Mirrorsl
After leaving the condenser in a compound light microscope, the light passes through the specimen on the slide. The light is then refracted and magnified by the objective lens, and further magnified by the eyepiece before reaching the eye of the observer.
Light passes through a microscope because microscopes use lenses to bend and focus the light that enters. This magnifies the object being viewed, making it appear larger and more detailed under the microscope. The light passes through the sample on the microscope slide, which is then magnified by the lenses to produce an image.
In a compound microscope, light enters through the condenser, passes through the specimen on the slide, is magnified by the objective lens, then further magnified by the eyepiece before reaching the observer's eye. The condenser focuses the light onto the specimen for clarity, and the objective lens captures the magnified image for viewing.
TEM (transmission electron microscope) and SEM (scanning electron microscope) use electron beams instead of light to magnify specimens, providing higher resolution images. Compound microscopes use visible light and lenses to magnify specimens. TEMs transmit electrons through the specimen to create an image, while SEMs scan the specimen's surface with electrons to generate an image.
There are three types of basic microscopes: Electron Microscopes, Simple Light Microscopes, and Compound Light Microscopes. Simple [light] Microscopes work by focusing light through one lens. The most common lens, the Convex Lens, works by being thicker in the center than the edge. This bends the light, altering the image as it hits the second lens, your retina. A Compound [light] Microscope works differently. It is the most common microscope for everyday use, using a mirror to shine light up through a slide containing a specimin. Next, the ray of light shines up through a series of lenses, bending the light and multiplying the magnification and resolution levels of the image, until it hits your retina. Robert Hooke used a very complex compound microscope to observe cells through a thin slice of cork wood. The Electron Microscope is the most technologically advanced and, in my opinion, the coolest type yet. In fact, the electron microscope was so complex that it was not discovered until the late 1930's. It uses a beam of electrons instead of light to magnify an image. This allows you to get a much closer image with much higher resolution than with a regular light microscope. The most complex light microscope can only magnify an image up to 5000 times. An electron microscope can easily double that, a recently founded electron microscope can magnify an image up to 150,000 times. To work, this microscope actually borrows electrons from atoms, and as long as they return the electrons to the atoms, there is still perfect balance.
Mirrorsl
The blank is called the condenser. It focuses light onto the specimen to produce a magnified image.
Microscopes produce magnified images by using lenses to bend light rays and focus them on the specimen being observed. The magnified image is then viewed through the eyepiece or a camera. Various types of microscopes, such as compound microscopes and electron microscopes, use different methods to achieve magnification.
Compound microscopes primarily use transmitted light. Light passes through the specimen being observed and is focused by the objective lens, then further magnified by the eyepiece lens. Reflected light is not commonly used in compound microscopes, although it can be utilized for certain applications such as for opaque or thick specimens.
Microscopes create images by focusing light rays through a lens system onto a specimen. The specimen interacts with the light, which is then magnified and captured by the microscope to produce an image, allowing for detailed observation of the specimen at a microscopic level.
There compared by frist the electron micrscope the electron microscope you can cut into a cell (any) and there huge they can zoom into about 2000X.The light microscope has a light to see [other one doesn't need] and light one can only zoom to 20X.
light microscopes shoe only black and white pictures. When a compound microscope shows color when you look through the eye-piece.
light microscopes allow light to pass through the specimen and use two lenses to form an image. Electron microscopes use beams of electrons, rather than light, to produce images.
Light microscopes function by using visible light to pass through a specimen and magnify the image. The light is focused through lenses to provide magnification, resolution, and contrast for the user to study the specimen in detail. The magnified image is then viewed through eyepieces or a camera attached to the microscope.
After leaving the condenser in a compound light microscope, the light passes through the specimen on the slide. The light is then refracted and magnified by the objective lens, and further magnified by the eyepiece before reaching the eye of the observer.
Laboratories use compound microscopes because they provide higher magnification and resolution, allowing for more detailed examination of specimens. Compound microscopes also have multiple lenses which reduce chromatic and spherical aberrations, improving image quality. These features make compound microscopes better suited for scientific research and analysis compared to simple microscopes.
Light passes through a microscope because microscopes use lenses to bend and focus the light that enters. This magnifies the object being viewed, making it appear larger and more detailed under the microscope. The light passes through the sample on the microscope slide, which is then magnified by the lenses to produce an image.