Synonyms. Same thing! It all comes down to electron interactions and configurations for both.
Lets take a simple example. Sodium Bicarbonate reacts with dilute sulphuric acid.
2NaHCO3 + H2SO4 -> Na2SO4 + 2CO2 + 2H2O.
So we see that the HCO3- is replaced by SO42- group. How? Well that is due to bond breaking. The ionic bond existing between the Na atom and the bicarbonate radical is broken by the sulphate group of sulphuric acid. So we see that bond breaking is responsible for the above reaction. Lets take a more complex reaction .
An Alkyl halide R-X reacting with Na metal. The reaction is:-
R-X +2Na+ X-R -> R-R + 2NaX
How? By bond breaking. Here the covalent bond is broken by the Na metal which gives rise to 2 alkyl cation and 2 halide anion. The halide anion is bonded ionically with the Na atom and the 2 Rs are bonded together using sigma bonds(or simply covalent bonds). Thus a chemical reaction is governed by bond breaking.
Note: The above mentioned reaction is carried out in the presence of pure and dry ether.
how different each chemical reacts with each other depends on how many of each substance will be in the element. This relates to ionic and covalent bonding. In ionic bonding there consists of one metal and one non metal, all valence electrons go in equally to each substance, but in covalent bonds there consists of two non metals. This means that not all bonds will go in evenly so they must share valence electrons.
What is the relationship between energy bonds and chemical bonds?
a chemical reaction causes a chemical change.
That's called chemical energy.
Chemical energy is held in the bonds between the atoms of molecules and is released when these bonds are broken, as in burning. Such a reaction usually starts by applying heat to activate the burning process. As the chemical burns, bonds break, and energy escapes as heat and light.
Intuitively, the term for this kind of potential energy is bond (or bonding) energy.
In the chemical bonds of its monomers.
The two major types of energy used in the body is Chemical Energy where energy is stored in bonds between chemical substrates adn when the bonds are released so is the energy and Electrical Energy where energy comes from the movement of charged particles across or down a cell membrane.
Chemical bonds create energy in the body.
Nonrenewable fossil fuels, like oil and coal, store a lot chemical energy in the bonds between its molecules. When these fossil fuels are burned, the chemical energy is released.
No. Chemical energy is stored in chemical bonds.
The energy stored in the chemical bonds between atoms is potential chemical energy.
Nonrenewable fossil fuels, like oil and coal, store a lot chemical energy in the bonds between its molecules. When these fossil fuels are burned, the chemical energy is released.
Nonrenewable fossil fuels, like oil and coal, store a lot chemical energy in the bonds between its molecules. When these fossil fuels are burned, the chemical energy is released.
In the chemical bonds of its monomers.
chemical energy is the energy stored in a matter such as food and fuel
Chemical energy
the bonds between atoms
Chemical energy is energy stored in chemical bonds between atoms. Energy stored in fossil fuels is an example of potential energy.
chemical energy