It is electrostatic force of attraction generally, but more deeply there are many other forces like covalent, vandervall's and hydrogen bonding forces too..
Yes, they are. Molecules get further apart as they gain energy.
. . . Chemical energy holds molecules together by forming the bonds between atoms.in the form of electric bonds
No, this is chemical energy
photosynthesise
The kinds of bonds that join molecules with other molecules are called intermolecular bonds. These can be covalent bonds or ionic bonds. These bonds can usually be broken by an increase in thermal energy (temperature), and form when there is a lack of thermal energy.
Yes, they are. Molecules get further apart as they gain energy.
temperature is the measure of the average kinetic energy of a substances molecules, though energy is in joules and temperature is in Kelvin.
Anabolic pathways require energy to combine simple molecules into more complex ones.
temperature is the measure of the average kinetic energy of a substances molecules, though energy is in joules and temperature is in Kelvin.
The name of the energy that holds atoms together in a molecule is called chemical bonds.
The process by which organisms break down macro molecules is called catabolism. Synthesizing small molecules and conserving energy is called anabolism. Anabolism and catabolism together is called metabolism.
. . . Chemical energy holds molecules together by forming the bonds between atoms.in the form of electric bonds
Vibrational energy. The vibration of one molecule is transferred to adjacent molecules as it "hits" them. The vibration of molecules is otherwise known as heat or thermal energy.
No, light is a form of energy. It can be thought of as wave energy or as tiny packets (photons) of energy. Substances like sugar, iron and salt are made up of molecules or atoms.
The energy that is transferred when molecules bump into each other is called conduction. Conduction is the transfer of heat energy between substances that are in direct contact with each other.
Molecules
The constant random motion of molecules caused by their inherent kinetic energy is called Brownian motion . It describes how particles in solution and even individual molecules randomly move as energy moves through a system.