305,852 students have used Clutch for Chem
97% got a better grade
2,784 minutes of Chemistry videos

544 Video Solutions

On the basis of the general solubility rules given in Table 4.1, predict which of the following substances are likely to be soluble in water.

g. magnesium carbonate

Watch Solution

On the basis of the general solubility rules given in Table 4.1, predict which of the following substances are likely to be soluble in water.

f. chromium(III) hydroxide

Watch Solution

On the basis of the general solubility rules given in Table 4.1, predict which of the following substances are likely to be soluble in water.

e. cobalt(III) sulfide

Watch Solution

On the basis of the general solubility rules given in Table 4.1, predict which of the following substances are likely to be soluble in water.

d. sodium iodide

Watch Solution

On the basis of the general solubility rules given in Table 4.1, predict which of the following substances are likely to be soluble in water.

c. lead(II) sulfate

Watch Solution

On the basis of the general solubility rules given in Table 4.1, predict which of the following substances are likely to be soluble in water.

b. lead(II) nitrate

Watch Solution

On the basis of the general solubility rules given in Table 4.1, predict which of the following substances are likely to be soluble in water.

a. zinc chloride

Watch Solution

On the basis of the general solubility rules given in Table 4.1, predict which of the following substances are likely to be soluble in water.

g. iron(III) phosphate

Watch Solution

On the basis of the general solubility rules given in Table 4.1, predict which of the following substances are likely to be soluble in water.

f. magnesium hydroxide

 

Watch Solution

On the basis of the general solubility rules given in Table 4.1, predict which of the following substances are likely to be soluble in water.

e. lead(II) sulfide

Watch Solution

On the basis of the general solubility rules given in Table 4.1, predict which of the following substances are likely to be soluble in water.

d. nickel(II) hydroxide

Watch Solution

On the basis of the general solubility rules given in Table 4.1, predict which of the following substances are likely to be soluble in water.

c. rubidium sulfate

Watch Solution

On the basis of the general solubility rules given in Table 4.1, predict which of the following substances are likely to be soluble in water.

b. magnesium chloride

Watch Solution

On the basis of the general solubility rules given in Table 4.1, predict which of the following substances are likely to be soluble in water.
a. aluminum nitrate

Watch Solution

38. A solution was prepared by mixing 50.00 mL of 0.100 M HNO 3 and 100.00 mL of 0.200 M HNO3. Calculate the molarity of the final solution of nitric acid.

Watch Solution

Calculate the sodium ion concentration when 70.0 mL of 3.0 M sodium carbonate is added to 30.0 mL of 1.0 M sodium bicarbonate.

Watch Solution

A solution is prepared by dissolving 10.8 g ammonium sulfate in enough water to make 100.0 mL of stock solution. A 10.00-mL sample of this stock solution is added to 50.00 mL of water. Calculate the concentration of ammonium ions and sulfate ions in the final solution.

Watch Solution

If 10. g of AgNO3 is available, what volume of 0.25 M AgNO3 solution can be prepared?

Watch Solution

What mass of NaOH is contained in 250.0 mL of a 0.400 M sodium hydroxide solution?

Watch Solution

Which of the following solutions of strong electrolytes contains the largest number of moles of chloride ions: 100.0 mL of 0.30 M AlCl3, 50.0 mL of 0.60 M MgCl 2, or 200.0 mL of 0.40 M NaCl?

Watch Solution

Calculate the concentration of all ions present in each of the following solutions of strong electrolytes.

d. 132 g of ammonium sulfate in 1.50 L of solution

Watch Solution

Calculate the concentration of all ions present in each of the following solutions of strong electrolytes.

c. 1.00 g of potassium chloride in 0.500 L of solution

Watch Solution

Calculate the concentration of all ions present in each of the following solutions of strong electrolytes.

b. 0.300 mol of barium nitrate in 600.0 mL of solution

Watch Solution

Calculate the concentration of all ions present in each of the following solutions of strong electrolytes.

a. 0.0200 mol of sodium phosphate in 10.0 mL of solution

Watch Solution

Calculate the concentration of all ions present in each of the following solutions of strong electrolytes.

d. 1.00 g K3PO4 in 250.0 mL of solution

Watch Solution