diffusion, simple
removal of electrons from chlorophyll molecules removal of electrons from chlorophyll molecules
No, osmosis is a passive process that does not require the use of cell energy (ATP). It is driven by the concentration gradient of solutes across a selectively permeable membrane.
Active transport.
Osmosis is an example of movement of particles from an area without the need of additional energy. If a state is not in equilibrium particles can move from one area to another without additional energy.
'kinetic energy of molecules' is heat; so your answer is any heat engine: for example, a steam locomotive.
diffusion, simple
That can be said about basically any process.
lolwhut
The process driven by the transfer of energy from the sun by radiation is called the water cycle. This energy fuels evaporation of water from the surface, which forms clouds and eventually leads to precipitation, completing the cycle.
The process driven by Earth's solar energy is photosynthesis. This is the process by which plants, algae, and some bacteria convert sunlight into chemical energy in the form of glucose, which is used as fuel for the organism. Photosynthesis is vital for the production of oxygen and the overall balance of the Earth's atmosphere.
The process driven by the transfer of energy is often the performance of work or the movement of objects. Energy transfer allows for the conversion of one form of energy into another to accomplish various tasks and activities. It is central to sustaining the functioning of living organisms and the operation of many systems in nature and technology.
removal of electrons from chlorophyll molecules removal of electrons from chlorophyll molecules
Evaporation is a process in which a liquid turns into a gas or vapor. It occurs when the molecules of a liquid gain enough energy to escape into the air. This process is driven by heat energy from the surroundings.
A thermometer measures molecular energy.
An engine is needed to do this. A steam engine A jet engine A car engine A battery driven electric engine. The process is normally multi step.
Energy produced by molecular motion is utilized in various processes and systems through the conversion of this kinetic energy into other forms of energy, such as mechanical, electrical, or thermal energy. This energy can be harnessed to power machines, generate electricity, or heat buildings, among other applications. The efficiency and effectiveness of utilizing molecular motion energy depend on the specific process or system in which it is being used.
The process of gas molecules in a container moving in straight lines, colliding with each other and the walls of the container can be explained by the kinetic-molecular theory. This theory describes how the behavior of gas molecules is influenced by their motion and energy.