1. Specific rate constant for a second-order reaction: (a) is independent of temperature. (b) varies with temperature. (c) depends on the nature of the reactants. (d) both (b) and... 1. Specific rate constant for a second-order reaction: (a) is independent of temperature. (b) varies with temperature. (c) depends on the nature of the reactants. (d) both (b) and (c). 2. The reaction in which the rate equation corresponds to a stoichiometric equation: (a) is elementary (b) non-elementary (c) parallel (d) autokinetic. 3. Equilibrium of a chemical reaction as viewed by kinetics is a: (a) static state (b) dynamic steady (c) dynamic unsteady (d) none of these. 4. For a zero-order reaction, the concentration of product increases with: (a) increase of reaction time (b) increase in initial concentration (c) total pressure (d) decrease in total pressure. 5. Arrhenius equation shows the variation of: (a) reaction rate (b) rate constant (c) energy of activation (d) frequency factor.
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The question presents multiple-choice questions related to chemical reaction engineering, focusing on topics such as rate constants, equilibrium, and reaction mechanisms. It appears to be a part of an academic assessment or study material for chemical engineering.
Answer
34(d), 35(a), 36(b), 37(a) 40(b)
The final answers are 34(d), 35(a), 36(b), 37(a) 40(b)
Answer for screen readers
The final answers are 34(d), 35(a), 36(b), 37(a) 40(b)
More Information
The answers are consolidated from reliable sources and describe the principles of chemical kinetics accurately.
Sources
- 2.8: Second-Order Reactions - Chemistry LibreTexts - chem.libretexts.org
- The rate constant of a second order reaction depends upon - toppr.com
- Fill up the blanks Arrhenius equation shows the variation of with ... - coursehero.com
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