When you move the slide to the right under a microscope, the specimen on the slide will appear to move to the left in the field of view. This optical effect is due to the way light travels through the lenses of the microscope and is called the "opposite movement" phenomenon.
When you move the slide to the left while looking through a microscope, the image of the specimen on the slide will appear to move to the right in the field of view. This is because the light passing through the slide and specimen is refracted and magnified by the lenses of the microscope.
When a slide is turned to the right on a monocular microscope, the specimen on the slide will appear to move to the left in the field of view. This is due to the way the lenses and mirrors in the microscope interact with the light passing through the specimen. The image appears to move in the opposite direction of the physical movement of the slide because of the way the light is refracted and focused by the lenses.
When you move the slide down under the microscope, the specimen on the slide will appear to move upward in the field of view. This is due to the way light rays bend as they pass through the lens system of the microscope, resulting in the specimen appearing to move in the opposite direction as the slide.
When you move the slide up and down in a microscope, it changes the focal distance between the objective lens and the specimen on the slide. This helps to bring different parts of the specimen into focus for observation and analysis. Additionally, it allows you to navigate through different layers of the specimen to examine various features in more detail.
The mechanical stage controls the movement of the specimen slide from left to right and front to back in a microscope. This allows for precise positioning and focusing of the specimen under the lenses.
When you move the slide to the left while looking through a microscope, the image of the specimen on the slide will appear to move to the right in the field of view. This is because the light passing through the slide and specimen is refracted and magnified by the lenses of the microscope.
repeat sample analysis,check for clots, make a slide of the blood, and examine the slide microscopically if their are clots present then request for a new blood sample.
If you move the slide to the left using a microscope, the specimen will appear to move to the right in the field of view. This is because the movement of the slide in one direction causes the specimen to move in the opposite direction within the field of view of the microscope.
When a slide is turned to the right on a monocular microscope, the specimen on the slide will appear to move to the left in the field of view. This is due to the way the lenses and mirrors in the microscope interact with the light passing through the specimen. The image appears to move in the opposite direction of the physical movement of the slide because of the way the light is refracted and focused by the lenses.
When you move the slide down under the microscope, the specimen on the slide will appear to move upward in the field of view. This is due to the way light rays bend as they pass through the lens system of the microscope, resulting in the specimen appearing to move in the opposite direction as the slide.
When you move the slide up and down in a microscope, it changes the focal distance between the objective lens and the specimen on the slide. This helps to bring different parts of the specimen into focus for observation and analysis. Additionally, it allows you to navigate through different layers of the specimen to examine various features in more detail.
Slide.
It is the platform where a slide is affixedThe function of a stage of a microscope is to provide a place where the slide can be put for observation.
When moving a slide to the right, the image in the ocular will appear to move to the left. This is due to the adjustments made to keep the specimen in the center of the field of view as the slide is shifted.
A stained specimen slide typically requires more light than an unstained live specimen slide. This is because the staining process can reduce the transparency of the specimen, making it harder for light to pass through and creating a need for more illumination to visualize details.
If you move a specimen under a microscope to the left, it appears to move to the right when looking through the lens because the view is inverted and reversed on the microscope slide.
the stage clips are used to hold the slide in place on the stage.