As mobile devices are more widely used all over the world, microscope applications for smartphones and tablets also become more popular. The portable digital microscope can facilitate the further understanding of biology, physics, chemistry and other subjects, and play a significant role for human development. But before this happens, the portable microscope must go through some changes, so let’s see what technologies have been applied in the portable digital microscope and how development of the portable digital microscope has gone on.
Development of the Portable Digital Microscope
The development of the portable digital microscope has meant a lot more than just the ability to view things up close. The new portability means that the microscope can be taken to the object instead of having to bring the object to it. The portability also means that multiple people can view an object at once, each person seeing the image on their own monitor.
This is good news for teachers and others in a teaching setting. In the past, only one or two people could look through a traditional microscope at a time. Now, an entire class can examine an object simultaneously, each person viewing it on their own monitor. This has even opened up a new field of teaching tools for young students and those with learning disabilities. Since everyone is viewing the same thing and hearing the teacher’s explanation at the same time, there is no lag time or confusion about what everyone is looking at or how to describe it.
The portable digital microscope has other uses besides teaching and education, however. It is also useful in industry and science labs for performing research or examining objects for quality assurance purposes. It can also be used in manufacturing plants for inspecting small parts that are being assembled into larger items such as medical devices or aircraft parts.
Utilizing modern technology to enable the mobile lab
The portable digital microscope was developed by a group of scientists at the University of Manchester. Their goal was to create a mobile lab for use in microbiology labs. The result is a mobile device that uses low-powered blue light to capture high resolution images of bacteria, viruses and other life forms.
The device is comprised of a plastic box containing an LED light, a magnifying lens and a cell phone camera. The box is illuminated by the LED, and the image is projected onto the camera’s tiny screen. The lens is then adjusted until the image on the screen comes into focus.
This technology allows scientists to identify microbes in the field without having to return to their labs with samples. It also reduces the amount of time it takes to process samples, which increases efficiency while reducing costs.
Stereomicroscopes
Stereomicroscopes, also called dissecting microscopes, are used to look at large objects, often in 3D. They look a lot like binoculars and the two eyepieces are adjusted until the object looks sharp and focused. Stereomicroscopes are often used in biology labs to examine worms, insects, plants and other larger specimens.
A compound microscope is used to examine small objects that cannot be seen with the naked eye. The light source is usually provided by a mirror or bulb below the stage. A compound microscope has several lenses that allow for magnification of up to 1,000 times! With this type of microscope, the object is placed on a slide and viewed from above.
Binocular microscopes
Binocular microscopes can be used for a variety of purposes, but they are most commonly used by doctors and nurses to view tissues and cells. The binocular microscope is also used by scientists in order to study organisms. The binocular microscope has a design that allows the user to look into the eyepiece using both eyes, which makes viewing the specimen easier and more comfortable.
The binocular microscope is so named because it has two eyepieces that are placed together, each along one side of the microscope base. The eyepieces are usually connected to two separate objective lenses that can be viewed together or individually. The person using the binocular microscope will view the specimen from above, through the eyepieces, as well as from underneath.
The base of the binocular microscope is usually made of metal or wood, although some models are made with plastic bases to reduce cost. Some models have arm rests that make it easier for users with unsteady hands, such as young children or people with disabilities or injuries, to use them.
What is a digital microscope?
A digital microscope, also called a computerized microscope, is a portable optical microscope that has the ability to display a magnified image on a screen. The first digital microscopes were used to enlarge images and make them visible over a distance without having to look through an eyepiece. Today, they are used for many other purposes in the medical, biological, and educational fields.
Advantages of Digital Microscopes
A digital microscope is much more expensive than one that is not digital — for obvious reasons. However, there are many advantages of using it over one that is not computerized.
The biggest advantage of a digital microscope is the ability to capture images from the specimen under examination. This can be very useful when studying a specimen with complicated features or when you need to make notes on what you see. It can be used as part of research or even just for general purposes.
The Portable Digital Microscope is extremely easy to use, with an intuitive interface. We can finally say goodbye to bulky microscopes, and expensive optics. This is truly a remarkable product that has the potential to revolutionize the medical industry. The PDS can be used as a standard microscope without any additional magnification elements, or attached to low power glass objective lenses for magnification. These features truly make it the most versatile product of its kind on the market today.
