potential energy of a molecule is equivelent to the energy of the molecule in a fusion state
Reducing the size of a molecule gives that molecule greater potential energy because the molecule isn't using that energy since it is smaller. Being larger would make less potential energy.
An emission spectrum is the spectrum of frequencies of the electromagnetic radiation emitted (by an atom or molecule) during a transition from a high energy to a low energy level.
The energy carrying molecule in the cell is adenosine triphosphate. People often call it ATP.
The molecule produced by the mitochondria is the energy-carrier molecule. It's name is adenosine triphosphate, or ATP for short.
This is due to statistics. It is quite possible for a low-energy particle (atom or molecule) to transfer energy to a high-energy particle, but on average, more energy will be transferred the other way.
potential energy of a molecule is equivelent to the energy of the molecule in a fusion state
Energy is not 'matter', so it is not be a molecule.
Reducing the size of a molecule gives that molecule greater potential energy because the molecule isn't using that energy since it is smaller. Being larger would make less potential energy.
Energy was released when the molecule was formed from its elements
The electron-deficient molecule is attracted to the electron-rich molecule, so the driving force for the formation of the transition state is greater than simple random collisions
conduction
An emission spectrum is the spectrum of frequencies of the electromagnetic radiation emitted (by an atom or molecule) during a transition from a high energy to a low energy level.
The energy carrying molecule in the cell is adenosine triphosphate. People often call it ATP.
The universal energy molecule is called ATP or adenosine triphosphate. It is often referred to as the energy currency of the cell.
ATP is the engergy molecule used through out the body for energy. It is produced in the mitochondria of the cell.
Active transport requires energy to move a molecule.