How to determine order of reaction graphically?
A reaction where one of the products is consumed, such as the production of hydrogen, will usually have a downward pointing arrow on the arrow pointing to the species that is being consumed. If there is no consumption of a species, the arrow will be pointing upwards. If the reaction is reversible, the direction of the arrow will depend on whether the reaction will proceed towards the production of the species or the consumption of the species.
How to determine the order of reaction algebraically?
To determine the order of reaction, use the equation ΔE = ΔE0 – T∆S. The negative sign implies that the process is endergonic, which is a spontaneous process, while a positive ΔE implies that the reaction is exergonic. Now, you need to identify the enthalpy change (ΔE0) and the entropy change (ΔS) for the reaction. You can use the enthalpy change of formation for the species and products.
How to determine the rate of first order reaction algebraically?
The rate of a first order reaction is defined as the amount of product formed per second. To solve for the rate of a first order reaction, you need to know the concentration of the reactant, which is the initial concentration of the reactant at t = 0, and the concentration of the product, which is the final concentration of the product at any given time.
How to determine the rate of first order reaction graphically?
If you have a first order reaction, the rate of reaction will increase linearly. This reaction is represented by the first line in the reaction graph. The rate of reaction can be represented by the rate constant (k) which is dependent on the second law of thermodynamics. This is the energy change of the chemical reaction.
How to determine the order of reaction graphically?
In a reaction graph, we usually put the reactants on the left of a reaction arrow and the products on the right. This makes the reaction easier to understand, as it shows us the direction of the chemical change, but it doesn’t tell us the order in which the reaction occurs. To determine the order of reaction, look at the arrow pointing towards the products. If the arrow is pointing away from the reactants, the reaction will occur in the opposite direction to the arrow, so