This mind map is about the reaction rate (Chemistry).
The reaction rate or rate of reaction is the speed at which a chemical reaction takes place, defined as proportional to the increase in the concentration of a product per unit time and to the decrease in the concentration of a reactant per unit time.
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REACTION RATE
RATE LAW
THE RATE OF REACTION DEPENDS ON THE CONCENTRATION OF REACTANTS
INTEGRATED RATE LAW
AMOUNT OF CHEMICAL TO BE CONSUMED
AMOUNT OF REACTANT THAT WOULD REMAIN
DERIVED FROM RATE LAW
ORDERS OF REACTION
ZERO-ORDER
CONSTANT RATE
FIRST-ORDER
DOUBLED CONCENTRATION = DOUBLED RATE
SECOND-ORDER
DOUBLED CONCENTRATION = QUADRUPLED RATE
CHANGE IN CONCENTRATION
REACTANT
PRODUCT
ZERO ORDER REACTION
RATE DEPENDS ON THE CONCENTRATION OF REACTANTS
[A] = -kt + [A]
FIRST ORDER REACTION
GIVES A LINEAR EQUATION
NATURAL LOGARITHM SLOPE = NEGATIVE OF THE RATE CONSTANT
ln[A] = -kt + [A]o
SECOND-ORDER REACTION
SHOWS LINEAR RELATIONSHIP BETWEEN THE RECIPROCAL OF THE REACTANT REACTION AND TIME
1 / [A] = kt + 1 / [A]o
MODELS FOR THE REACTION RATE
FACTORS INFLUENCING THE FAVORABILITY AND RATE OF REACTIONS
COLLISION THEORY
REACTANT CONCENTRATION AFFECTS THE RATE OF REACTION
ACTIVAATION ENERGY
REACTANTS MUST SURPASS AN ENERGY BARRIER
CATALYSIS
SPEEDS UP REACTION BY ALTERNATE ROUTES
ARRHENIUS EQUATION
EFFECTS OF TEMPERATURE ON REACTION RATE
Reaction Rate
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REACTION RATE
RATE LAW
THE RATE OF REACTION DEPENDS ON THE CONCENTRATION OF REACTANTS
INTEGRATED RATE LAW
AMOUNT OF CHEMICAL TO BE CONSUMED
AMOUNT OF REACTANT THAT WOULD REMAIN
DERIVED FROM RATE LAW
ORDERS OF REACTION
ZERO-ORDER
CONSTANT RATE
FIRST-ORDER
DOUBLED CONCENTRATION = DOUBLED RATE
SECOND-ORDER
DOUBLED CONCENTRATION = QUADRUPLED RATE
CHANGE IN CONCENTRATION
REACTANT
PRODUCT
ZERO ORDER REACTION
RATE DEPENDS ON THE CONCENTRATION OF REACTANTS
[A] = -kt + [A]
FIRST ORDER REACTION
GIVES A LINEAR EQUATION
NATURAL LOGARITHM SLOPE = NEGATIVE OF THE RATE CONSTANT
ln[A] = -kt + [A]o
SECOND-ORDER REACTION
SHOWS LINEAR RELATIONSHIP BETWEEN THE RECIPROCAL OF THE REACTANT REACTION AND TIME
1 / [A] = kt + 1 / [A]o
MODELS FOR THE REACTION RATE
FACTORS INFLUENCING THE FAVORABILITY AND RATE OF REACTIONS
COLLISION THEORY
REACTANT CONCENTRATION AFFECTS THE RATE OF REACTION
ACTIVAATION ENERGY
REACTANTS MUST SURPASS AN ENERGY BARRIER
CATALYSIS
SPEEDS UP REACTION BY ALTERNATE ROUTES
ARRHENIUS EQUATION
EFFECTS OF TEMPERATURE ON REACTION RATE
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REACTION RATE
RATE LAW
ZERO ORDER REACTION
