1. .0025 M tartaric acid completely reacts with .0030 M of Al bicarbonate if .913 l of CO2 forms at 298 Kelvin with pressure of 1.4 ATM how much base used?
2. 3.1 x 10^23 molecules of .0035 M hydriodic acid reacts with 25 grams of magnesium bicarbonate how much carbon dioxide if at stp?
3. 50.0 mL of lead (II) phosphate reacts with enough ammonium chloride. Following data collected. What is molarity of lead phosphate solution?
T1 1.56
T2 1.67
T3 1.51
4. What is ph and poh of solution made by adding 500 ml of water to 250 ml of 7.5 x 10^-4 M of NaOH?
I see you've posted this a number of times. What is it you don't understand? Perhaps I can get you started.
This is a few of my final review questions. I basically just need to know the steps for each one because my teacher doesn't explain them very well. I would really appreciate some help.
Please I really need your help here, you seem to be very knowledgable in the subject.
Is #1 Al bicarbonate? You need to write the formula or the full name; otherwise it doesn't make sense. I'll assume Al(HCO3)3. I'll call tartaric acid H2T.
2Al(HCO3)3 + 3H2T ==> Al2T3 + 6CO2 + 6H2O
How many mols CO2 were formed? Use PV - nRT, substitute the conditions and solve for n = number of mols. Convert mols CO2 to mols Al(HCO3)3 by using the coefficients in the balanced equation. The M bicarbonate = mols/L. You have mols and M, solve for L. (Note: you have no volume given for H2T even though that appears to the the limiting reagent from the way the problem iks stated.)
2.
2. 3.1 x 10^23 molecules of .0035 M hydriodic acid reacts with 25 grams of magnesium bicarbonate how much carbon dioxide if at stp?
This is a limiting reagent problem.
Mg(HCO3)2 + 2HI ==> MgI2 + 2H2O + 2CO2
mols HI = #molecules/6.02E23 = ?
mols Mg(HCO3)2 = grams/molar mass.
Using the coefficients in the balanced equation convert mols HI to mols of the product.
Do the same for mols Mg(HCO3)2.
It is likely that the two answers for mols of the product will not agree; therefore, one of them must be wrong. The correct answer in limiting reagent problems is ALWAYS the smaller value and the reagent producing that number is the limiting reagent. The problem doesn't tell us the units so mols may be sufficient. If you want grams, that is mols x molar mass = grams. If you want volume, that is mols x (22.4L/mol) = L CO2.
#3. What's the significance of T1, T2, T3? You don't have units on the other numbers
mols NaOH = M x L = ?
(NaOH) = (OH^-) = moles/L soln
pOH = -log(OH^-)
For pH,
pH + pOH = pKw = 14. You know pOH and pKw, solve for pH.
Thank you very much!
1. To find the amount of base used in the reaction, we need to determine the balanced chemical equation for the reaction between tartaric acid and aluminum bicarbonate. Once we have the balanced equation, we can determine the stoichiometry of the reaction and calculate the amount of base used.
2. To calculate the amount of carbon dioxide produced in the reaction between hydriodic acid and magnesium bicarbonate, we first need to write the balanced chemical equation for the reaction. Once we have the balanced equation, we can determine the stoichiometry of the reaction and calculate the amount of carbon dioxide produced.
3. To determine the molarity of the lead phosphate solution, we need to use the data provided and apply the principles of stoichiometry. The reaction between lead (II) phosphate and ammonium chloride will provide us with the necessary information to calculate the molarity of the lead phosphate solution.
4. To find the pH and pOH of the solution made by adding water to a certain concentration of NaOH, we need to understand the concept of pH and pOH. The given concentration of NaOH will allow us to calculate the hydroxide ion concentration, from which we can determine the pOH. The pH can then be calculated by subtracting the pOH from 14, as pH + pOH = 14.