If the collision has less energy than Ea (which is activation energy,) then the particles will not have sufficient energy to react.
When gas molecules collide without a change in total energy, it means that the collisions are elastic. In an elastic collision, the kinetic energy of the gas molecules before and after the collision remains constant. This type of collision conserves energy and momentum.
In heat conduction, molecules transfer kinetic energy to neighboring molecules through collisions. As molecules gain kinetic energy from a heat source, they move faster and collide with neighboring molecules, transferring the energy in the process. This transfer of kinetic energy through collisions results in the flow of heat through a material.
The motion of molecules is random and chaotic, driven by thermal energy. Molecules vibrate, rotate, and translate in all directions, constantly colliding with each other and their surroundings. This motion is fundamental to processes such as diffusion and chemical reactions.
NADH possesses more energy than NAD.
NADH possesses more energy than NAD.
Yes it does. The heat released is a result of the energy of molecules moving and colliding with each other.
Ocean waves possess mechanical energy, which is a form of kinetic energy associated with the movement of the water molecules. This energy can be harnessed and converted into electricity through wave energy converters to generate power.
Colliding molecules may not react if they do not have enough energy to overcome the activation energy barrier, if they do not have the correct orientation to form new bonds, or if they are not reactive towards each other due to electronic configurations. Additionally, if there are competing reactions happening at the same time, the molecules may not react with each other.
When gas molecules collide without a change in total energy, it means that the collisions are elastic. In an elastic collision, the kinetic energy of the gas molecules before and after the collision remains constant. This type of collision conserves energy and momentum.
nothing happens
the molecules freeze and it turns to the freezing point
In heat conduction, molecules transfer kinetic energy to neighboring molecules through collisions. As molecules gain kinetic energy from a heat source, they move faster and collide with neighboring molecules, transferring the energy in the process. This transfer of kinetic energy through collisions results in the flow of heat through a material.
the potential energy of the molecules changes during a reaction.
The energy not used to make ATP molecules generates heat.
The motion of molecules is random and chaotic, driven by thermal energy. Molecules vibrate, rotate, and translate in all directions, constantly colliding with each other and their surroundings. This motion is fundamental to processes such as diffusion and chemical reactions.
The transfer of energy that happens when molecules bump into one another is called heat conduction. This process occurs as high-energy molecules transfer some of their energy to lower-energy molecules through collisions, causing the overall thermal energy of the system to equalize.
Three conditions required for a successful collision theory are: sufficient energy to overcome the activation energy barrier, proper orientation of colliding molecules, and effective collision frequency between reacting molecules.