maybe it is rar fro each other
No, switching from low power to high power magnifies the image but does not change its position. The position of the image remains the same as long as the slide or specimen is not moved.
by focus and magnification
The image becomes inverted under the low power objective due to the design of the microscope and the way light rays are refracted and magnified by the lenses. The inverted image is a result of the optics in the microscope system.
When you look through a microscope, the position is inverted due to the way the lenses in the microscope refract and bend light. The objective lens of the microscope produces an inverted real image of the specimen, which is then magnified by the eyepiece lens. This inversion is a result of the optical properties of the lenses and the path that light takes through the microscope system.
Actually, the image doesn't form in the microscope. The image forms on your retinas. The microscope focuses light in such a way that it comes together correctly on your retinas.
No, switching from low power to high power magnifies the image but does not change its position. The position of the image remains the same as long as the slide or specimen is not moved.
The image is reversed under a microscope because of the way light is refracted by the microscope's lenses. This optical system produces an inverted image due to the way the objective and eyepiece lenses are configured. The inverted image is then corrected by the brain as it interprets the visual information from the microscope.
It is seen in the opposite direction in which you moved it. I did this experiment last Friday.
The second image shows the letter E under the microscope.
A microscope uses lenses to magnify and focus light to create an enlarged image of an object. By adjusting the position of the lens or the stage holding the object, the orientation of the object can be changed to view it from different angles under the microscope.
When the letter "p" is placed under a microscope in the normal reading position, the viewer would see the letter rotated 180 degrees, appearing as a lowercase "d." This is because microscopes produce an inverted image due to the way light rays pass through the lens system. The orientation change is a result of the optical properties of the microscope, specifically the inversion of the image produced.
When viewed under the microscope, an image appears magnified compared to how it looks on the stage. The microscope allows you to see fine details and structures that are not visible to the naked eye. Additionally, the image may appear clearer and more defined when viewed through the microscope's lenses.
by focus and magnification
A microscope gives a microscopic image of what you have under it. This happens because the lense is curved
An image can appear blurred under a microscope due to improper focusing, contamination on the microscope lens or slide, incorrect magnification setting, or presence of air bubbles in the viewing field. Proper cleaning and adjustment of the microscope components can help improve image clarity.
The image becomes inverted under the low power objective due to the design of the microscope and the way light rays are refracted and magnified by the lenses. The inverted image is a result of the optics in the microscope system.
Under a dissecting microscope, images appear three-dimensional and have a lower magnification compared to a compound microscope. The depth of field is greater, allowing for easier manipulation of specimens. Additionally, the lighting is usually brighter and can be adjusted to illuminate the specimen from different angles.