Round any decimals to the nearest integer value. Use negative exponents instead of placing a concentration in the denominator of a fraction. Do not use multiplication symbols or spaces in the rate laws. 1. The rate doubles when [NO] is doubled and [Br2] remains constant. 2. The rate doubles when [Br2] is doubled and [NO] remains constant. 3. The rate increases by 1.56 times when [NO] is increased 1.25 times and [Br2] remains constant.
Round any decimals to the nearest integer value. Use negative exponents instead of placing a concentration in the denominator of a fraction. Do not use multiplication symbols or spaces in the rate laws. 1. The rate doubles when [NO] is doubled and [Br2] remains constant. 2. The rate doubles when [Br2] is doubled and [NO] remains constant. 3. The rate increases by 1.56 times when [NO] is increased 1.25 times and [Br2] remains constant.
Chemistry: The Molecular Science
5th Edition
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter11: Chemical Kinetics: Rates Of Reactions
Section11.7: Reaction Mechanisms
Problem 11.12E
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Round any decimals to the nearest integer value.
Use negative exponents instead of placing a concentration in the denominator of a fraction.
Do not use multiplication symbols or spaces in the rate laws.
1. The rate doubles when [NO] is doubled and [Br2] remains constant.
2. The rate doubles when [Br2] is doubled and [NO] remains constant.
3. The rate increases by 1.56 times when [NO] is increased 1.25 times and [Br2] remains constant.
Transcribed Image Text:Predict the rate law for the reaction, if the following conditions apply.
NO +Br2
→ NOB1,
For each condition represent unknown orders of reactants with y as the exponent.
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