PCl3(g) + Cl2(g) PCl5(g)
The more concentrated the solution of reactants, the more the reaction wants to push right making more products.Same goes vice-versa; if there's more products, then the reaction will push left producing more reactants.
The products becoming more ordered than the reactants
Combining the reactants at a lower temperature. Reducing the concentration of reactants. Grinding one of the reactants into a powder. Removing the catalyst.
Temperature of system (molecular vibrational speed), Pressure of system (proximity), Catalysts (lowers activation energy of reaction), Volume of vessel (related to pressure), and Concentration of reagents (more collisions).
The Reactants are the molecules which initiate the reaction, the products are the molecules which are developed by the reaction. For instance, in the following formula: NaOH + HCl -> NaCl + H2O the reactants are found on the left side of the arrow, NaOH and HCl and the products on the right side of the arrow, NaCl and H2O.
2H2O2(g) 2H2O(g) + O2(g)
The more concentrated the solution of reactants, the more the reaction wants to push right making more products.Same goes vice-versa; if there's more products, then the reaction will push left producing more reactants.
The reactants in a chemical reaction exist before the reaction begins and are consumed during the reaction. Once the reaction is complete, the reactants are typically no longer present. However, in some cases, a small amount of reactant may remain unreacted or there may be reversible reactions where some reactants can be regenerated.
Decreasing the pressure -APEX
The products becoming more ordered than the reactants
Combining the reactants at a lower temperature. Reducing the concentration of reactants. Grinding one of the reactants into a powder. Removing the catalyst.
For most reactions, the lowering of the temperature of the reactants.
It decreases the activation energy, or the energy barrier the reactants must go through to form products. This is the same thing as the energy of the transition state. By decreasing the activation energy necessary for the reaction to occur, more reactants are able to form products since not as much energy is needed. See the Web Links to the left of this answer for more information.
CO(g)+3H2(g)->CH4(g)+H2O(g)
The products becoming more ordered than the reactants
Yes
Temperature of system (molecular vibrational speed), Pressure of system (proximity), Catalysts (lowers activation energy of reaction), Volume of vessel (related to pressure), and Concentration of reagents (more collisions).