big leaves
By increasing the thickness of a leaf the process of photosynthesis will become longer. This is because the sun has to penetrate through the leaf to the chloroplasts so that the chloroplasts can converge the sunlight into energy. If the thickness of the leaf is increased then the sunlight will take more time to penetrate through the leaf to reach the chloroplasts.
a microscope and photosynthesis takes place in the leaf
A simple leaf is a leaf, such as an aspen leaf, that does not divide into parts. A compound leaf is a leaf, such as a walnut leaf, that has several leaflets coming off of a single petiole.
The Leaf
photosynthesis
Leaf thickness is largely due to the thickness of the palisade mesophyll layer. This is where the chloroplast is located and therefore the site area in light is absorbed for photosynthesis. Thicker leaves means more chloroplast, and thus a faster rate of photosynthesis.
It's called a stoma (plural stomata) and its function is to allow carbon dioxide to enter the leaf for photosynthesis. The guard cells sre responsible for regulating the size of the stoma.
CHLOROPLAST
photosynthesis
the leaf of a rose acts like any other leaf, it conducts photosynthesis,
By increasing the thickness of a leaf the process of photosynthesis will become longer. This is because the sun has to penetrate through the leaf to the chloroplasts so that the chloroplasts can converge the sunlight into energy. If the thickness of the leaf is increased then the sunlight will take more time to penetrate through the leaf to reach the chloroplasts.
a microscope and photosynthesis takes place in the leaf
leaf, I think :)
A simple leaf is a leaf, such as an aspen leaf, that does not divide into parts. A compound leaf is a leaf, such as a walnut leaf, that has several leaflets coming off of a single petiole.
PHOTOSYNTHESIS
by photosynthesis
Glucose