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Breaking bonds produces energy making it an exothermic process.
What else can I help you with?
Is breaking bonds a exothermic or endothermic process?
Breaking bonds is an endothermic process because energy is required to overcome the attractive forces holding the atoms together in a bond. When bonds are broken, energy is absorbed from the surroundings, making it an endothermic reaction. Conversely, forming bonds is an exothermic process because energy is released when new bonds are formed, resulting in a net release of energy.
Can you relate exothermic and endothermic reactions to the making and breaking of bonds?
Bond breaking is endothermic, which means it takes energy. An example would be breaking a window. Bond making is exothermic, which means it releases energy. An example would be burning a substance.
What happens to energy when a chemical bond is broken?
Depending on whether or not the original interaction was endothermic or exothermic, the breaking of the chemical bond will cause a release of energy and heat or an absorption of heat if the original equation was exothermic. The molecule created by the chemical bond will then denigrate.
can you relate endothermic and exothermic reactions to specifically the making and breaking of bonds?
An exothermic reaction releases energy when bonds are formed, leading to a lower energy state compared to the reactants. In contrast, an endothermic reaction requires energy input to break existing bonds and form new ones, resulting in a higher energy state than the initial reactants.
What happens to energy when a chemical bond broken?
Depending on whether or not the original interaction was endothermic or exothermic, the breaking of the chemical bond will cause a release of energy and heat or an absorption of heat if the original equation was exothermic. The molecule created by the chemical bond will then denigrate.
Is bond breaking endothermic?
Yes, bond breaking is typically endothermic, meaning it requires energy input to break bonds.
How bond formation and bond breaking related to enthalpy?
Enthalpy is the measurement of total energy change of a reaction. The energy of bond formation and bond breaking can be used to calculate the bond enthalpy of the reaction. Bond enthalpy is the enthalphy change when 1 mol of bond is broken. Therefore the general equation to calculate the enthalpy change is energy of bond broken subtract by energy of bond formation.
What is an exotherm?
In this process bond breaking always requires energy while bond making always release energy. The balance between these two processes result in two types of reactions exothermic and endothermic reaction. When the energy released by bond forming is greater than the energy consumed by bond breaking there is a net release of chemical energy. This type of reaction is called exothermic reaction+ it is a chemical reaction that releases energy in the form of light or heat.
Why is the formation of ionic compound exothermic?
Look at the problem from the other angle why does it take energy to break up an ionic lattice. It is because of the electrostatic attrction of the ions which has to be overcome. A measure of the is energy is the lattice enthalpy which depends on the charges, th einterionic distances and the geometry of the lattice.
What is released when a bond between two atoms breaks?
When a bond between two atoms breaks, energy is either absorbed or released depending on the specific bond. If the bond is broken by adding energy, such as heat or light, it is an endothermic process. If the bond is broken by releasing energy, it is an exothermic process.
Is bond formation endothermic?
Yes, bond formation can be either endothermic or exothermic, depending on the specific bonds being formed. In an endothermic reaction, energy is absorbed to break existing bonds and form new ones.
Why is bond breaking an endothermic process and bond formation is an exothermic process?
the answer is pretty much the same as why freezing is an exothermic reaction-- because the release of energy is occurring as bonds are forming. to form bonds, energy must be inputted or it won't happen naturally. this might lead one to think that it is endothermic but it's not. you have to think of it in terms of the energy of the particles forming the bond. the particles that will later form the bonds have higher energy to begin with because they have more entropy. when the bond forms, the particles will give off energy in order to sort of move less. they are being ordered, against nature, therefore have less energy. you can kind of think of it like gas particles coming together to form a liquid. the particles that used to be zooming around are more organized and cannot move as much in all exothermic reactions the reactants will have higher energy than the products.
