When light strikes a chlorophyll molecule, electrons in the chloroplast get excited.
When a photon strikes a pigment molecule such as chlorophyll, the energy from the photon is passed to the chlorophyll. This energy then continues to pass between molecules until it hits the reaction center, where the reaction of photosynthesis' glucose creation occurs.
Electrons are replaced with splitting water when light strikes chlorophyll.
It is reflected (including the green frequencies that we see), or warms the leaf (it can be given off as infrared radiation or be carried away by air circulation).
the photon strikes the chlorophyll releasing an electron.
The core function of photosynthesis is to convert captured light into energy. During this process, the energy from the light is used to split water into elemental O and molecular 2H+.In this form the kinetic light energy is converted to stored chemical energy.
When light strikes a chlorophyll molecule, electrons in the chloroplast get excited.
When a photon strikes a pigment molecule such as chlorophyll, the energy from the photon is passed to the chlorophyll. This energy then continues to pass between molecules until it hits the reaction center, where the reaction of photosynthesis' glucose creation occurs.
esta con noche
The green pigment found in photosynthetic plants is called chlorophyll; it is responsible for converting sunlight.
Electrons are replaced with splitting water when light strikes chlorophyll.
It is either transmitted or reflected. Often, different portions of the light do both.
strikes the photosystems that consist of many secondary chlorophyll and b karotenes which pass the energy to the reaction centre which is a primary chlorophyll.
plant
it makes oxygen + glucose.
It is reflected (including the green frequencies that we see), or warms the leaf (it can be given off as infrared radiation or be carried away by air circulation).
the photon strikes the chlorophyll releasing an electron.
O2