Chemical reaction where the energy content of the products is less than that of the reactants; heat is given out from the system. eg. http://en.wikipedia.org/wiki/Exothermic_reaction * Combustion reactions of fuels * Neutralization reactions such as direct reaction of acid and base * Adding concentrated acid to water * Adding water to anhydrous copper(II) sulfate * The Thermite reaction * Reactions taking place in a self-heating can based on lime and aluminum * The setting of cement and concrete * Many corrosion reactions such as oxidation of metals * Most polymerisation reactions * The Haber-Bosch process of ammonia production
An exothermic reaction is one where the products have lower energy than the reactants. In exothermic reactions, heat is released to the surroundings, resulting in a decrease in energy as the reaction proceeds. This can be observed in processes like combustion or certain chemical reactions.
Exothermic reactions. Think of a boulder sitting at the top of a hill. The reactant is on top of the hill and the product is at the bottom of the hill. The boulder(reaction) goes down the hill, energy was put into the reaction so the boulder could move, therefore exothermic. There is now little or no energy in the boulder at the bottom of the hill, meaning the product has lower energy than the reactant.
The reaction is endothermic
In an endothermic reaction, the products have higher energy than the reactants. This means the reactants have lower energy compared to the products.
In an exothermic reaction the energy of the products is less than that of the reactants.
In a chemical reaction, the total bond energy of the products must be lower than the total bond energy of the reactants for the reaction to be exothermic (energy released) and vice versa for an endothermic reaction (energy absorbed). This is based on the principle of conservation of energy.
. The reaction represented by curve B will go faster than the curve A reaction.
A catalyzed reaction will have a lower activation energy because the catalyst provides an alternative reaction pathway that requires less energy to convert reactants into products. The presence of a catalyst can increase the rate of the reaction by lowering the activation energy barrier.
In an exothermic reaction the energy of the products is less than that of the reactants.
An exothermic reaction is a type of chemical reaction where the energy of the products is less than the energy of the reactants. This means that energy is released during the reaction in the form of heat or light. Examples include combustion reactions and many neutralization reactions.
An exergonic reaction releases energy, which can manifest as an increase in temperature, but it doesn't always have to become hot. The temperature change depends on factors such as the amount of energy released and the surroundings the reaction is taking place in.
I dont understand what do you mean by "move", but I know that a chemical reaction can occure easily when energy of products (Ep) is lower than that of reactants (Er). The activation energy is the absolute value of AE=Ep-Er
depends , if the reaction is endothermic or exothermic. if the reaction is endothermic , the energy needed to break the bonds is greater than the energy that forms bonds.and to break bonds you need thermal energy , meanwhile forming bonds gives off energy. now if the reaction is exothermic the energy given off the bonds form are greater than the enrgy needed to break them. you know if the reaction is exothermic or endothermic because exothermic have a negitave delta next to d eqn.while endothermic have a positive delta.
An exothermic reaction can produce a covalently bonded compound or an ionically bonded one. It depends on the starting reactants.
generally reaction happen to lower the overall energy of the reactants
A catalyzed reaction will have a lower activation energy because the catalyst provides an alternative reaction pathway that requires less energy to convert reactants into products. The presence of a catalyst can increase the rate of the reaction by lowering the activation energy barrier.
If all the reactants occupy more volume than all of the products, the reverse reaction will be favored. If all the reactants occupy less volume than all of the products, the forward reaction will be favored. If the products and reagents have the same volume, the equilibrium will not change.
Lowers the activation energy of a reaction, therefore speeding the reaction up.Catalysts speed up chemical reactions. They do not change the products or reactants of the reaction, and are not used up or consumed in the reaction. Biological catalysts are called enzymes. Catalysts lower the activation energy (or energy needed to start a reaction), and cause the reaction to occur more quickly.
I would point your studies towards collision theory. It's not that a low concentration necessarily slows down a reaction, but that a low concentration will have a slower reaction rate than a higher concentration of reactants. A lower concentration means a lower number of reactants in solution, meaning it is less likely for the reactants to collide and create products. With a lot of reactants, it is much more likely for collisions to occur.
Yes, it is frequently possible.