For a chemical reaction, mA → xB, the rate law is r = k[A]2. If the concentration of A is doubled, the reaction rate will be
doubled
quadrupled
increases by 8 times
unchanged
The activation energy of a chemical reaction can be determined by,
evaluating rate constants at two different temperatures
changing the concentration of reactants
evaluating the concentration of reactants at two different temperatures
evaluating rate constant at standard temperature
Which of the following statement is incorrect?
The rate of law for any reaction cannot be determined experimentally
Complex reactions have fractional order
Biomolecular reactions involved simultaneous collision between two species
Molecularity is only applicable for elementary reaction
A.
The rate of law for any reaction cannot be determined experimentally
According to rate law, it is predicated by expenment Hence, (a) is the correct option
Which of the following statement is in accordance with the Arrhenius equations?
Rate of reaction does not change with increase in activation energy
Rate constant decreases exponentially with increase in temperature
Rate of a reaction increases with increases in temperature and decreases in activation energy
none of these
The minimum energy required forthe reacting molecules to undergo reaction is :
potential energy
kinetic energy
thermal energy
activation energy
The rate constant of a first order reaction is 6.9 × 10-3 s-1. How much time will it take to reduce the initial concentration to its 1/8 th value?
100 s
200 s
300 s
400 s
For a reaction 1/2 A→ 2B rate of disapperance of A is related to rate of appearance of B by the expression.
In a 1st order reaction, reactant concentration C varies with time t as :
1/C increases linearly with t
log C decreases linearly with t
C decreases with 1/ t
log C decreases with 1/ t