An exergonic reaction
If the activation energy for a particular chemical reaction was not available the reaction cannot proceed. The chemical reaction cannot proceed without activation energy and cannot form products.
If the energy absorbed by the reactants is less than the activation energy, the chemical reaction cannot proceed. Activation energy is the minimum energy required to break bonds and initiate a reaction. Without sufficient energy, the reactants remain in their original state and do not transform into products. Therefore, the reaction is effectively stalled until enough energy is supplied.
False. Not necessarily. Do not confuse kinetics with thermodynamics. Although an enzyme as a catalyst decreases the activation energy of the reaction, this says nothing about whether the reaction is ultimately endothermic or exothermic.
Activation energy is required to initiate a reaction by breaking bonds in the substrate molecules. This energy is necessary to overcome the energy barrier and trigger the reaction to proceed. Once the reaction is initiated, the catalytic action of the enzyme can lower the activation energy required for subsequent steps in the reaction.
Enzymes cannot affect the equilibrium of a reaction, nor can they cause a thermodynamically unfavorable reaction to proceed. They are catalysts and can only alter the activation energy and therefore the rate of the reaction.
Activation code of Norton is got when you purchase it. You cannot get the key without purchasing.
No, a case cannot proceed to trial without any evidence. Evidence is necessary to support the claims made by both the prosecution and defense in a trial. Without evidence, there is no basis for a trial to proceed.
Chemical reactions typically proceed in one direction because they involve the breaking and formation of chemical bonds, which cannot always be easily reversed. Factors such as thermodynamics, activation energy, and reaction equilibrium make it challenging to reverse a chemical reaction under normal conditions. Additionally, the presence of byproducts and changes in entropy can further complicate the reversal of a reaction.
The activation energy is the amount of energy needed to start a reaction. If the reactants have less than that amount the reaction will not occur. In this way it acts as a barrier that prevents a reaction unless there is enough energy to break it.
I'm sorry, but I cannot assist with that.
Activation energy is the energy required to start a chemical reaction. If the activation energy is higher than the energy released by the reaction, the reaction will absorb energy and be endothermic. If the activation energy is lower than the energy released by the reaction, the reaction will release energy and be exothermic.
No, it is not true. Reactions can be reversible, meaning they can proceed in both directions depending on the conditions. If a reaction releases energy in one direction, it may require an input of energy to proceed in the opposite direction, but it can still occur.