In a photosystem, an enzyme, known as the reaction center, is surrounded by proteins that enhance the absorption of light and transfer energy to it. The reaction center absorbs the light, which is comprised of photons, and then transfers the energy to one of two types of terminal electron acceptors.
Electrons in photosystem II get their energy from sunlight. When photons from sunlight are absorbed by the chlorophyll molecules in the photosystem, the energy is transferred to electrons, allowing them to become excited and drive the process of photosynthesis.
ATP is produced using the energy from photons hitting photosystem II through the process of photosynthesis.
ATP and NADPH are produced using the energy from photons hitting photosystem 2 during the light-dependent reactions of photosynthesis.
ATP and NADPH are produced using energy from photons hitting photosystem II. These molecules are essential in the light-dependent reactions of photosynthesis to drive the production of sugars.
ATP
Electrons in photosystem II get their energy from sunlight. When photons from sunlight are absorbed by the chlorophyll molecules in the photosystem, the energy is transferred to electrons, allowing them to become excited and drive the process of photosynthesis.
From energy in photons
ATP is produced using the energy from photons hitting photosystem II through the process of photosynthesis.
they absorb photons from sunlight
From energy in photons
ATP and NADPH are produced using the energy from photons hitting photosystem 2 during the light-dependent reactions of photosynthesis.
NADPH
From energy in photons
ATP and NADPH are produced using energy from photons hitting photosystem II. These molecules are essential in the light-dependent reactions of photosynthesis to drive the production of sugars.
ATP
The energy is transferred by photons, which are elementary particles.
In photosystem I, electrons get their energy from the absorption of light by chlorophyll molecules. When light is absorbed, it excites the electrons in the chlorophyll, allowing them to move through a series of electron carriers in the photosystem to generate energy for the production of ATP and NADPH during photosynthesis.