Elodea is a leafy aquatic plant. It is often used in aquariums. it has many leaves and can have roots.
The lower epidermis of the elodea leaf has the largest cell.
They are purple in color. So there is no need
When an Elodea leaf is added to a phenol red solution, the leaf will release oxygen through photosynthesis. The oxygen will cause the phenol red solution to change color, indicating the presence of oxygen production.
The important compound found in the chloroplast of an elodea leaf is chlorophyll. Chlorophyll is responsible for absorbing light energy during photosynthesis, which converts that energy into chemical energy that the plant can use to carry out various cellular processes.
When an elodea leaf is mounted on a 10 percent salt solution, the cells of the leaf will lose water through osmosis. This will cause the cells to shrink and the leaf to become flaccid. The high salt concentration outside the cells will create a hypertonic environment, leading to water moving out of the cells to try to balance the concentration of solutes.
The lower epidermis of the elodea leaf has the largest cell.
The hypothesis of an osmosis lab with an Elodea leaf could be that the Elodea leaf will lose water and shrink when placed in a hypertonic solution due to water moving out of the leaf cells by osmosis, causing the cells to become flaccid. Conversely, if the Elodea leaf is placed in a hypotonic solution, it may gain water, swell, and become turgid as water moves into the leaf cells via osmosis.
An Elodea leaf belongs in the domain Eukarya, as it is a complex, multicellular organism with cells that contain a true nucleus.
no
becuase it is to thick
Due to plasmolysis
They are purple in color. So there is no need
Elodea is an aquatic plant commonly known as waterweed. It belongs to the genus Elodea within the family Hydrocharitaceae. Elodea is often used in biology classrooms for studying plant cells and photosynthesis.
When an Elodea leaf is added to a phenol red solution, the leaf will release oxygen through photosynthesis. The oxygen will cause the phenol red solution to change color, indicating the presence of oxygen production.
Yes, the elodea leaf will likely swell up in 5% saline water due to osmosis. The higher concentration of salt outside the leaf will cause water to move into the leaf cells, leading to an increase in turgor pressure and swelling.
Rectangular or Box-Like
A wet mount slide is typically used to view an Elodea leaf under a microscope. This type of slide allows the leaf to remain in a hydrated state, which is important for observing its cellular structure and processes.