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Recording the magnification used when drawing cells is important because it provides critical information on the scale and detail of the drawing. This helps ensure accuracy and allows others to understand the size and features of the cells depicted. Additionally, it enables researchers to replicate and compare the observations made under the same magnification.
Recording the magnification used when drawing cells seen under a microscope is important because it helps maintain accuracy and consistency in size proportions when reproducing the image. It also provides important information for others to understand the scale and size of the cells being observed. Without knowing the magnification, the drawing may misrepresent the actual size of the cells.
The magnification level required for viewing the specimen in detail depends on the size and complexity of the specimen. Typically, a magnification level of 400x to 1000x is needed for detailed viewing of biological specimens.
A dissecting microscope typically has a lower magnification range compared to compound microscopes, ranging from 5x to 40x magnification. It is designed for viewing larger specimens in three dimensions at low magnification levels, making it suitable for tasks like dissection and manipulation in biological and industrial applications.
because cells were unable to be seen without the aid of an electron microscope
Total magnification on a microscope is calculated by multiplying the magnification of the objective lens by the magnification of the eyepiece. For example, if the objective lens magnifies 10 times and the eyepiece magnifies 15 times, then the total magnification would be 10 x 15 = 150 times.
10cm is 100,000um. 100,000/20 is 5000 magnification
In biology you are often required to make a drawing of an organism or structure. The drawing should include the magnification or how many times larger (or smaller) the drawing is than the actual object. You can calculate the magnification by dividing the size of the object drawn on the page by the size of the actual object. Don't forget to make sure they are in the same units! for example: drawing 5 cm/ actual cell 5 um X 10,000 um/1 cm = 10,000 x magnification
Recording the magnification used when drawing cells is important because it provides critical information on the scale and detail of the drawing. This helps ensure accuracy and allows others to understand the size and features of the cells depicted. Additionally, it enables researchers to replicate and compare the observations made under the same magnification.
The use of the pesticide DDT.
tertiary consumer
tertiary consumer
Recording the magnification used when drawing cells seen under a microscope is important because it helps maintain accuracy and consistency in size proportions when reproducing the image. It also provides important information for others to understand the scale and size of the cells being observed. Without knowing the magnification, the drawing may misrepresent the actual size of the cells.
Robert Hooke's microscope had a magnification of around 50x, allowing him to observe details of biological specimens at a cellular level. This level of magnification was revolutionary for his time and contributed to his groundbreaking discoveries in the field of biology.
we can solve the concentration of biological magnification if produce less DDT
The magnification level required for viewing the specimen in detail depends on the size and complexity of the specimen. Typically, a magnification level of 400x to 1000x is needed for detailed viewing of biological specimens.
You can pan to reposition the view in the drawing area or zoom to change magnification. With the Realtime option of PAN, you pan dynamically by moving your pointing device. Like panning with a camera, PAN does not change the location or magnification of objects on your drawing; it changes only the view.