nothing it is exactly the same just backward.
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 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 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.
The area of the slide seen through a microscope depends on the magnification level of the microscope and the field of view. The area will be smaller at higher magnifications and larger at lower magnifications.
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.
The image will move upwards in the field of view when the slide is moved towards you. This is because the slide is physically closer to the objective lens, resulting in the object on the slide appearing to move in the opposite direction.
A transparent microscope slide allows light to pass through the specimen for better image clarity and magnification. It ensures that the light source can illuminate the specimen evenly and that the microscope can capture a clear image of the sample.
A transparent microscope slide allows light to pass through the specimen, enabling clear visibility and magnification. This transparency is essential for producing a detailed image that can be observed under the microscope.
The slide containing the specimen is placed on the stage of the microscope. The stage is a flat platform where the slide sits, and it typically has clips to hold the slide in place. From the stage, the light source below illuminates the specimen for viewing through the lenses of the microscope.
Movements viewed through the microscope are exaggerated quite a bit. As such, it's best to attempt to line up the object on the slide by looking at the slide directly, rather than through the objective.
The glass slide is supported on a microscope stage, which is a flat surface that holds the slide in place for viewing through the microscope. The stage can be moved horizontally and vertically to position the specimen for examination under the lenses of the microscope.
The ocular lenses on a microscope are located at the top of the microscope's eyepiece tube. They are the lenses that you look through to view the magnified specimen on the microscope slide.