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Archive for the ‘Microscope’ Category

Stereo technology started with a theatrical bang. In the movie industry, stereo relates to 3D vision where spectators were required to wear red and green spectacles. The point was to combine separate motion picture images into a single image. It’s the same with stereo microscopes, sans the red and green spectacles, of course.

Stereo Technology in Microscopy

The stereo sound was the wave of the 60s. The technology enable the production of three dimensional sound effects with the use of microphones; two microphones recorded sound and these were connected to two separate channels connected loudspeakers. Listening to vinyl records back then, music enthusiasts heard sound coming from different directions.

In stereo microscopes, images not music from two different angles are combined – to create an illusion of depth of the specimen. This happens when different images of the same object are presented to each eye. The microscope offers a lateral and upright view of the object from two dissimilar angles and the eyes sees the object in 3D. With stereoscopy features, two eyepieces plus two objectives, the microscope is a perfect instrument for dissecting specimens or inspecting larger objects, i.e. rock minerals and diamonds.

Stereoscopy gives dissecting convenience. Dissecting the specimen becomes easier because viewing the specimen at same time while dissecting it can be done. Larger specimens like rock minerals can also be conveniently viewed because there is more distance between the objective and the stage. Custom stereo microscopes can also be obtained from some dealers or can be assembled according to specific needs.

Types of Microscopes with Stereo Functions

Microscopy research requirements demand specific functions that can be responded with the different microscopes available. For stereo or for dissecting specimen, such as plant or human tissue, the stereo feature comes useful. However, you don’t just get any microscope out there because it has STEREO written all over it.

Concerned dealers inquire what you need for a microscope to ensure that you get that you get exactly what you need for stereo microscopes. There are binocular and trinocular microscopes with stereo features. Different models and brands will come with or without fixed magnification with a magnification selection knob, and easy zoom in and zoom out function.

Digital technology also goes with stereo technology. You can have the best of both worlds in this amazing piece of instrument, and you don’t need bulky contraptions to view 3D imaging. With a USB camera added, excellent imaging for live video and still jpg is possible. You might also need an upright rather than an inverted microscope.

If you are a gemologist, stereo binocular microscopes should fit the bill. You can see a 3D image of a tiny diamond and examine it for flaws. Student laboratories will benefit from a pole-mounted microscope.

Stereo Does It

Had it not been for stereoscopy, it would still be tricky to dissect specimens accurately without the aid of the eyepiece. For illumination, the microscope may use a fluorescent bulb, LED ring light or fiber optics. Added to stereo 3D imaging some stereo microscopes have video capability and a digital camera.

Before you dismiss stereo microscopes as adult instrument, let it be known that the microscope is also great for educating young children; prices may range from under 100 dollars or can run up to thousands of dollars. It is your choice.

CanScope – complete solution for all your microscopy needs.
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Looking for stereo microscopes in Toronto? No problem. You can also find a polarized light microscope in Toronto and the latest in metallurgical microscope in Toronto all the time. Visit CanScope.ca today.

Thinking of yanking your kids out of school and teaching them yourself?

The number of parents choosing to homeschool their children are rising. Besides being a very economical option, it allows parents to actively participate in their child’s education. However, some parents worry about their competence, especially when it comes to teaching upper grade courses like the more specialized science of Biology. The mere mention of the subject brings to mind biological microscopes in antiseptic-smelling laboratories and white coats — definitely something that would intimidate a parent without a degree.

But beyond this preconceived notion of difficulty (and perhaps the fear of using biological microscopes), teaching your child high school biology is challenging but definitely doable. Here are some useful tips to help you through the rigors of biological studies with your teen:

1. Get access to a laboratory.

Either you set up one at home, look up possibilities at the local library, or ask your local school district for help, it’s very important to have access to one. You probably don’t need to use it very often, especially if you’re using the nature study approach. But you will definitely need use of at least student-grade biological microscopes. To spice lessons up, try getting the more powerful stereo microscope fitted with cameras or video monitors.

2. Try nature study to keep it fun.

Biology is a boring subject to those who are not especially gifted. And because your child is mostly studying from home, it’s important to fan the interest despite the boring nature of the subject. How do you do this? Be creative!

Instead of just using charts and color photographs, take your teen outdoors and study nature outside. The trip can be a combination of fun and learning if you bring sturdy biological microscopes along with your digital camera, and put learning objectives on your itinerary.

3. Know what to use, when, and how.

Biological microscopes are great tools for learning. But there are other equipment you can use as well. Visuals are very important because recall is better if lessons come in graphic, colorful images. Toss in the fact that the organism appears truly alive under a microscope and it becomes unforgettable to a curious teen’s mind. How light plays on different substances is rarely visible to the naked eye. But with polarized light microscopes, you can distinctively see optical properties of both isotropic (usually liquids and gases) and anisotropic materials (about 90 percent of solids).

Distance education programs are also excellent tools you may want to add to your repertoire as an educator. The materials in an online course are wonderfully illustrated and you’ll find detailed explanations for each lesson. In biology classes, you’re likely to find clear color photographs of what you’d see under a biological microscope when you’re instructed to do so. It won’t only give you the help you need for homeschooling your child, it also gives you the opportunity to learn. You can use an online program as a tutor and real life laboratory work to see it for yourself.

CanScope – complete solution for all your microscopy needs.
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Biological microscopes are wonderful tools for discovery. Check out CanScope.ca’s selection of microscopes in Toronto, microscope accessories Toronto, and more today!

When you look at something under a microscope, the intensity and distribution of light must be clear and equal. Otherwise, you will not be able to study all aspects of the specimen. The notes you make about your observation will not be valid. It is true that you will still be able to see a good number of parts of the specimen but the shadows or yellow sheen created by a substandard illumination will most likely affect your observations negatively. This was the problem of scientists before. Thankfully, a German professor named August Köhler came up with a revolutionary way to illuminate objects in a sample plane. He invented the Kohler illumination in 1893.

Answering Questions That Led To A New Way of Doing Things

August Köhler was doing his graduate studies when he discovered the new way to illuminate objects on the sample plane of microscopes. At that time, there were many methods used to brighten objects under the microscope. One involved using gas lamps. Another mirrors. When they finally used bulbs, the filament of the bulb they used was visible in their microscope’s sample plane. Needless to say, these methods were not satisfactory.

By trying to come up with solutions on various microphotography problems, August Köhler was able to invent the Kohler illumination. But it was not until he was hired by the company Carl Zeiss AG that his invention was truly given enough attention. Until today, Kohler illumination is still used. It has also been the basis for the more modern method of microscope illumination.

How to Set Up Kohler Illumination

This system needs a bulb with high density illumination, field diaphragm, condenser diaphragm, collector lens, and condenser lends. The first thing that you need to do is to set up your specimen. Close the field diaphragm until you see its edges. The edges will be blurry at this point. Now turn the condenser knobs to make the edges as clear as possible. Then center the image of the closed field diaphragm. Do this by using the condenser-centering screws. After that, you open the field diaphragm just a little bit to bring its edges out of the field of view. Then adjust the condenser diaphragm to adjust your sample’s contrast. If the light is too intense, you may have to adjust it. The best way to do this is to use the proper filters. It is not advisable to reduce the power supply as this will give the sample a yellowish or brownish look. Once these steps are followed, you will be able to enjoy sample analysis without any light interference. Your experiment or observations will not have shadows or uneven lighting.

If these steps don’t work, your lens probably need cleaning. Dirt in the lens and other parts of the microscope will greatly affect the quality of your image. If you still do not see a well-illuminated sample, you may have to do the steps again to check if you did them properly.

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

Do you want to set up Kohler illumination on your microscope? Visit CanScope.ca for the components needed. They also have many kinds of microscope, such as the metallurgical microscope in Toronto and the fluorescent microscope canada that may be useful for your research.

When you hear the term inverted microscope, you probably think of observing samples from under a microscope. You probably get an image similar to a car mechanic fixing something under a vehicle. It is a funny image but this is not exactly the case when it comes to these kinds of microscopes. The only inverted parts of these tools are the source of light and the objectives that enable you to see the sample plane. Besides, a microscope that places the observer under the equipment will be ill-designed. Just imagine the risks of the specimen toppling and falling onto the observer.

What Does an Inverted Microscope Look Like?

An inverted microscope has the light source and condenser on the top. They point down to the stage where the specimen is placed. The objectives and turret are under the stage. They point up to the bottom of the plane. Just like upright microscopes, the specimen is placed on top of the stage. The binoculars are not pointing up, as one would imagine, but pointing down.

How Does an Inverted Microscope Help in Living Cells Studies

Results of living cells studies should be derived from observations of live cells. This can be done with a typical upright light microscope. The method involves taking a small sample, placing it on glass slide, covering it with a slip, and keeping it moist with water. This is effective and has been used countless of times. However, there are some pitfalls to this method. First of all, by taking a sample from the culture, you are most likely altering the natural processes of the cells. Moreover, the cover slip will put pressure on the specimen, thus altering its processes, too. The water that you use to replenish the sample can also affect its life. Obviously, using an upright light microscope is not ideal for a prolonged observation of living cells.

But if you utilize an inverted microscope, the chances of observing them for a long period of time increases. This is possible for various reasons. One is that you will not have to remove a sample to be placed in a glass slide. The design of the microscope allows for bigger objects to be placed on the sample plane. For instance, if your sample is in a petri dish, you can place it on top of the stage. This way, there will be no pressure on your specimen and the environment will not be altered with constant water replenishment.

Since living cells constantly change from one form to another, being able to observe them for a longer period of time without killing them is essential if you are to study them. Sure these microscopes are a little bit expensive but if living cells study is your field, it is wise to invest in one. The results of your studies will be a whole lot better and you will not regret ever buying it. There are also aspects where the microscope can still be improved but you cannot deny the fact that in most cases, using this microscope is better than using a light microscope or an electron microscope.

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

If you are interested in purchasing an inverted microscope in Toronto, you can visit CanScope.ca. Aside from inverted types, they also have upright microscope and accessories, such as an epi-fluorescent attachment for you to choose from.

The world is beautiful – you know that. As a child, you were amazed at how wonderful the color of the rainbow is. You were even amazed at the thought of night and day.

Then, when Science class came, these magnificent natural phenomena are made more splendid when you learned that night and day is because of the Earth’s rotation. You marvel at yourself when you knew that rainbows are not because of magic, but of light’s wavelengths passing through raindrops.

Still, there are so many things that you have no answer yet. There are still so many things that you need to know. Like, what is numerical aperture? What are Achromat and Plan-Apochromat Objectives?

And of course, there’s that “small side -” the side that you don’t understand because you simply cannot see it using your naked eyes alone. You talk about atoms and molecules but you have not really come close to seeing them. Good thing though that the world came up with the microscope.

Yes, through the microscope, the world became more visible – and more understandable. Wait – there’s more good news! You can now make use of microscopy accessories. When you cannot afford to buy those very expensive digital or electron microscopes, you can always use microscopy accessories instead.

Here are some of them:

Pocket Microscope

This is one of the microscopy accessories that does not live up to its size. The pocket microscope maybe small but it is a powerful one. This is also sometimes referred to as a “pen microscope” because it comes with a pen clip. As such, you can conveniently clip this onto your shirt pocket for a more dramatic effect. And of course, you won’t have any problems regarding magnification because pocket microscopes come in different magnifications to suit your every need.

Microfilm viewer

If you are confronted with situations when you need to see through a microfilm or even an x-ray film, you sometimes panic because naturally, you cannot really see through it without the use of special gadgets. Good thing though that today, you can already seek the aid of a microfilm viewer. This small accessory makes use of high quality glass optics and comes with a handle. This is also one of those microscopy accessories that considers its user: the microfilm viewer is specifically designed to minimize eye fatigue – a consequence if you work for long periods of time.

Flexible Stand Loupe

This accessory is made up of a loupe (a small magnifying glass), a flexible arm and a solid stand. This is indeed ideal for inspecting specimen on a working table where you need both of your hands free. The arm is flexible enough for any position. Therefore, you can continue to inspect a specimen while maintaining good posture and taking advantage of the best lighting conditions.

So you see, it’s not only the microscope that can give you a “better view on things.” There are a lot of microscopy accessories out there that can do the same job of aiding your eye. They are cheaper, lighter and smaller.

So the next time that you are confronted with a “viewing problem,” don’t go chasing microscopes directly. Try one of the microscopy accessories mentioned above. You’ll see that they’re equally great in bringing you the beauty of the smaller things in this world.

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

Looking for microscopy accessories in Toronto? Visit CanScope.ca. Click on their website as well to learn about numerical aperture and Achromat and Plan-Apochromat Objectives in Toronto.

Kids are curious. They speak their mind. They want an explanation for everything. Kids always ask why. As such, their curiosity must be satisfied. If you are a parent and you notice that your kid has displayed a keen interest on medicine, buy him toys about the different systems and organs of the body. If your nephew, for instance, is a bit curious about astronomy, buy him a solar system toy. This is a cheap yet great way of getting him/her started in following the footsteps of Nicolaus Copernicus.

If you noticed that your kid has shown interest on the micro-world – perhaps you observed that he constantly plays with his magnifying lenses – then get him one of those educational microscopes. Don’t go for toys – get a real microscope, but at a lesser price.

There are many educational microscopes out in the market. They are especially designed for children – to satisfy their curiosity about the things that they cannot see using their naked eyes. By telling them that they can see what a drop of blood really looks like through these educational microscopes, perhaps, they would never be frightened anymore the next time that they go to the lab and have a blood extraction. Do tell them however, that educational microscopes cannot let them see ghosts. In this context, ghosts do not fall under the category: “invisible to the naked eye.”

But with the many versions and types of educational microscopes out there, how do you know which one to choose? How do you know which one to buy? Do you even know what an educational microscope looks like?

Well, you don’t need to have a Masters Degree or a PHD to know what an educational microscope looks like. You simply have to ask the right questions. Surely, stores that specialize on microscopes know the difference between veterinary microscopes and educational microscopes.

The store attendants may present to you different models, such as The Travel Lab, the MicroQuest, The Explorer II and The Observer III. That’s a lot to choose from. But the secret to getting the educational microscope perfect for your kid’s needs is in matching his/her preference and your budget.

If your kid is aged 10-12, for instance, he may find The Observer II appealing because he can make a lot of adjustments with that model. But if he is younger than 10 year old, and is just starting to exhibit his interest in Science, then you can get the Travel Lab or the MicroQuest for a start. These are the best in starter scopes and they even come with microscopy accessories such as specimen containers and blank slides. Plus, this type of educational microscope would not cost you much.

As a parent (or a guardian, an aunt, an uncle a godfather or practically anyone dealing with kids), you need to support your child’s education. Not all kids are natural observers and natural inquisitors. Thus, if your kid happens to be one, nurture such instinct. Get him one of those educational microscopes right away. At 10 years old, he may not know yet what a fluorescent filters cube is. But with your guidance and support, it won’t be for long before he can explain to you what that term truly means.

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

For all your microscopy needs – microscopes in Toronto, educational microscopes and even a fluorescent filters cube – visit CanScope.ca. What are you waiting for? Check out site now and be amazed!

Have you ever wondered how doctors and scientists seem to know exactly how cell divides, what they look like, and what they do? At some point in your life, you may have peeked under a microscope in a biology class. You probably felt the images weren’t that interesting or colorful. But if you had done the looking through a fluorescent microscope, you would have whistled a a different tune. Why?

Light and Colors

Contrary to the common field microscope that uses reflection and absorption techniques to create magnified images of specimen, the fluorescent microscope uses light to excite specimens to emit light of longer wavelength. Fluorescence is an intrinsic property of substances where it becomes luminescent when excited by a radiation. Simply put, a fluorescent microscope is a light microscope with extended capabilities and added features. A more intense light is used in microscopy that excites fluorescence in the specimen which then emits a longer light wave length. Scientists use markers to distinguish emitted wavelengths by different colors. This technology shows digitally clear color images of microscopic organisms under probe. This technique of using transmitted light through a specimen is known as Kohler illumination, after the brilliant mind who sought to overcome the limitations of previous technologies, August Kohler.

Fluorescent Microscope in Life Sciences

Unlike metallurgical microscopes used for inspecting ceramics, metals and other inorganic materials, the fluorescence microscope finds its best uses in biology and life sciences. Rapidly expanding observation technique in medicine and biology, a range of more sophisticated techniques has evolved from it. More advanced technologies such as the multiphoton and canfocal microscopies are now combined with chromophore and flourophore advances now make intracellular observations even in unicellular molecules possible. Where the cell was acknowledged to be the smallest biological unit a few decades past, components of the human DNA are no distinguishable observations under these powerful tools.

Some have an inverted frame most suitable for viewing tissue cultures and similar applications. These designs provide illumination using an episcopic optical pathway.

Examples of Fluorescence Microscopes

Olympus BX51 Upright Microscope is a modern design of an epi-flourescent microscope with a vertical illuminator. The illuminator houses a xenon or mercury arc lamp and a turret of filter cubes. Source light travels through the lamp house through two diaphragms and into the cube holding the excitation and emission filters, as well as a dichroic mirror

Olympus IX70 Inverted Microscope. This inverted frame uses epi-illumination from an internal lamphouse. Light travels from the lamphouse via a collector lens into a cube holding the filters and a dichroic mirror

Both these examples are professional or research grade equipment. These both show the full range of capabilities a basic illuminating microscope is capable of. There are even more powerful microscopes with far more advanced features using highly advanced techniques. One of the more popular ones, confocal microscopy, now offers point-scanning capabilities with the latest from Olympus, the FluoView Laser Scanning Confocal Microscopy.

Other highly advanced techniques like Multiphoton Excitation Microscopy combine multiple techniques to capture high-definition, three-dimensional, and full color images of specimens. These are the best there is in research equipment, and these will change your life from the very first instant that you use them.

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

Yes, you can see the invisible with a fluorescent microscope in toronto. Get started using one – or a metallurgical microscope – and learn more about Kohler illumination! Visit CanScope.ca today.

To understand the microscope more, you need to understand its parts. You need to understand what each part is capable of.

This article, however, will only focus on the lenses system – the whole group responsible in forming the image.

The Eyepiece

Without this part, you cannot see the specimen being examined. This is by far, among the most important parts of the microscope. This is a cylindrical tube which contains a lens. Stereo microscopes have two eyepieces, while a compound microscope only has one.

The Objective Lenses

The primary role of the objective lenses is to gather light from the object or specimen being observed. There are several objective lenses in a microscope. Each lens varies according to magnification to provide you with more options for better specimen examination.

Sometimes, special objectives are used for certain examination techniques. The phase contrast – developed by Frits Zernike – is by far the most sophisticated. The phase contrast technique is basically about enhancing contrast. As a general rule, you can easily differentiate two specimens or even objects if they have high contrast – white is better seen when set against a black background.

Books and even Internet articles that explain the phase contrast method seems too technical for this kind of article – one that’s focused in explaining the lenses system of the microscope. Still, to give you an idea on the concept of the phase contrast microscopy, this simple explanation would do:

It’s a bit hard to have a microscopic view of living tissues (such as blood) because most of them are transparent. These kinds of specimen are usually called phase objects because they do not absorb light – instead, they diffract (to cause the bending of the waves) them. As a result of the bending, the light becomes less visible (by 1/4 wavelength). Let’s not discuss what 1/4 wavelength really means but simply put, it suggests that such a reduced property of light cannot be seen by your naked eye, not even by a camera.

It is in this context that the phase contrast technique becomes very useful. Somehow, this technique – using special objectives and a condenser – is able to solve such a problem. It is able to yield an image that is darker than its light background.

Other special objectives are the infinity-corrected optical systems – where the image distance is set at infinity. These lenses are great for biomedical and industrial microscopes.

The Nosepiece

As mentioned, most microscopes have more than one objective lenses. As such, these objectives need something to hold them together – and this is where the nosepiece comes in handy.

The Tube

This is the very thing that holds the eyepiece and the objective lenses – but at an appropriate distance. This is responsible for keeping away stray light. While the lenses are already powerful enough, some still prefer to use accessories such as a fluorescent filter. This is done in order to get optimum lighting and for special viewing techniques.

Once again, these parts only refer to the lenses system of a microscope. These are the ones responsible in forming the image of the specimen. You still need to acquaint yourself with the other parts – such as the illumination system and specimen control to better understand how the microscope works.

CanScope – complete solution for all your microscopy needs.
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Learn more about infinity corrected optical systems, phase contrast microscopy and fluorescent filter kits. Make use of a microscope. Visit CanScope.ca now.

When you talk about magnification, lenses, and small things, one thing comes to mind: the microscope. But gone are the days when the term only covers simple and compound microscopes. Today, you hear kinds such as the stereo microscope and the polarized light microscope. There are even biological microscopes and educational microscopes.

Indeed, there are so many updates on the word of microscopes today. If you’ve only known this laboratory instrument from school and never met one ever since, then you’d be surprised at how many different kinds there are already.

So, to update your information bank on the world of microscopes, this article will talk about an interesting type: the stereo microscope. The stereo microscope is also known as a dissecting microscope. This is because this type is mostly used for close work such as dissection, microsurgery and even watch-making.

The Uniqueness

The stereo microscope differs from the other types of microscopes in a lot of ways. First, while others only have one eyepiece (the cylinder containing the lenses and the part that you put your eyes on to see the specimen in question), the stereo microscope has two. Yes, like binocular, the dissecting microscope makes use of two separate optical paths to give you a better view of the specimen. As a result, this feature gives you a three-dimensional image of the sample being examined.

Second, the stereo microscope uses a different kind of illumination. Compound microscopes use transmitted illumination (light “transmitted through the object”) while stereo microscopes use reflected illumination (light “reflected from the surface of an object”). Of course, this makes sense because of the 3D capability of stereo microscopes. Reflected light is very useful when examining objects that are either too thick or that are opaque – in such a case, transmitting light through it would be next to impossible.

The stereo microscope also has two magnification systems: fixed and zoom. Fixed magnification is achieved using a pair of objective lenses with a set magnification degree. Basically, the degree of magnification that you get solely depends on what your lenses are capable of. Zoom magnification, on the other hand, is capable of varying degrees of magnification. Have you ever heard of the terms “zoom in” and “zoom out?” Well, that’s exactly how the zoom magnification in a stereo microscope works.

Stereo microscopes are also capable of digital displays, as in the case of digital microscopes. Having the image projected on a high resolution monitor is very useful especially in surgeries. If you are ever a fan of House and Grey’s Anatomy, then you’ve surely seen one of those episodes where a monitor is used to view the specimen examined under a stereo microscope.

Microscopes have truly gone a long way. Before, only one lens is used; today, microscopes with two optical paths are already in existence. Surely, Anton van Leeuwenhoek did not dream that his “invention” would go this long, and that it would be used outside of biology.

Still, it’s wonderful to know that Science continues to re-invent and to upgrade itself. It’s nice to know that it continues to work better to provide us with better answers. After all, how will we understand the world more if not for Science? How would we know what an atom looks like if not for a microscope?

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

For your biological microscopes needs, visit CanScope.ca. Check out their site too for selections of a stereo microscope or a polarized light microscope.

The world is awesome. From its littlest creatures to its highest peaks, you cannot help but be awed, amazed and enthralled with the spectacle that nature can be. And that’s only through your naked eye, to boot!

When you look through the eyepieces and lenses of educational microscopes, you learn a few more things on a microscopic level that you would have not learned otherwise. Here are just a few of them.

Small is Beautiful

Our society seems to revel in the big – big boobs, big buildings, big movies, big houses, big hits, nig jewelry – that it seems small is, well, small in our eyes. Unless, of course, it’s thin bodies littering the beach in summer but that’s another story.

Anyhow, when you look through educational microscopes, you realize that small is beautiful. Just try looking at the pollen on a flower and you will see just how beautiful small can be!

Inner Space and Outer Space, Both Spectacular

Why look up to the heavens to witness spectacular shows? You can see equally amazing things on the microscopic level, say, a small insect with its colorful wings. And you won’t have to suffer through stiff necks from looking up to the sky and you don’t have to wait for night to set in either!

Seriously speaking, there are a great many things we have yet to learn about our planet Earth. Why don’t we start leaning more about the ground below us before setting our sights on aliens? Just saying though as everybody is entitled to his own opinion.

Looks are Deceptive, Definitely

Often, we turn an indifferent eye to ordinary things thinking that there is nothing spectacular about them. With targets under our educational microscopes, the lesson about beauty lurking beneath everything is homed in on us.

For example, who would have thought that a common rock will yield treasures of exciting patterns? Or that a common leaf will boast of networks so complex it rivals a labyrinth? Or that a strand of hair can be so interesting?

Indeed, with educational microscopes, you start to look for the beauty within each rock, each leaf, each creature, and hopefully, within each human being. Just don’t dissect them though!

Life is Fragile and Fleeting

Invincibility and immortality are things that humanity has aspired for centuries. This is all well and good for, indeed, who does not want to live forever and a day? Still, when you see vestiges of life under educational microscopes, you start to think of your own mortality. After all, when you see living matter breaking down before your very eyes, and at microscopic level at that, you realize that indeed life is fragile and fleeting.

And herein lies the greatest lesson that you may ever learn from educational microscopes – that as much as life is fleeting and fragile, life in all its forms must be valued and respected. Even the tiniest of God’s creatures have a right to live in this planet we call home. Hopefully, we can all have a greater appreciation for what it means to be human and humane.

CanScope – complete solution for all your microscopy needs.
Contact: 1-877-56SCOPE(72673) or info@CanScope.ca

Visit http://www.canscope.ca for your microscope needs from veterinary microscopes and fluorescent filters cube to educational microscopes in Toronto.