The cell wall helps keep the shape of the cell.
It's kind of hard to describe, but it is more of a rectangular shape.
The apex of a leaf helps regulate the overall growth and shape of the leaf. It contains meristematic cells that facilitate cell division and elongation, allowing the leaf to expand and develop properly. Additionally, the apex is involved in producing hormones that control leaf growth and development.
It has chloroplasts. The chloroplasts contain chlorophyllChlorophyll makes the leaf greenHope this helps!
Rectangular or Box-Like
The difference between a red blood cell and a leaf is that a leaf contains chlorophyll to make it green instead of haemoglobin that makes a red blood cell red. A leaf has many chloroplasts when a red blood cell does not but a red blood cell has a dimple. Both have a cell membrane but only a leaf has a cell wall. Hope this helps you.
Plant cell possess definite shape, it may be oval, rectangular or box-like, it can also can be ovoid depending upon the tissue type.The rigidity of plant cell is due to the presence of cell wall out side the plasma membrane, which is lacking in animal cells.See the related links for pictures:
it is part of a leaf cell. it helps with photosynthesis hope i could help x
Shape of Ficus leaf is chordate
hello I'm mark and please add me on friendster and myspace! a midrib is the central part of a leaf,,,... and it can help 2 carry the leaf tightly... a midrib is commonly find at the back part of a leaf which is become a storage of the stomata.... It helps to keep the leaf in an upright position and to keep the leaf strong with protection from the wind It's the primary vein which consists of vascular bundles-- food nutrients and water conduction. It also supports the leaf to be exposed to the sunlight.
the size is big while the shape is normal
The palisade leaf cell provides chlorophlly to the leaf as a result photosynthesis will take place in the palisade cell.
Leaf veins transport water, nutrients, and sugars throughout the leaf, supporting photosynthesis and other metabolic processes. They also provide structural support to the leaf, helping maintain its shape and structure. Additionally, leaf veins facilitate gas exchange by transporting oxygen and carbon dioxide to and from the leaf cells.