To find out the relationship between the rate of reaction and the concentrations of reactants.
You need to know the rate of the reaction, as well as the concentrations of all reactants. Then you plug those values into the equation of rate = k[A][B] or whatever the rate equation happens to be.
The valence is determined experimentally.
The order of a reaction with respect to ClO2 is determined by the exponent of ClO2 in the rate law expression. If the rate law is of the form rate = k[ClO2]^n, then the order with respect to ClO2 is n. This value can be determined experimentally by measuring how changes in the concentration of ClO2 affect the reaction rate. If the concentration of ClO2 does not appear in the rate law, then the order with respect to ClO2 is zero.
Elemental carbon can have two different solid phases with differing spatial (position) ... Crystal structures are determined experimentally by X-Ray Diffraction. So the position of the element is determined experimentally by X-ray diffraction of a crystal of the element.
The solubility is determined experimentally dissolving the solute in a solvent at a given temperature and pressure.
They are experimentally determined exponents.
They are experimentally determined exponents
The mechanism that is consistent with the rate law is the one that matches the experimentally determined rate equation.
You need to know the rate of the reaction, as well as the concentrations of all reactants. Then you plug those values into the equation of rate = k[A][B] or whatever the rate equation happens to be.
specific rate constant is an experimentally determined proportionality constant which is different for different reactions and changes only with temperature.
Solubility is determined experimentally.
The rate of a reaction is calculated using the concentrations of reactants.
Solubility is determined experimentally.
This density must be determined experimentally.
The activation energy of a reaction can be determined experimentally by measuring the reaction rate at different temperatures. By plotting the natural logarithm of the rate constant against the reciprocal of the temperature, using the Arrhenius equation, the activation energy can be calculated from the slope of the line.
The refractive index is determined experimentally.
The valence is determined experimentally.