Swift Optical M10T-P Trinocular Compound Microscope, WF10x Eyepieces, Plan Objectives, 40x-1000x Magnification, Brightfield, LED Illumination, Abbe Condenser, Iris Diaphragm, Mechanical Stage, 110V-220V (American Plug)

Product ID : 45019702

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Galleon Product ID 45019702

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About Swift Optical M10T-P Trinocular Compound

The Swift Optical M10T-P Trinocular Compound Microscope has a pair of 10x widefield eyepieces, a trinocular port, a reverse-mounted nosepiece with four DIN plan objectives that are parcentered and parfocal, LED illumination, coaxial nested coarse and fine focus, a 1.25 NA Abbe condenser with iris diaphragm, and a mechanical stage. The trinocular viewing head has a Siedentopf binocular head with a pair of eyepieces with interpupillary adjustment and a fixed inclination to reduce eye and neck strain, and a trinocular port that accepts a camera adapter (sold separately). A Siedentopf binocular head enables the viewer to change the interpupillary distance without changing the tube length, eliminating the need to refocus the image. Dioptric adjustment accommodates individual eye-strength differences. A reverse-mounted nosepiece keeps objectives out of the way to prevent damage and contamination, and to enable more secure slide handling. Plan objectives provide improved focus over the entire range of the viewing field. Parcentered and parfocal objectives ensure that the image stays centered and focused when the magnification is changed. The 40xR and 100xR objectives are retractable and spring-loaded to prevent damage to the slide or objective when focusing. The 100xR objective is also an oil objective that provides increased resolution over a standard objective. A compound microscope is used for inspection and dissection of specimens when two-dimensional images are desired. The microscope has lower (diascopic) brightfield illumination that transmits light up through the specimen for enhanced visibility of translucent and transparent objects. Brightfield (BF) illumination allows the specimen to absorb light, resulting in a dark image on a light background. The LED light source provides bright, cool light for working with temperature-sensitive or live specimens, and a rheostat controls the amount of light emanating from the lamp. The Abbe condenser can be adjusted to control the distance of the light from the stage and has an iris diaphragm to optimize the amount of light illuminating the specimen. The condenser is controlled using a rack-and-pinion mechanism. The mechanical stage locks the slide into place and provides precise slide manipulation along the X- and Y-axes. Coaxial coarse and fine focus knobs are nested to speed focusing for left-and right-handed viewers, and tension adjustment ensures specimen stays focused during viewing. Microscope Head and Optics Specifications Head Trinocular, Siedentopf Magnification range 40x-1000x Binocular head inclination 30 degrees Interpupillary adjustment 54 to 76mm Eyepieces (20mm) WF10x Nosepiece Quadruple, reverse-mounted Objectives, DIN plan, parcentered, parfocal 4x, 10x, 40xR (retractable), 100xR (oil, retractable) Microscope Illumination and Stage Specifications Focus type Coaxial coarse and fine Condenser 1.25 NA Abbe Light source LED with rheostat, 3W Diaphragm Iris Illumination type Brightfield Stage type Mechanical Stage dimensions 142 x 140mm (W x D) Power 110V-220V (American plug) W is width, the horizontal distance from left to right; D is depth, the horizontal distance from front to back. Microscopes are instruments used to enhance the resolution of an object or image. Types include compound, stereo, or digital. Compound microscopes use a compound optical system with an objective lens and an eyepiece. Stereo microscopes show object depth in a three-dimensional image. Digital microscopes are used to display an image on a monitor, rather than looking through a lens. Microscopes can have monocular (one), binocular (two), or trinocular (three) eyepieces, with varying magnification abilities. Magnification ability refers to the size of an image. Resolution, also known as resolvant power, refers to the clarity of the image. The interaction between field of view (FOV), numerical aperture (NA), and working distance (WD) determines resolut