0
What else can I help you with?
Why is methylene blue was it not used for the elodea slide?
Methylene blue is a staining agent commonly used to enhance the visibility of cellular structures under a microscope. However, it was not used for the Elodea slide because it can interfere with the observation of chloroplasts and other cellular components that are naturally colored. Additionally, Elodea cells are already well-defined and do not require staining for effective visualization of their structures. Using methylene blue could potentially obscure the details of the live cells and their chlorophyll content.
Is it possible to see outlines of cells when looking at an Elodea leaf with the stereoscopic (dissecting) microscope?
Yes, it is possible to see the outlines of cells when examining an Elodea leaf under a stereoscopic (dissecting) microscope. The leaf's transparent nature allows light to pass through, making the cell walls visible as distinct outlines. However, the level of detail may be limited compared to higher-powered microscopes, which can provide clearer views of cell structures.
What is the long disk-like green structures within a elodea cell?
The long disk-like green structures within an Elodea cell are likely chloroplasts. Chloroplasts are organelles that contain chlorophyll, the pigment responsible for capturing light energy for photosynthesis. They play a key role in converting light energy into chemical energy for the plant.
Do chloroplasts move in elodea cells?
Today I just did a lab viewing elodea cells and human cheek cells. When I viewed the Elodea cells on the highest power, I saw chloroplasts moving. They looked like tiny green spheres moving in little groups of two or more on a set of "tracks". I hope this answers the question.
Why you use the elodea leaf instead of other tree leaves?
Elodea leaf cells are commonly used in biology experiments because they are easy to source, have a simple cell structure that is easy to observe, and they release oxygen bubbles during photosynthesis, making it easy to monitor their activity under a microscope. Other tree leaves may have more complex structures that could make observations more challenging.
What is the microscopic structures make up organisms such as Elodea?
The 3 characteristics can be seen in elodea microscopically are cell wall, large central vacuole and chloroplasts. When looking under a microscope at elodea you can see the basic structure of plant cells.
What Slide mount is used for viewing an Elodea leaf?
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.
Why is methylene blue was it not used for the elodea slide?
Methylene blue is a staining agent commonly used to enhance the visibility of cellular structures under a microscope. However, it was not used for the Elodea slide because it can interfere with the observation of chloroplasts and other cellular components that are naturally colored. Additionally, Elodea cells are already well-defined and do not require staining for effective visualization of their structures. Using methylene blue could potentially obscure the details of the live cells and their chlorophyll content.
Plant often used to easily observe turgor and plasmolysis under the microscope?
Elodea
Why do you stain an elodea leaf when observing cells?
because it is already green when you look at it so if you stain it, say with methylene blue, the color will change and you will not be able to recognize some of the structures in the cell like you would without it being stained.
Why couldn't you use an oak leaf instead of an elodea leaf while on the microscope?
becuase it is to thick
Is it possible to see outlines of cells when looking at an Elodea leaf with the stereoscopic (dissecting) microscope?
Yes, it is possible to see the outlines of cells when examining an Elodea leaf under a stereoscopic (dissecting) microscope. The leaf's transparent nature allows light to pass through, making the cell walls visible as distinct outlines. However, the level of detail may be limited compared to higher-powered microscopes, which can provide clearer views of cell structures.
What are the observable characteristics of an Elodea leaf when viewed under a microscope?
When an Elodea leaf is viewed under a microscope, observable characteristics include the presence of chloroplasts, cell walls, and a distinct cell structure with a central vacuole. The chloroplasts appear as green structures within the cells, and the cell walls are visible as thin, rigid boundaries surrounding each cell. The cells are typically rectangular in shape and contain a large central vacuole, which may appear as a clear space within the cell.
What is the long disk-like green structures within a elodea cell?
The long disk-like green structures within an Elodea cell are likely chloroplasts. Chloroplasts are organelles that contain chlorophyll, the pigment responsible for capturing light energy for photosynthesis. They play a key role in converting light energy into chemical energy for the plant.
Do chloroplasts move in elodea cells?
Today I just did a lab viewing elodea cells and human cheek cells. When I viewed the Elodea cells on the highest power, I saw chloroplasts moving. They looked like tiny green spheres moving in little groups of two or more on a set of "tracks". I hope this answers the question.
Why you use the elodea leaf instead of other tree leaves?
Elodea leaf cells are commonly used in biology experiments because they are easy to source, have a simple cell structure that is easy to observe, and they release oxygen bubbles during photosynthesis, making it easy to monitor their activity under a microscope. Other tree leaves may have more complex structures that could make observations more challenging.
Why don't you have to stain the elodea leaf cell?
The reason for this is that many cells have organelles that are very hard to see under a microscope, staining these cells allows you to more easily see these organelles. In the case of an Elodea, the invisble organelles is the central vacuole.
