some band regions I and A disks ....
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โ 14y agoUnder high magnification, you would observe the distinct bands of a sarcomere including the dark A band (containing thick filaments), the light I band (containing thin filaments), the Z line in the center of the I band, and the H zone in the middle of the A band. This level of magnification would also reveal the arrangement of actin and myosin filaments within the sarcomere.
With higher magnification you can observe bigger.To see clearly resolution also should be high.
An electron microscope is used to observe the structure of a virus. This powerful microscope is capable of providing detailed images of viruses at a nanometer scale due to its high magnification capabilities.
The distance between the objective and the specimen being observed would be the least under high magnification. Higher magnification requires the objective lens to be closer to the specimen in order to achieve detailed resolution.
When using a microscope, you are magnifying the area under the lens by however many times the magnification is on your lens. On low power the area expanded by the lens is smaller than on high magnification. When on low power more is visible and there is less area to search for your given object under the microscope. I recommend finding the object on low magnification, and then switching to high once you have found it.
It depends on the specific use case. High magnification and lower resolution would be better for observing fine details in a smaller area, while low magnification and high resolution would be better for seeing the bigger picture with greater clarity.
With higher magnification you can observe bigger.To see clearly resolution also should be high.
If the total magnification is 200x and the magnification of the high-power objective (HPO) is 40x, then the magnifying power of the eyepiece is 5x (200x รท 40x = 5x).
No, hair and fur are different types of biological structures. Hair is a thin, thread-like strand that grows from follicles in the skin of mammals, while fur is a dense coat of fine, soft hairs covering the skin of animals. Under high-power magnification, hair would show individual strands, while fur would show many hair strands closely packed together.
The magnification of the specimen under low power optics, lpo, is 10 times and the magnification of the specimen under high power optics, hpo, depends on the power of the microscope but is usually at least 500 times or more.
The field of view is often brighter under low power because of the wider exit pupil diameter. This allows more light to enter the eye, making the image appear brighter compared to high power, which typically has a smaller exit pupil and may result in a dimmer image.
It means you have a good microscope.
When observing objects under high magnification, the brightness of the image may decrease due to the limited amount of light entering the microscope objective. This can be compensated by adjusting the lighting conditions or using advanced imaging techniques to enhance contrast.
10cm is 100,000um. 100,000/20 is 5000 magnification
Paper appears to be a featureless material, which under high magnification is seen to be composed of a tangled mat of fibers.
An electron microscope is used to observe the structure of a virus. This powerful microscope is capable of providing detailed images of viruses at a nanometer scale due to its high magnification capabilities.
Turning the coarse adjustment knob when observing at high power magnification can cause the objective lens to hit the slide, potentially damaging the specimen or the lens. It can also result in a sudden shift in focus, making it difficult to observe the specimen clearly. It is recommended to use the fine adjustment knob for precision focusing at high power magnification.
The total magnification of a microscope is equal to the magnification of the eyepiece lens multiplied by the magnification of the objective lens. For example, if the eyepiece has a magnification of 10x and the objective lens has a magnification of 40x, the total magnification would be 10x * 40x = 400x.