Understand lower power distance and higher power distance in countries
As you move from low power to high power, the depth of field decreases. This means that at high power, the area in focus becomes smaller and more limited compared to low power. This is due to the increased magnification at high power which results in a shallower depth of field.
when you change from low power to high power the light intensity decreases. this is because the high power objective lens is smaller than the low power lens. therefore, the high power lens lets less light through
A high-powered lens will allow you to see more details and magnify the object, while a low-powered lens will provide a broader view of the object with less magnification.
The coarse focus knob should be used with the low power objective but not with the high power objective. The point of using the coarse focus knob is to bring the specimen into general focus before fine-tuning with the high power objective, which requires more precise adjustments.
Scanning a specimen using a low-power objective allows you to observe the greatest number of cells within the field of view. Low-power objectives have a lower magnification but a wider field of view compared to high-power objectives, enabling a broader view of the specimen.
Canada is a Low power distance culture.
The working distance decreases as you increase magnification from low to high power on a microscope. This is because higher magnification lenses are closer to the specimen, requiring a shorter working distance for the lens to focus properly.
Decrease.
The object becomes invisible from low power to high power because the focus of lens are different. So though the image is intensified the rays don't fall on the retina unless the distance is corrected.
North Korea is considered a high power distance society, where there is a strong emphasis on hierarchy, authority, and deference to those in positions of power. This is reflected in the country's political system and culture, which prioritize loyalty to the leader and a centralized control of power.
The working distance decreases when going from low power to high power magnification. This is because higher magnification lenses have shorter focal lengths, requiring the object to be placed closer to the lens to come into focus.
As you move from low to high power on a microscope, the working distance decreases. This is because at higher magnifications, the objective lens needs to be closer to the specimen to produce a clear image. Conversely, at lower magnifications, there is more space between the objective lens and the specimen, resulting in a longer working distance.
Low power magnifies to a smaller extent and has a wider field of view, while high power magnifies to a greater extent but has a smaller field of view.
the difference between the low power and high power objectives on a microscope are that the low power objective has a lesser magnification than the high power objective
As you move from low power to high power, the depth of field decreases. This means that at high power, the area in focus becomes smaller and more limited compared to low power. This is due to the increased magnification at high power which results in a shallower depth of field.
You can see what you are doing better in low power in high power, so you can center the object first before you switch to high power to make minor adjustments.
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