong electrolytes, weak electrolytes or nonelectrolytes.

1. KNO3-?
2. MgCl2-Strong
3. AlBr3-?
4. H2SO4-Strong
5. HCl-Strong
6. HNO3-Strong
7. HF-Weak
8. CH3COOH(acetic acid)-weak
9. CH3CH2OH (ethanol)-Non-electrolytes
10. Water-weak
11. Glucose (C6H12O6)-?

2. Which compounds are ions only in aqueous solutions?



3. Which compounds are molecules only in aqueous solutions?



4. Which compounds are both molecules and ions in aqueous solutions?

Any help is appreciated and If i did some problems wrong please correct me.
 
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rodjav305 said:
If i did some problems wrong please correct me.

My eyes hurt from trying, but I can't see any problem DONE.
 
Sorry about that, but no worries as I managed to do the problems myself.
 
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TL;DR Summary: cannot find out error in solution proposed. [![question with rate laws][1]][1] Now the rate law for the reaction (i.e reaction rate) can be written as: $$ R= k[N_2O_5] $$ my main question is, WHAT is this reaction equal to? what I mean here is, whether $$k[N_2O_5]= -d[N_2O_5]/dt$$ or is it $$k[N_2O_5]= -1/2 \frac{d}{dt} [N_2O_5] $$ ? The latter seems to be more apt, as the reaction rate must be -1/2 (disappearance rate of N2O5), which adheres to the stoichiometry of the...
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