Oxygen!
the concentration of a reactant influence which is explained by the colision theory as concentration increases the frequent of colision increases. The collision theory is the correct alignment theory in that for a reaction to occur, two molecules must be correctly alignment. Thus, by increasing the concentration, you increase the amount of molecules and then the number of collision increase making the probability for a successful collision to occur, higher.
answer of Natural of Reactants is to find the GM of K.O.S to familiarize the control of KEYBOARD...
Increasing the reactants concentration the number of molecular collisions also increase.
First order; the rate is directly proportional to the concentration of reactant.
It doesn't - the reaction rate will not change regardless of how much of that reactant is added. That's the definition of zero-order.
by pooing on the leg
The rate would be four times larger
Increasing the concentration of the reactants the rate of reaction increase.
First order; the rate is directly proportional to the concentration of reactant.
When the concentration of the reactant is decreased, the rate of chemical reaction go slow.
Reactant concentration is the exponent or index in which a substance's concentration term is increased in the rate equation. Reactant concentration is also known as the order of reaction.
Decreasing the reactant concentration will slow the rate of the reaction. If you use the idea of adding oxygen and hydrogen to make water and decease the amount of one, you will produce less water. It doesn't matter which reactant is less as there are just are not enough to go around.
It leads to more frequent collisions, which increase reaction rate.
The effect of concentration of reactants on rate of reaction depends on the ORDER of the reaction. For many reactions, as the concentration of reactants increases, the rate of reaction increases. There are exceptions however, for example a zero order reaction where the rate of reaction does not change with a change in the concentration of a reactant.
That depends on the order of the reaction. If the reaction is zero order with respect to a reactant, then changing the concentration will have no effect on rate. If it is first order, then doubling the concentration will double the rate. If it is second order, then doubling the concentration will quadruple the rate.
The effect of concentration of reactants on rate of reaction depends on the ORDER of the reaction. For many reactions, as the concentration of reactants increases, the rate of reaction increases. There are exceptions however, for example a zero order reaction where the rate of reaction does not change with a change in the concentration of a reactant.
Usually, increasing concentration of reactants increases the rate of reaction, but increasing concentrations of products reduces the rate of reaction. However, if one reactant is already present in large stoichiometric excess over another, increasing the concentration of that reactant may not increase the rate of reaction at all, and if the free energy of reaction is large enough in magnitude, increasing the concentration of products may not reduce the rate of reaction at all.
The rate of reaction doesn't really matters, only concentration does.
It doesn't - the reaction rate will not change regardless of how much of that reactant is added. That's the definition of zero-order.
Decreasing the reactant concentration will slow the rate of the reaction. If you use the idea of adding oxygen and hydrogen to make water and decease the amount of one, you will produce less water. It doesn't matter which reactant is less as there are just are not enough to go around.