A reaction path follows a curved energy profile.

A reaction path is always shorter.

A reaction path is a straight line.

A reaction path is always longer.

To decrease the energy of the products.

To initiate the reaction by breaking and forming bonds.

To spontaneously create products.

To increase the temperature of the reactants.

The state where temperature is at its highest.

The state where reactants are fully converted to products.

The state where bonds are weakened before new bonds form.

The state where no energy is required.

It only affects the concentration of reactants.

It decreases the rate constant.

It affects the rate constant, increasing the likelihood of reaching activation energy.

It has no effect on the reaction rate.

The activation energy.

The rate constant.

The gas constant.

The frequency factor.

Svante Arrhenius

Albert Einstein

Dmitri Mendeleev

Marie Curie

The concentration of reactants.

The gas constant.

The temperature of the reaction.

The amount of energy particles have and their proper orientation.

By calculating the frequency factor.

By measuring the temperature of the reactants.

By graphing the natural log of the rate constant against the inverse of temperature.

By measuring the concentration of products.

The concentration of reactants.

Negative activation energy divided by the rate constant.

The gas constant.

The frequency factor.

The importance of temperature in reactions.

The difference between successful and unsuccessful reactions in terms of energy and orientation.

The role of the frequency factor.

The calculation of activation energy.