(True)
Increasing the concentraion the reaction rate increase.
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.
Generally in a way that's far too complicated to give a single answer for.
Increasing the temperature will increase the reaction rate, as will finding a suitable catalyst.
The concentration of reactants is changed.
(True)
Increasing the concentration of an acid would increase the rate and vigor of the reaction involving a metal such as magnesium.
Increasing the concentration of the reactants increases the rate of the reaction.
Increasing the concentration of the reactants the rate of reaction increase.
The rate of chemical reaction increase as the concentration of the chemicals increase. The reason is obvious. There is more opportunity for the atoms to come in contact with each other. This facilitates rate of chemical reaction.
If the reaction speed has not already peaked, then it will increase
Increasing the temperature of the reactants can increase the rate of the chemical reaction.
Factors which can increase the rate of a chemical reaction:- temperature- pressure- concentration of reactants- stirring- if solids are involved the dimension of particles is important- the type of reaction- the order of reaction- presence of catalysts- influence of external factorsetc.
Increasing the concentraion the reaction rate increase.
increasing the concentration in a rate of reaction makes the reaction take place faster because if there is more initial particles then there is more particles to react
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.