Compound microscopes are important because it helps scientists to actually see what microorganisms and cells look like


Compound microscopes are important because it helps scientists to actually see what microorganisms and cells look like. This type of microscope is most commonly found in science classrooms and laboratories. Without compound microscopes, we wouldn’t have any knowledge about the reality of cells and as a result wouldn’t be capable of studying DNA or producing medical progress because of the lack of knowledge about how contrasting diseases or illnesses strike cells. (“The Importance of Compound Microscopes.”) Back in time, it used to be that scientists would disregard what wasn’t visible to the human eye. However, due to the evolution in science, it’s been exposed that there’s so much to see on the microscopic scale that will aid one’s daily life to become more effective. (“How Does a Microscope Work?”)

The 1st compound microscope was created in 1625 by Galileo. (“The Ways on How Microscopes Affect Society.”) However, it was only around the mid-17th century that Robert Hooke had seen cells the first time from a microscope and designed the plan of using a light source to help relieve damage to the eyes. (“The Importance of Compound Microscopes.”) Moving on into the 20th century, scientists realized that materials are created by atoms and how atoms are made from more compact “subatomic” particles; comprehending atomic construction prepared the way for many staggering inventions like electronic transistors or nuclear power. (“How Does a Microscope Work?”) Compound microscopes are created by a collection of other lenses can be used to enhance the sample by more or less. The eyepiece zooms in on the image from the objective lens, similar to a magnifying glass. However, there are microscopes that can move the eyepiece up and down by simply rotating the wheel. Majority of compound microscopes magnify around 10, 30, or 100 times, although expert ones are capable of magnifying by 1000 times or more. However, for more extensive magnification than this, scientists generally lean towards using electron microscopes. (“How Does a Microscope Work?”)

Light microscopes have a positive impact on the environment because it’s used to analyze the well-being of an ecosystem. Field biologists utilize the microscope to oversee a particular environment, by recognizing the amount and sorts of organisms sustained in swatches from the ecosystem. This assists scientist in interpreting the ecosystem, finding threats to an ecosystem and concluding the relationship of the organisms with their environments. (“How Does a Microscope Work?”) In the mid 17th century, Robert Hooke discovered cells through a compound microscope, therefore revolutionizing science and creating a whole new outlook on the world. (“Diagnosis.”) There are a bunch of different types of scientists that are trying to understand both the physical and natural world more, and they all use microscopes in their work. However, a compound microscope is key for forensic scientists, environmental scientists, etc. This is because they all focus on the small things in nature that we can’t see with just our eyes. (“How Do Microscopes Improve Our Lives Today?”)

The compound microscope has had a positive effect on the economy because the advancements it has made in the medical field. Doctors make use of them by finding atypical cells and recognizing the unique types of cells. This favors in pinning and handling diseases. (Example: Sickle cell, originated by irregular cells that contain a “sickle-like shape.”) (“The Ways on How Microscopes Affect Society.”) Light microscopes are mostly used to view microbes. Microbes (microorganism) is basically a bacteria that is the root of a disease. (“4 Advantages and Disadvantages of Light Microscopes.”)

Compound microscopes have also had somewhat of a negative effect on the economy. These microscopes able to enlarge objects up to 1500 times their true size. This would be great if you are only thinking about entities observable to the eye. However, when taking into account microscopic objects, the magnification is quite poor. (“4 Advantages and Disadvantages of Light Microscopes.”) For more particular examination of segments that are below 0.275 microns or more compact than half the wavelengths of white light will need an electron microscope. (“4 Advantages and Disadvantages of Light Microscopes.”) Compound microscopes have a magnification of 500x – 1500x, where the Electron microscope has a magnification of 100,000x – 300,000x. (“Differences between Light Microscope and Electron Microscope.”)
Light microscopes are majorly beneficial to the creation of new technology and the history of our world. It helps explain things that aren’t visible to the human eye, helps to find cures to diseases, helps to monitor cells, etc. Although it definitely has ways to improve, that’s why there are other microscopes that specify in the areas that the light microscope can’t. Overall, these microscopes have a positive impact on this world.