Molecular Energy §

Group: 4 #group-4

Relations §

• Molecular Dynamics: Molecular dynamics simulations model the motion and energy of molecules over time.
• Molecules: Molecular energy is the energy associated with molecules and their constituent atoms.
• Thermal Energy: Thermal energy is the kinetic energy of molecular motion and vibrations.
• Translations: Translational motion of molecules contributes to their kinetic energy.
• Thermodynamics: Molecular energy is a key concept in thermodynamics, which studies energy transformations.
• Bonds: Molecular energy is influenced by the strength and arrangement of chemical bonds within molecules.
• Kinetic Energy: Molecular energy includes the kinetic energy of atoms and molecules due to their motion.
• Electromagnetic Energy: Molecular energy can be absorbed or emitted as electromagnetic radiation.
• Chemical Energy: Chemical energy is a form of molecular energy stored in the bonds between atoms in molecules.
• Molecular Structure: The molecular structure and geometry affect the distribution and types of molecular energy.
• Vibrations: Molecular vibrations contribute to the kinetic energy of molecules.
• Rotations: Molecular rotations contribute to the kinetic energy of molecules.
• Energy Transfer: Molecular energy can be transferred through collisions, radiation, or chemical reactions.
• Intermolecular Forces: Intermolecular forces, like hydrogen bonding, influence molecular energy and structure.
• Molecular Interactions: Molecular interactions, such as van der Waals forces, contribute to molecular energy.
• Atoms: Molecular energy arises from the motion and interactions of atoms within molecules.
• Spectroscopy: Spectroscopy techniques probe molecular energy levels and transitions.
• Potential Energy: Molecular energy includes the potential energy stored in molecular bonds and interactions.
• Quantum Mechanics: Molecular energy levels and transitions are described by quantum mechanics.