Ask Question
ChemistryChemistry
22 December, 12:02

Consider the reaction Mg (s) + I2 (s) → MgI2 (s) Identify the limiting reagent in each of the reaction mixtures below:

a. 100 atoms of Mg and 100 molecules of I2

b. 150 atoms of Mg and 100 molecules of I2

c. 200 atoms of Mg and 300 molecules of I2

d. 0.16 mol Mg and 0.25 mol I2

e. 0.14 mol Mg and 0.14 mol I2

f. 0.12 mol Mg and 0.08 mol I2

g. 6.078 g Mg and 63.455 g I2

h. 1.00 g Mg and 2.00 g I2

i. 1.00 g Mg and 20.00 g I2

+1
Answers (1)
  1. 22 December, 14:30
    0
    a) Nor Mg, neither I2 is the limiting reactant.

    b) I2 is the limiting reactant

    c) Mg is the limiting reactant

    d) Mg is the limiting reactant

    e) Nor Mg, neither I2 is the limiting reactant.

    f) I2 is the limiting reactant

    g) Nor Mg, neither I2 is the limiting reactant.

    h) I2 is the limiting reactant

    i) Mg is the limiting reactant

    Explanation:

    Step 1: The balanced equation:

    Mg (s) + I2 (s) → MgI2 (s)

    For 1 mol of Mg we need 1 mol of I2 to produce 1 mol of MgI2

    a. 100 atoms of Mg and 100 molecules of I2

    We'll have the following equation:

    100 Mg (s) + 100 I2 (s) → 100MgI2 (s)

    This is a stoichiometric mixture. Nor Mg, neither I2 is the limiting reactant.

    b. 150 atoms of Mg and 100 molecules of I2

    We'll have the following equation:

    150 Mg (s) + 100 I2 (s) → 100 MgI2 (s)

    I2 is the limiting reactant, and will be completely consumed. There will be consumed 100 Mg atoms. There will remain 50 Mg atoms.

    There will be produced 100 MgI2 molecules.

    c. 200 atoms of Mg and 300 molecules of I2

    We'll have the following equation:

    200 Mg (s) + 300 I2 (s) →200 MgI2 (s)

    Mg is the limiting reactant, and will be completely consumed. There will be consumed 200 I2 molecules. There will remain 100 I2 molecules.

    There will be produced 200 MgI2 molecules.

    d. 0.16 mol Mg and 0.25 mol I2

    We'll have the following equation:

    Mg (s) + I2 (s) → MgI2 (s)

    Mg is the limiting reactant, and will be completely consumed. There will be consumed 0.16 mol of I2. There will remain 0.09 mol of I2.

    There will be produced 0.16 mol of MgI2.

    e. 0.14 mol Mg and 0.14 mol I2

    We'll have the following equation:

    Mg (s) + I2 (s) → MgI2 (s)

    This is a stoichiometric mixture. Nor Mg, neither I2 is the limiting reactant.

    There will be consumed 0.14 mol of Mg and 0.14 mol of I2. there will be produced 0.14 mol of MgI2

    f. 0.12 mol Mg and 0.08 mol I2

    We'll have the following equation:

    Mg (s) + I2 (s) → MgI2 (s)

    I2 is the limiting reactant, and will be completely consumed. There will be consumed 0.08 moles of Mg. There will remain 0.04 moles of Mg.

    There will be produced 0.08 moles of MgI2.

    g. 6.078 g Mg and 63.455 g I2

    We'll have the following equation:

    Mg (s) + I2 (s) → MgI2 (s)

    Number of moles of Mg = 6.078 grams / 24.31 g/mol = 0.250 moles

    Number of moles I2 = 63.455 grams / 253.8 g/mol = 0.250 moles

    This is a stoichiometric mixture. Nor Mg, neither I2 is the limiting reactant.

    There will be consumed 0.250 mol of Mg and 0.250 mol of I2. there will be produced 0.250 mol of MgI2

    h. 1.00 g Mg and 2.00 g I2

    We'll have the following equation:

    Mg (s) + I2 (s) → MgI2 (s)

    Number of moles of Mg = 1.00 grams / 24.31 g/mol = 0.0411 moles

    Number of moles I2 = 2.00 grams / 253.8 g/mol = 0.00788 moles

    I2 is the limiting reactant, and will be completely consumed. There will be consumed 0.00788 moles of Mg. There will remain 0.03322 moles of Mg.

    There will be produced 0.00788 moles of MgI2.

    i. 1.00 g Mg and 2.00 g I2

    We'll have the following equation:

    Mg (s) + I2 (s) → MgI2 (s)

    Number of moles of Mg = 1.00 grams / 24.31 g/mol = 0.0411 moles

    Number of moles I2 = 20.00 grams / 253.8 g/mol = 0.0788 moles

    Mg is the limiting reactant, and will be completely consumed. There will be consumed 0.0411 moles of Mg. There will remain 0.0377 moles of I2.

    There will be produced 0.0411 moles of MgI2.
Know the Answer?
Not Sure About the Answer?
Find an answer to your question ✅ “Consider the reaction Mg (s) + I2 (s) → MgI2 (s) Identify the limiting reagent in each of the reaction mixtures below: a. 100 atoms of Mg ...” in 📘 Chemistry if you're in doubt about the correctness of the answers or there's no answer, then try to use the smart search and find answers to the similar questions.
Search for Other Answers
You Might be Interested in
Is it possible to substitute nitric acid for hydrochloric acid when trying to effect copper
Answers (1)
Break apart water into form ___ions
Answers (1)
What element has the greatest density at STP? A. barium B. beryllium C. magnesium D. radium
Answers (1)
Why does 13c - have a negative sign
Answers (1)
3. What determines the mass number of an element? The mumhor of nrotons
Answers (2)
New Questions in Chemistry
The mass of a solid copper penny is 3.46 g. how many copper atoms are in the penny?
Answers (1)
Consider a situation in which 211 g g of P4 P 4 are exposed to 240 g g of O2 O 2 . What is the maximum amount in moles of P2O5 P 2 O 5 that can theoretically be made from 211 g g of P4 P 4 and excess oxygen?
Answers (1)
What is the total pressure when 0.400 g of H2, 2.00 g of N2, and 10.5 g of CO2 are injected into a 10.0 liter flask at 273 K?
Answers (1)
The balanced chemical equation for the combustion of methane is: CH4 (g) + 2 O2 (g) → CO2 (g) + 2 H2O (g) Which of the following statements concerning this chemical equation is/are correct? 1.
Answers (1)
In one kind of nuclear reaction, two nuclei fuse, or join together, to form a larger nucleus. This kind of reaction happens only at very high pressures. Explain why such high pressures are necessary to cause these reactions to occur.
Answers (1)
Home » Chemistry » Consider the reaction Mg (s) + I2 (s) → MgI2 (s) Identify the limiting reagent in each of the reaction mixtures below: a. 100 atoms of Mg and 100 molecules of I2 b. 150 atoms of Mg and 100 molecules of I2 c. 200 atoms of Mg and 300 molecules of I2 d.
Sign Up Forgot Password?