Chloroplasts
A cell from a maple leaf is likely to contain chloroplasts, which are the organelles responsible for photosynthesis. These structures enable the leaf to convert sunlight into energy, a function not present in human nerve cells. Additionally, leaf cells typically have a cell wall made of cellulose, while human nerve cells have a flexible plasma membrane without a cell wall.
Leaves contain chloroplasts, which are specialized organelles that house chlorophyll, the pigment responsible for capturing sunlight. Through the process of photosynthesis, chloroplasts convert carbon dioxide and water into glucose and oxygen, using sunlight as energy. Additionally, the leaf's stomata allow for gas exchange, facilitating the intake of carbon dioxide and the release of oxygen. Together, these structures enable leaves to produce sugar efficiently.
Melanocytes, which produce melanin for skin pigmentation, are found in human epidermal cells but not in leaf epidermal cells. Additionally, human epidermal cells contain structures like Langerhans cells for immune response, which are not present in leaf epidermal cells.
Feature
When a solution of salt or sugar is put on a mounted Rhoeo leaf, the process of osmosis occurs. Water moves from an area of higher concentration (inside the leaf) to an area of lower concentration (the solution outside the leaf), causing the leaf cells to shrink or swell depending on the concentration of the solution. This can disrupt the normal functioning of the leaf cells and lead to changes in their appearance.
epidermisveinscuticlepalisade cells
sugar
Umm rather
the answer is mitochondria
A cell from a maple leaf is likely to contain chloroplasts, which are the organelles responsible for photosynthesis. These structures enable the leaf to convert sunlight into energy, a function not present in human nerve cells. Additionally, leaf cells typically have a cell wall made of cellulose, while human nerve cells have a flexible plasma membrane without a cell wall.
Leaves contain chloroplasts, which are specialized organelles that house chlorophyll, the pigment responsible for capturing sunlight. Through the process of photosynthesis, chloroplasts convert carbon dioxide and water into glucose and oxygen, using sunlight as energy. Additionally, the leaf's stomata allow for gas exchange, facilitating the intake of carbon dioxide and the release of oxygen. Together, these structures enable leaves to produce sugar efficiently.
Melanocytes, which produce melanin for skin pigmentation, are found in human epidermal cells but not in leaf epidermal cells. Additionally, human epidermal cells contain structures like Langerhans cells for immune response, which are not present in leaf epidermal cells.
Stomata and parenchyma cells, columnar ans spongy
Because of the phloem or tube like structures
Feature
because of the living cells
When a solution of salt or sugar is put on a mounted Rhoeo leaf, the process of osmosis occurs. Water moves from an area of higher concentration (inside the leaf) to an area of lower concentration (the solution outside the leaf), causing the leaf cells to shrink or swell depending on the concentration of the solution. This can disrupt the normal functioning of the leaf cells and lead to changes in their appearance.