Compound Light Microscope Buy
Digital Only are digital microscopes with no eyepieces to view the specimen with the naked eye. Monocular11
Binocular36
Trinocular29
Ergonomic9
Objective Lens Objective LensDifferent color light passes through curved glass (a lens) at different angles. Achromatic lenses 'correct' for this 'spherical aberration' in order to bring the light rays into focus on the same plane.
compound light microscope buy
Darkfield microscopes improve the contrast in unstained, transparent specimens. They use scattered light that is not collected by the objective lens and so the light will not form part of the image. As a result, the specimen is illuminated against a dark background.
Inverted microscopesare used to view specimens that require more working space than a slide. For example, specimens in containers such as petri dishes. They are also used for polished metal specimens where reflected light is required. The objectives are located below the stage while the light source and condenser are above the stage.
Metallurgical microscopes are a form of inverted microscope. They are designed for opaque or polished metal specimens that require high magnifications, but with reflected illumination (more typical in a stereo microscope).
Phase Contrast microscopes enable greater contrast in transparent specimens (protozoa etc) without the use of stains. Invented by Fritz Zernike, they convert small phase shifts in the light passing through the specimen into changes in contrast.
Leica microscopes are modular and shipped in the configuration that best fits your stated needs or application. In case your needs change later, you can always upgrade your workstation by adding available accessories.
Leica Microsystems offers the free Store & Recall software (available with the LAS X software platform for industry) which allows you to customize the microscope functions, adapting them to the requirements and needs of each individual user. The software also allows you to restore all system settings saved with the acquired image.
All our encoded microscope solutions offer calibration and image comparison. Furthermore, Leica Microsystems offers the free Store & Recall software which allows you to restore all system settings saved with the acquired image.
Light microscopes help in many areas concerning the study of cellular mechanisms and immune responses for virology research. The study of virus-infected tissues and cells help improve the understanding of infection mechanisms and develop treatments against viral diseases which can have a dramatic impact on human health.
Excellent sample preparation and imaging methods are key for visualizing the fine details of materials with reliability and accuracy. Leica light microscope solutions enable you to achieve this goal with high-quality optics and intelligent automation for optimal workflows and analysis.
Light microscope solutions help suppliers and device manufacturers achieve fast and precise inspection and analysis for semiconductor wafer processing. Conformity to the defined specifications during semiconductor device manufacturing is critical for reliability.
Pharmaceutical and chemical manufacturing, research and development requires microscope, camera and software solutions to help users clearly and precisely visualize, analyze, and document results while ensuring the highest level of accuracy. Improve experimental efficiency and reduce strain from repetitive tasks during production while achieving the excellent quality results needed.
A compound microscope uses multiple lenses, namely the objective lens and the eyepiece (ocular) lens, to magnify static 2D samples. These lenses allow the compound microscope user to observe a large amount of detail in the samples. They are typically simple to use, feature their light source, and are convenient to set up. Our compound microscopes for sale are also lightweight, making them easy to store.
Our compound microscopes are very simple to use and convenient to set up. They are relatively small and easy to store. Our compound microscopes also come with their own light source. Because they use multiple lenses, they're also able to reveal great detail in the sample you're observing.
Our teaching microscopes offer user-friendly operation and durability required for teaching and training students, particularly in the medical field. These compound microscopes are available in configurations of up to ten heads, to allow for simultaneous observation.
Our student microscopes are a great choice if you are just starting your journey towards scientific discovery and/or are looking for an affordable compound microscope. Monocular microscopes make for a great tool to enhance your studies as they are durable and easy on your budget.
At the low end, our student compound microscopes can start from as little as $69, but if you require more features and a more complicated setup, the top-end compound microscopes cost upwards of $19,236.
The ACCU-SCOPE EXM-150 Cordless Microscope is an affordable compound microscope with excellent features. It has quality optics, a mechanical stage, and an iris diaphragm to adjust light settings. The rechargeable LED illumination allows you to operate it anywhere you like (up to four hours of use). The EXM-150 is an ideal choice for home use and K-12 students.
For advanced applications, Meiji Techno offers best-in-class compound microscopes for sale, like the Meiji MT4200L Binocular Biological Microscope. This microscope provides high optical performance for researchers and laboratory specialists. It has an ergonomic design for maximum comfort, durable finish, and high-efficiency LED. This Meiji Techno compound microscope is made in Japan and has a limited lifetime warranty.
The OPTIKA B-190TBPL Digital Microscope with 10.1 inch Tablet consists of innovative and high-quality components. The detachable tablet is rotatable and allows for demonstrations, image capture, and video. The compound microscope has outstanding high-contrast optics and LED with intensity control.
This type of microscope is used when you want to view magnified specimens on glass slides. Compound microscopes can have higher magnification abilities than stereo microscopes because they use two or more lenses. Our compound microscopes for sale are available in multi-head, binocular, and trinocular options.
Our fluorescence microscopes are used to study both inorganic and organic specimens. Fluorescence microscopy images are ideal for complex samples that require fluorescent lighting. These compound microscopes use a combination of fluorescence and phosphorescence to allow users to examine the samples.
The maximum magnification of a compound microscope is roughly 1000x. This is a result of a maximum ocular magnification of 10x and a maximum objective lens magnification of 100x. Typical magnification ranges between 40x and 1000x to create two-dimensional images with a compound light microscope.
A compound microscope typically contains two lenses, the ocular lens in the eyepiece, and the objective lens. The ocular lens has a larger focal length and can enlarge the image. The objective lens is located in the nosepiece and has a shorter focal length which allows you to get a closer view of the sample.
A simple microscope uses a lens (or set of lenses) to enlarge the sample using angular magnification, which is a similar function to a magnifying glass. A compound microscope uses two different lenses. One is the objective lens that enlarges the sample, and one is the ocular lens that magnifies the image, allowing for much higher magnification.
New York Microscope Company is the only microscope company to offer a Free Service Protection Guarantee with the purchase of every compound microscope. Visit our Free Service Protection page for more details.
Because compound microscopes are capable of producing such high levels of magnification, they are used by laboratories, schools, manufacturers, agricultural professionals, and so many others. These microscopes are widely seen in science classrooms for use when studying cells. However, they are also used by geologists and mineralogists for viewing rock specimens, and by manufacturers for viewing materials including metals, plastics, and fabrics. The wide variety of applications has led to specialized types of compound microscopes including metallurgical, polarizing, and fluorescence models.
Compound microscopes have two common forms: upright and inverted. By far the more common form is upright. The upright configuration places the objective lenses above the specimen, which also means that the specimen stage would be below the objective lenses. Any light source which would project light through the specimen would be located below the stage. The inverted configuration places the objective lenses below the specimen, and therefore the stage and any transmitted light source would be above the objectives lenses. The purpose of the inverted form is to allow for larger or heavier objects which would not fit on the stage of an upright microscope, or would otherwise make focusing impossible.
One common characteristic of all compound microscopes is that they require a light source to function, especially at the highest magnifications. The original compound microscopes relied on candlelight and mirrors to provide the needed illumination. Modern microscopes are often equipped with built-in illumination systems utilizing incandescent, fluorescent, or LED light sources. Technology in lighting continues to improve and provide energy-efficient options with brightness and color-accuracy.
The binocular Siedentopf head is also really comfortable and easy to adjust, which is why I think most people would like this for their personal microscope at home, as opposed to a cheaper monocular microscope.
AmScope offers additional condensers and objectives you can add onto this microscope if you want to start working with darkfield or phase contrast methods, making this a versatile microscope that you can upgrade in the future when your scientific curiosity demands it. 041b061a72