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Derive integrated rate law for a zero-order reaction \[\ce{A -> Product}\].
Concept: Zero Order Reactions
Identify the molecularity of following elementary reaction:
NO(g) + O3(g) → NO3(g) + O(g)
Concept: Molecularity of Elementary Reactions
Obtain the expression for half-life and rate constant of the first-order reaction.
Concept: Integrated Rate Equations
Define the half-life of a first-order reaction.
Concept: Integrated Rate Equations
Which of the following correctly represents integrated rate law equation for a first order reaction in a gas phase?
Concept: Integrated Rate Equations
Derive integrated rate law for zero order reaction.
Concept: Zero Order Reactions
What is the rate constant?
Concept: First Order Reactions
If unit of rate constant is mol dm−3s−1, the order of reaction would be ______.
Concept: Zero Order Reactions
For the reaction A + B → P.
If [B] is doubled at constant [A], the rate of reaction doubled. If [A] is triple and [B] is doubled, the rate of reaction increases by a factor of 6. Calculate the rate law equation.
Concept: Rate of Reaction and Reactant Concentration
The half-life period for the first order reaction is 1.7 hrs. How long will it take for 20% of the reactant to disappear?
Concept: Integrated Rate Equations
Describe anomalous behaviour of oxygen as compared with other elements of group 16 with reference to -
(a) Magnetic property
(b) Oxidation state
(c) Hydrides
Concept: P - Block Group 16 Elements >> Anomalous Behaviour of Oxygen
Describe anomalous behaviour of fluorine with the other elements of group 17 wilh reference to :
(a) Hydrogen bonding
(b) Oxidation state
(c) Polyhalide ions
Concept: P - Block Group 17 Elements >> Anomalous Behaviour of Fluorine
Arrange the following oxyacids of chlorine – HClO, HClO2, HClO3, and HClO4 with respect to Increasing order of thermal stability.
Concept: P - Block Group 17 Elements >> Chlorine
What happens when thin copper leaves are thrown in jar containing chlorine?
Concept: P - Block Group 17 Elements >> Chlorine
What is the action of chlorine (Cl) on the following:
Cold and dilute caustic soda
Concept: P - Block Group 17 Elements >> Chlorine
What is the action of chlorine (Cl) on the following:
Hot and concentrated caustic soda
Concept: P - Block Group 17 Elements >> Chlorine
What is the action of chlorine (Cl) on the following:
Potassium bromide solution
Concept: P - Block Group 17 Elements >> Chlorine
Write electronic configuration and two uses of neon. (Z = 10)
Concept: P - Block Group 18 Elements >> Concept of Group 18 Elements
Arrange the following oxyacids of chlorine - HClO, HClO2, HClO3, and HClO4 with respect to increasing order of oxidizing power.
Concept: P - Block Group 17 Elements >> Chlorine
Write any two uses of Chlorine.
Concept: P - Block Group 17 Elements >> Chlorine
