You mean "electron," of course. There are a number of "advantages," but this is really not the right way to look at it, so to speak. The most obvious one is color. Electron microscopes cannot detect color because they do not use light to illuminate the object, they use electrons. Depending upon what one is looking for, color contrasts can be very important. Electron microscopes have their own advantages, primarily much higher magnification.
they are relatively smaller, electron ones are biggerthey are easy to usethey allow you to see coloured images, electron ones don'tyou can observe live specimen, specimen has to be dead with electron microscopesi was trying to view the answer in relation to transmmission
The light microscope was not invented by a single individual, but rather developed over time by multiple scientists. Hans Lippershey is credited with the invention of the compound microscope in the late 16th century, which laid the foundation for the modern light microscope. Later advancements by scientists like Robert Hooke and Antonie van Leeuwenhoek further improved the design.
A light microscope uses a series of lenses to focus light allowing small objects to appear larger. A compound microscope works as a light microscope except it uses more than two lenses to increase magnification. A stereoscopic light microscope can be simple (one lens) or compound (more than one lens) and uses two eyepieces.A transmission electron microscope requires the object be in a vacuum and stained (usually with a heavy metal). The microscope fires electrons at the target and measures the diffraction allowing for a computer to generate an image.A scanning electron microscope uses an electron beam to scan the target. It then generates an image by analyzing the variety of signals produced such as secondary electrons released, electromagnetic radiation, and electron deflection.Also an electron microscope can observe a centriole, a tiny structure found in animal cells. Also to break down what a compound light microscope does is that it uses light and a curved piece of glass to make tiny structures appear larger. We can also see many other objects throw a microscope by taking a piece of cut Glass taking for example a piece of string and adding a drop of water then adding a small plastic thing and putting it under a COMPOUND LIGHT MICROSCOPE!!!!!!
The typical magnification of the ocular lens on a light microscope is usually 10x, although some microscopes may have ocular lenses with magnifications of 5x, 15x, or even higher. This magnification works in conjunction with the objective lenses to provide a total magnification that can range from 40x to over 1000x, depending on the combination of lenses used.
The two main advantages of SEM over light microscopy is that the SEM has a much deeper depth of field and that it has higher resolution than a light microscope can achieve and the resultant much higher magnification from the SEM.
Can view live samples and observe motility and responses to stimuli
A compound light microscope is able to provide more clarity and detail than a single lens microscope, which is its advantage. Compound refers to the microscope having more than one lens.
they are relatively smaller, electron ones are biggerthey are easy to usethey allow you to see coloured images, electron ones don'tyou can observe live specimen, specimen has to be dead with electron microscopesi was trying to view the answer in relation to transmmission
An electron microscope can bombard things with electrons and create a virtual construction of the thing being viewed. An image or video relies of much larger light particles. An electron microscope can actually make a reconstruction of things like atoms. When it comes to cells, its much more accurate.
Electron microscopes offer much higher resolution and magnification capabilities compared to light microscopes. They allow for visualization of smaller structures and details, such as individual molecules, viruses, and cell organelles. Electron microscopes also have the ability to produce 3D images and can differentiate between materials based on their electron densities.
The substage condenser in a microscope is used to focus and concentrate the light onto the specimen. It helps to increase the contrast and resolution of the image by directing light through the specimen. Proper adjustment of the condenser can enhance the quality of the image observed through the microscope.
A light microscope can multiply objects over 1000 times, revealing microscopic details. One can be purchased educational supplies companies, online stores and directly from the manufacturer.
The Compund light microscope allows people to view living cells. With the electron light microscope peole can only view dead cells but with very high detail. The electron microscope is also much more expensive than a compound ligh microscope. The compound light microscope is also much easier to transport from place to place, as the electron microscope is not.
The light microscope was not invented by a single individual, but rather developed over time by multiple scientists. Hans Lippershey is credited with the invention of the compound microscope in the late 16th century, which laid the foundation for the modern light microscope. Later advancements by scientists like Robert Hooke and Antonie van Leeuwenhoek further improved the design.
An electron microscope can reach a far greater magnifiction than a conventional microscope. It is obvious that the largest advantage of any type of microscope is to observe an organism that can not be seen by the unaided eye. Light microscopes are easy to use, can magnify up to 2000 times, enable magnification of live cells and their movement, and are relatively cheap compared to electron microscopes. The only disadvantage is that it can only magnify up to 1000 times, after that the image is blurry, whereas an electron microscope can magnify up to 100,000 times! However, electron microscopes are extremely expensive, difficult to use, and cannot observe live specimens.
Electron microscopes have much higher resolution compared to light microscopes, allowing for better visualization of smaller structures. Electron microscopes can also distinguish finer details due to the shorter wavelength of electrons. Additionally, electron microscopes can observe samples in greater depth by creating 3D images through techniques like tomography.
Answer: Using an EM (electron microscope) you can look INSIDE a cell and take photos. This is different to an ordinary (or Light microscope) where you generally only see the outside of the cells - or at best can only see vague shapes inside the cell. Answer: The scanning electron microscope provides a number of advantages over an optical microscope. Primarily this centers around the fact that the wave lengths used are much smaller than the wavelengths of light. What you can see is, in par,t dependent on the relative size of the object and wavelength of the light you are using. For very small objects, like individual atoms, light just wont work. Secondly the electron microscope can be fitted out with equipment and analytical sensors to identify the atomic composition of materials in the field of view. These Scanning Electron Microscopes (SEM) are extremely useful in identifying trace contaminants. The standard microscope still has advantages. It can detect the polarizing capacity of organic compounds, it is cheap and easy to use, it can be used in the analysis of stained samples in microbiology, it can use transmitted light and reflected light to examine an object. A major advantage is that the surface of the viewed object does not have to be prepared by being covered with a very thin layer of metal to permit viewing.