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Based on the picture of the binocular, compound light microscope in Figure 1, match the name of the major part (listed below) with its location on the microscope, and give a very brief description of what each is used for:

Appropriate use of the condenser, which on most microscopes includes an iris diaphragm, is essential in the quest for a perfect image. Raising the condenser to a position just below the stage creates a spotlight effect on the specimen, which is critical when higher magnification lenses with small apertures are in use. On the other hand, the condenser should be lowered when using the scanning and low power lenses because the apertures are much larger, and too much light can be blinding. For creating the best possible contrast in the image, the iris diaphragm can be opened to make the image brighter or closed to dim the light. These adjustments are subjective and should suit the preferences of the person viewing the image.

Conversely, hard-dyed anodizing provides a thicker and more robust coating with a wide range of color options added through dyeing. As a result, it helps to enhance the durability of aluminum parts and achieve a specific color for your custom aluminum parts.

Once the sample is heat fixed, stain it with safranin. This is a pinkish-red colored stain, and all cells (both bacterial and your mouth cells) will take up the stain and increase the contrast in the image.

The magnifying power of each lens is engraved on its surface, followed by an “X.” In the table below, find the magnification, and then calculate the total magnification for each of the four lenses on your microscope.

1. Carry the microscope to your lab table using two hands, and set it down gently on the bench. Once placed on the bench, do not try to slide it around on its base, because this is extremely jarring to the optical system.

Polyvinylidene fluoride (PVDF) coating is a typical resin-based aluminum coating entrenched with color pigment particles. They are best applied on aluminum machined components in a factory setting and provide an extensive range of matte-finish colors. These coatings offer extreme hardness and high insolubility, allowing them to protect metal substrates from corrosion.

The resolving power of this lens is dependent on “immersing” it in a drop of oil, which prevents the loss of at least some of the image-forming light waves because of refraction. Refraction is a change in the direction of light waves due to an increase or decrease in the wave velocity, which typically occurs at the intersection between substances through which the light waves pass. This is a phenomenon you can see when you put a pencil in a glass of water. The pencil appears to “bend” at an angle where the air and water meet (see Figure 3). These two substances have different refractive indices, which means that light passing through the air reaches your eye before the light passing through the water. This makes the pencil appear “broken.”

Hard chrome provides a durable thickness that reduces friction between machine parts, improving components’ durability and performance. More importantly, industrial chrome ensures machine components’ extended lifespan and reduces downtime and maintenance expense risks.

Aluminum coating is fundamental to your custom aluminum parts because it helps to elevate these products from “basic” to “superior.” Besides, partnering with an aluminum finishing expert is crucial in achieving the best results when producing aluminum parts. Therefore, you must understand these finishes to choose the ideal one for your products and intended application.

3. When you are finished with the microscope, check the stage to make sure that you don’t leave a slide clipped in the stage. Make sure to switch the microscope OFF before you unplug it. Gently wrap the cord around the base and cover your microscope with its plastic cover.

Historyof microscope

There would be little to do in a microbiology laboratory without a microscope, because the objects of our attention (bacteria, fungi, and other single celled creatures) are otherwise too small to see. Microscopes are optical instruments that permit us to view the microbial world. Lenses produce the magnified images that allow us to visualize the form and structure of these tiniest of living beings.

Decorative chrome plating improves the aesthetic appeal of aluminum parts with its thin layer of chromium asides protecting the base material from corrosion and wear. This chrome plating doesn’t offer the same durability levels as the hard chrome plating.

Nevertheless, ensure that the chosen aluminum coating fits your budget without sacrificing quality. More so, your budget should guide your choice of a finish while having quality in mind because choosing a costly finish may increase the product’s machining cost.

Aluminum coatings are different surface treatments manufacturers and product designers commonly use to protect aluminum alloys from high heat, abrasion, chemical reactions, and humidity. Below are different types of aluminum coatings suitable for your project:

However, it is easy to clean, provides some corrosion and wear resistance, and improves your metals’ aesthetic appeal. Its typical applications include kitchen utensils, car parts, and tools.

Clear anodizing is an anodizing finish that doesn’t involve using dyes. Clear coating is more forgiving, unlike darker anodized colors, which usually exhibit color inconsistency and disfigurations when installed on-site.

The answer is resolution. Consider what happens when you try to magnify the fine print from a book with a magnifying glass. As you move the lens away from the print, it gets larger, right? But as you keep moving the lens, you notice that while the letters are still getting larger, they are becoming blurry and hard to read. This is referred to as “empty magnification” because the image is larger, but not clear enough to read. Empty magnification occurs when you exceed the resolving power of the lens.

Product engineers often choose this coating because of its long list of benefits, including outstanding electricity insulation, ultraviolet ray resistance, doesn’t absorb water, and can withstand extreme temperatures.

Once you’ve made the observations using the prepared slide, obtain a glass slide and a sterile swab. Collect a sample from the container of commercially prepared yogurt by swirling the swab in the yogurt, then scraping of the excess on the edge of the container. Smear this over the surface of the slide, making sure that you leave only a thin film of yogurt on the surface. Make a second smear from the container of freshly prepared homemade yogurt, if available. Allow both smears to air dry, and then heat fix them.

The microscope you’ll be using in lab has a compound system of lenses. The objective lens magnifies the object “X” number of times to create the real image, which is then magnified by the ocular lens an additional 10X in the virtual image. Therefore, the total magnification, or how much bigger the object will actually appear to you when you view it, can be determined by multiplying the magnification of the objective lens by 10.

Blasting and anodizing are a combination of two processes commonly used to prepare and anodize aluminum parts. The blasting process involves using an abrasive media such as glass beads or sand to remove imperfections or contaminants from the surface of aluminum components.

Resolution is often thought of as how clearly the details in the image can be seen. By definition, resolution is the minimum distance between objects needed to be able to see them as two separate entities. It can also be thought of as the size of the smallest object that we can clearly see.

This guide discusses the common aluminum finishes and helpful considerations for choosing the ideal surface finish for your aluminum machined parts. Let’s get to it!

This brings us to two additional concepts related to microscopy—working distance and parfocality. Working distance is how much space exists between the objective lens and the specimen on the slide. As you increase the magnification by changing to a higher power lens, the working distance decreases and you will see a much smaller slice of the specimen. Also, once you’ve focused on an object, you should not have to make any major adjustments when you switch lenses, because the lenses on your microscope are designed to be parfocal. This means that something you saw in focus with the low power objective should be nearly in focus when you switch to a high power objective, or vice versa. Thus, for viewing any object and regardless of what lens you will ultimately use to view it, the best practice is to first set the working distance with a lower power lens and adjust it to good focus using the coarse focus knob. From that point on, when you switch objectives, only a small amount of adjustment with the fine focus knob should be necessary.

Let’s say you wanted to look at cells of Bacillus cereus, which are rod-shaped cells that are about 4 µm long. If you were observing B. cereus with a microscope using the high power lens, how big would the cells appear to be when you look at them? ___________________________

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2. Clean all of the lenses with either lens paper or Kimwipes (NOT paper towels or nose tissues) BEFORE you use your microscope, AFTER you are done, and before you put it away.

Move your stage so you observe 10 different microscope fields. Keep track of the number of different types of bacterial cells you encounter during your survey, and record that information below:

Within the past few years, positive health benefits have been correlated with eating fermented foods containing “live” cultures. Although several types of bacteria are known to ferment milk and produce yogurt, two genera in particular, Lactobacillus and Bifidobacterium, have been singled out as promoting good digestive health and a well-balanced immune response. Both of these are bacilli arranged in pairs or short chains. Streptococcus spp., which are cocci arranged in chains, are also usually involved in the process of making the milk into yogurt, but these are not directly associated with positive health benefits to the person who eats the yogurt.

For a compound microscope, the optical path leading to a detectable image involves two lenses – the objective lens and the ocular lens. The objective lens magnifies the object and creates a real image, which will appear to be 4, 10, 40, or 100 times larger than the object actually is, depending on the lens used. The ocular lens further magnifies the real image by an additional factor of 10, to produce a vastly larger virtual image of the object when viewed by you.

Locate and focus on a single squamous epithelial cell with obvious bacteria on its surface. Create a sketch of the “cheek” cell (as squamous epithelial cells are sometimes called) in the circle provided. Then label the cell membrane, cytoplasm, and nucleus of the “cheek” cell, which should be easily observed.

Light waves that pass through and interact with the object may speed up, slow down, or change direction as they travel through “media” (such as air, water, oil, cytoplasm, etc.) of different densities. For example, light passing through a thicker or denser part of a specimen (such as the nucleus of a cell) may be reflected or refracted (“bend” by changing speed or direction) more than those waves passing through a thinner part. This makes the thicker part appear darker in the image, while the thinner parts are lighter.

Its high chemical resistance property makes it a well-suited coating for aluminum components in the medical industry. It is suitable for coating tubes, pipes, and vessels. Similarly, its low-friction co-efficient property makes it an ideal aluminum coating in automotive and industrial applications.

The lens with highest magnifying power is the oil immersion lens, which achieves a total magnification of 1000X with a resolution of 0.2 µm. This lens deserves special attention, because without it our time in lab would be frustrating.

Light from an illuminator (light source) below the stage is focused on the object by the condenser lens, which is located just below the stage and adjustable with the condenser adjustment knob. The condenser focuses light through the specimen to match the aperture of the objective lens above, as illustrated in Figure 2.

Chemical conversion coating or alodine finish is an inexpensive alternative to anodizing. Chromate chemical conversion is suitable for improving the passivating oxide layer on the aluminum parts’ surface. It provides excellent corrosion resistance and an aesthetically appealing exterior.

The human mouth is home to numerous microbes, which persist no matter how many times you brush your teeth and use mouthwash. Since these microbes generally inhabit the surface layers of the oral mucosa, we humans have evolved ways to keep their numbers under control, including producing antibacterial chemicals in saliva and constantly turning over the outer layer of epithelial cells that line the inside of the mouth.

Anodizing is an electrochemical process that enhances abrasion and corrosion resistance in aluminum parts by thickening the natural oxide layer to form a dense film. The aluminum coatings become thicker depending on the time the aluminum spends in the anodizing tank containing electrolytic solution.

The ability of a lens to resolve detail is ultimately limited by diffraction of light waves, and therefore, the practical limit of resolution for most microscopes is about 0.2 µm. Therefore, it would not be practical to try to observe objects smaller than 0.2 µm with a standard optical microscope. In addition, cells of all types of organisms lack contrast because many cellular components refract light to a similar extent. This is especially true of bacteria. To overcome this problem and increase contrast, biological specimens may be stained with selective dyes.

What is microscopein science

The aluminum metal’s versatility makes it compatible with an extensive list of applications, including automotive, aerospace, marine, defense and military, and consumer products. However, it is crucial to consider environmental factors when choosing aluminum coatings for your project, especially if your product is meant for outdoor use.

Here is a final consideration related to objective lenses and magnification. Look at the lenses on your microscope, and note that as the magnification increases, the length of the lens increases and the lens aperture decreases in size. As a result, you will need to adjust your illumination to compensate for a darkening image. There are essentially three ways to vary the brightness; by increasing or decreasing the light intensity (using the on/off knob), by moving the condenser lens closer to or farther from the object using the condenser adjustment knob, and/or by opening/closing the iris diaphragm. Don’t be afraid to experiment to create the best image possible.

It would help to know that the aluminum part protection that these processes offer often varies from bright and mirror-like to rough or patterned. Therefore, it is advisable to understand these surface finishes to determine the one that best enhances your products. It would help to choose a finish that meets your application’s quality standards and ensures the aluminum part fits and functions well.

Moreover, chemical conversion coatings provide high electrical conductivity in aluminum machined parts in applications that require high electrical conductivity. However, alodine solution has low environmental sustainability compared to other finishes.

Then, you can anodize the prepped aluminum surface to achieve the desired coating. This anodizing process forms a smooth, high-quality oxide layer on the aluminum surface.

What isobjective lens inmicroscope

When the light waves that have interacted with the specimen are collected by the lenses and eventually get to your eye, the information is processed into dark and light and color, and the object becomes an image that you can see and think more about.

Add to your illustration the bacterial cells which you should see on or near the larger larger cheek cells. Try to keep the size of the bacterial cells to scale with the size of the cheek cell.

With a bright-field microscope, images are formed as a result of the interplay between light waves, the object, and lenses. How images of biological objects are formed is actually more physics than biology. Since this isn’t a physics course, it’s more important to know how to create exceptional images of the object than it is to know precisely how those images are formed.

Microscopeparts and functions

Chromate plating is widely embraced in consumer goods and manufacturing industries. It uses an electrolytic process to form a protective aluminum layer and bright luster on the surface of the aluminum part by submerging it in an electrolytic bath. Chrome plating is especially suitable for decorative purposes or enhancing the preferred properties of machine parts.

Hard, clear anodizing offers greater corrosion and wear resistance in aluminum products. Although it is similar to regular anodizing, its oxide layer is thicker and more durable on an aluminum surface. Hard clear anodizing is commonly used to achieve a clear finish with enhanced durability in aluminum products.

Together we will review how to effectively achieve an exceptional image using a standard optical microscope. This will include not only locating and focusing on the object, but also using the condenser lens and iris diaphragm to achieve a high degree of contrast and clarity.

Once you’ve looked at the prepared slide, obtain a glass slide and a sterile swab. Collect a sample of your oral mucosa by gently rubbing the swab over the inside of your cheek. Smear the swab over the surface of the slide (this is known as making a “smear” in microbiology). Allow the smear to dry, and then heat fix by passing the slide through the flame of a Bunsen burner, as demonstrated. Discard the swab in the biohazard waste.

To use this important piece of equipment properly, it is helpful to know how a microscope works. A good place to begin is to learn the name and function of all of the various parts, because when we talk about the ways to improve microscopic images, terms like “ocular lenses” and “condenser” always come up.

This aluminum coating type is straightforward and inexpensive, making it a popular choice in industries like the automotive industry. This coating solution allows you to combine other coatings to enhance its performance further.

We’ll start by looking at a prepared slide of a “rectal smear,” which is quite literally a smear of feces on a slide stained with a common method called the Gram stain. You will observe several different types of bacterial cells in this smear that will appear either pink or purple. While the main purpose of this is to develop proficiency in use of the oil immersion objective lens, it also provides the opportunity to look at bacteria, observe the differences in cell shapes and sizes, and note that when Gram stained they turn out to be either purple or pink.

Importanceof microscope

It would help to consider environmental factors that can affect aluminum parts in the long run, such as humidity, temperature, sunlight, ultraviolet rays, etc., when choosing a finish for aluminum machined parts for outdoor applications. Choose a finish that ensures the extended life span of aluminum machined parts even when exposed to environmental factors.

Once the sample(s) are heat fixed, stain them with crystal violet. This is a purple colored stain, and although both the milk proteins and cells will stain this color, the milk stains faintly and the bacteria will appear dark purple. Keep in mind that the probiotic bacteria are bacilli. Below, sketch a representative field as seen with the oil immersion objective for each of the yogurt samples.

Typesof microscope

However, manufacturers often improve the quality of these components with quality aluminum coating. For optimum results, you must choose the right surface finish to enhance these parts with better aesthetic enhancement, better physical properties, resistance to rust, wear, and chemicals, etc.

It is important to remember that you must use a drop of oil whenever you use the oil immersion objective or you will not achieve maximum resolution with that lens. However, you should never use oil with any of the other objectives, and you should be diligent about wiping off the oil and cleaning all of your lenses each time you use your microscope, because the oil will damage the lenses and gum up other parts of the instrument if it is left in place.

So the microscope makes small cells look big. But why can’t we just use more or different lenses with greater magnifying power until the images we see are really, really big and easier to see?

Observe your mouth smear with the microscope. When you get to the oil immersion objective, locate and focus on a single cheek cell. As you did with the prepared slide, sketch the larger cheek cell in the circle provided and label the membrane and nucleus . Add the bacterial cells to your sketch, and try to keep the size scale accurate.

More importantly, anodized aluminum offers several desirable benefits, such as dye adhesion, vibrant colors, and better heat dissipation in aluminum machined parts. Below are the different anodizing types:

Hard chrome plating, or industrial or engineered chrome, involves immersing a metal part in a chromic acid solution. It is usually thicker than the decorative type and ideal for various industrial applications that require great strength, wear, and corrosion resistance.

Introductionof microscope

What is the purpose of the microscopeand its function

Powder coatings are not as hard and long-lasting as anodized aluminum. However, powder coatings provide an excellent appearance and corrosion resistance. Unlike liquid painting, the powder coating technique is non-toxic since it lacks solvents comprising volatile organic compounds (VOCs).

Obtain a prepared slide labeled “mouth smear.” On this slide you will see large cells with a nucleus, clearly visible with both the low power and high power objective lenses. These are squamous epithelial cells that form the outermost layer of the oral mucosa. At high power, you should start to see small cells on the surface of the larger epithelial cells. With the oil immersion objective lens, you will be able to tell the smaller cells are bacteria.

Yogurt is produced when lactic acid (homolactic) bacteria that naturally occur in milk ferment the milk sugar lactose and turn it into lactic acid. The lactic acid accumulates and causes the milk proteins to denature (“curdle”) and the liquid milk becomes viscous and semi-solid.

Aluminum is a versatile metal with excellent mechanical properties and extensive applications in various industries that require precision CNC-machined aluminum parts. Aluminum components often come with good surface quality.

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The same thing happens as the light passes through the glass slide into the air space between the slide and the lens. The light will be refracted away from the lens aperture. To remedy this, we add a drop of oil to the slide and slip the oil immersion objective into it. Oil and glass have a similar refractive index, and therefore the light bends to a lesser degree and most of it enters the lens aperture to form the image.

This involves dying the anodic film into any color to achieve a decorative finish after the anodizing process. This dyeing process provides a vibrant finish on the aluminum part. Anodized aluminum absorbs the dye through the pores of the aluminum oxide layer when immersed in a dye bath. It allows you to achieve a range of colors that best fit the requirements of your parts.

Powder coating is a surface treatment that provides shiny, long-lasting colors with excellent resistance to ultraviolet rays in various metals. You must clean and prep the aluminum parts, then spray the powder coat with an electrostatic gun to apply the dry paint powder on the metal surface. Then, you must bake the powder-coated aluminum parts to melt and cure the coating to achieve a uniform finish.

Obtain a prepared slide labeled “yogurt smear” and view it with the microscope. The milk proteins in the yogurt will be visible as lightly stained amorphous blobs. By now you should have a pretty good idea of what bacteria look like, so locate and focus on areas where you see bacterial cells.

Teflon or PTFE coating is excellent for different applications ranging from automotive, electronics, pharmaceutical, aerospace, optical devices, and cookware. Teflon coating has a high molecular weight, which makes it resistant to water.

If you are new to microscopy, you may initially feel challenged as you try to achieve high quality images of your specimens, particularly in the category of “Which lens should I use?” A simple rule is: the smaller the specimen, the higher the magnification. The smallest creatures we observe are bacteria, for which the average size is a few micrometers (μm). Other microscopic organisms such as fungi, algae, and protozoa are larger, and you may only need to use the high power objective to get a good view of these cells; in fact, using the oil immersion objective may provide you with less information because you will only be seeing a part of a cell.

The electrophoretic coating or E-coat process involves submerging the aluminum product in a bath of coating material and using an electric current to apply the coating on the surface. It provides your product with good resistance to corrosion and chemicals.

PVDF coatings ensure your metal surfaces exhibit excellent resistance to fading, chemicals, and corrosive substances. Hence, these aluminum coatings are ideal for exterior applications such as aluminum wall cladding. More importantly, you do not need an oven to cure PVDF coatings, and these coatings do not contain toxic VOCs like liquid painting.