H2O
Water has an important role in photosynthesis. First it is
absorbed through the roots and then is carried up the xylem
to the leaves of the tree. As it reaches the leaves, light splits
the water. O2 leaves through the leaves and the Hydrogens
bond to the CO2 to create high energy glucose.
H2O
Water has an important role in photosynthesis. First it is
absorbed through the roots and then is carried up the xylem
to the leaves of the tree. As it reaches the leaves, light splits
the water. O2 leaves through the leaves and the Hydrogens
bond to the CO2 to create high energy glucose.
H2O
Water has an important role in photosynthesis. First it is
absorbed through the roots and then is carried up the xylem
to the leaves of the tree. As it reaches the leaves, light splits
the water. O2 leaves through the leaves and the Hydrogens
bond to the CO2 to create high energy glucose.
H2O
Water has an important role in photosynthesis. First it is
absorbed through the roots and then is carried up the xylem
to the leaves of the tree. As it reaches the leaves, light splits
the water. O2 leaves through the leaves and the Hydrogens
bond to the CO2 to create high energy glucose.
H2O
Water has an important role in photosynthesis. First it is
absorbed through the roots and then is carried up the xylem
to the leaves of the tree. As it reaches the leaves, light splits
the water. O2 exit through the stomata in the leaves and the
Hydrogens chemically bonds to the CO2 to create high
energy glucose.
H2O
Water has an important role in photosynthesis. First it is
absorbed through the roots and then is carried up the xylem
to the leaves of the tree. As it reaches the leaves, light splits
the water. O2 leaves through the leaves and the Hydrogens
bond to the CO2 to create high energy glucose.
CO2
Carbon dioxide is needed for photosynthesis to make the
high energy sugar glucose. It will enter through the leaves
of the plant via the stomata. As it enters the leaves the
hydrogen protons combine in a series of reactions to
produce glucose.
CO2
Carbon dioxide is needed for photosynthesis to make the
high energy sugar glucose. It will enter through the leaves
of the plant via the stomata. As it enters the leaves the
hydrogen protons combine in a series of reactions to
produce glucose.
CO2
Carbon dioxide is needed for photosynthesis to make the
high energy sugar glucose. It will enter through the leaves
of the plant via the stomata. As it enters the leaves the
hydrogen protons combine in a series of reactions to
produce glucose.
CO2
Carbon dioxide is needed for photosynthesis to make the
high energy sugar glucose. It will enter through the leaves
of the plant via the stomata. As it enters the leaves the
hydrogen protons combine in a series of reactions to
produce glucose.
CO2
Carbon dioxide is needed for photosynthesis to make the
high energy sugar glucose. It will enter through the leaves
of the plant via the stomata. As it enters the leaves the
hydrogen protons combine in a series of reactions to
produce glucose.
CO2
Carbon dioxide is needed for photosynthesis to make the
high energy sugar glucose. It will enter through the leaves
of the plant via the stomata. As it enters the leaves the
hydrogen protons combine in a series of reactions to
produce glucose.
Sun
Without the sun photosynthesis cannot occur. It provides
the energy necessary to split water. That powers the
conversion of carbon dioxide to glucose.
Chlorophyll
Plants gather the sun’s energy with light-absorbing
pigments. The main pigment used in photosynthesis is
chlorophyll. It excites the hydrogen and allows it to
combine with Carbon dioxide to form glucose.
Chlorophyll
Plants gather the sun’s energy with light-absorbing
pigments. The main pigment used in photosynthesis is
chlorophyll. It excites the hydrogen and allows it to
combine with Carbon dioxide to form glucose.
Chlorophyll
Plants gather the sun’s energy with light-absorbing
pigments. The main pigment used in photosynthesis is
chlorophyll. It excites the hydrogen and allows it to
combine with Carbon dioxide to form glucose.
Chlorophyll
Plants gather the sun’s energy with light-absorbing
pigments. The main pigment used in photosynthesis is
chlorophyll. It excites the hydrogen and allows it to
combine with Carbon dioxide to form glucose.
Chlorophyll
Plants gather the sun’s energy with light-absorbing
pigments. The main pigment used in photosynthesis is
chlorophyll. It excites the hydrogen and allows it to
combine with Carbon dioxide to form glucose.
Chlorophyll
Plants gather the sun’s energy with light-absorbing
pigments. The main pigment used in photosynthesis is
chlorophyll. It excites the hydrogen and allows it to
combine with Carbon dioxide to form glucose.
Roots
The role of the roots in photosynthesis is to absorb water
from the soil and transport via the xylem to the leaves.
Roots
The role of the roots in photosynthesis is to absorb water
from the soil and transport via the xylem to the leaves.
Roots
The role of the roots in photosynthesis is to absorb water
from the soil and transport via the xylem to the leaves.
Roots
The role of the roots in photosynthesis is to absorb water
from the soil and transport via the xylem to the leaves.
Roots
The role of the roots in photosynthesis is to absorb water
from the soil and transport via the xylem to the leaves.
Stomata
The job of the stomata is to allow carbon dioxide into the
leaves and oxygen out of the cell. Although it is important
that the stomata not remain open all the time especially at
night so that it does not lose water.
Stomata
The job of the stomata is to allow carbon dioxide into the
leaves and oxygen out of the cell. Although it is important
that the stomata not remain open all the time especially at
night so that it does not lose water.
Stomata
The job of the stomata is to allow carbon dioxide into the
leaves and oxygen out of the cell. Although it is important
that the stomata not remain open all the time especially at
night so that it does not lose water.
Stomata
The job of the stomata is to allow carbon dioxide into the
leaves and oxygen out of the cell. Although it is important
that the stomata not remain open all the time especially at
night so that it does not lose water.
Stomata
The job of the stomata is to allow carbon dioxide into the
leaves and oxygen out of the cell. Although it is important
that the stomata not remain open all the time especially at
night so that it does not lose water.