At a certain concentration of H₂ and I2, the initial rate of reaction is 8.0 x 104 M/s. What would the initial rate of the reaction be if the concentration of H₂ were doubled? Be sure your answer has the correct number of significant digits. 1.6 × 10¹ // 4 M S

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Your answer is incorrect.
• Row 4: Your answer is incorrect.
The rate of a certain reaction is given by the following rate law:
rate=k[H₂] [¹₂]
Use this information to answer the questions below.
What is the reaction order in H₂?
What is the reaction order in I₂?
What is overall reaction order?
At a certain concentration of H₂ and I2, the initial rate of
reaction is 8.0 x 104 M/s. What would the initial rate of the
reaction be if the concentration of H₂ were doubled? Be sure
your answer has the correct number of significant digits.
=
The rate of the reaction is measured to be 83.0 M/s when
[H₂]
0.31 M and [1₂] = 1.4 M. Calculate the value of the
rate constant. Be sure your answer has the correct number of
significant digits.
₁1
—
2
4 M
1.6 × 10
2
k 1.9 X 10
M
- 1
S
• S
- 1
Transcribed Image Text:Try Again Your answer is incorrect. • Row 4: Your answer is incorrect. The rate of a certain reaction is given by the following rate law: rate=k[H₂] [¹₂] Use this information to answer the questions below. What is the reaction order in H₂? What is the reaction order in I₂? What is overall reaction order? At a certain concentration of H₂ and I2, the initial rate of reaction is 8.0 x 104 M/s. What would the initial rate of the reaction be if the concentration of H₂ were doubled? Be sure your answer has the correct number of significant digits. = The rate of the reaction is measured to be 83.0 M/s when [H₂] 0.31 M and [1₂] = 1.4 M. Calculate the value of the rate constant. Be sure your answer has the correct number of significant digits. ₁1 — 2 4 M 1.6 × 10 2 k 1.9 X 10 M - 1 S • S - 1
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