Linear stage 7T173-20-50 allows manual linear motion. The featured advantage of this stage is it's narrow and low-profile design. Our standard micrometers 9S75M are used as driving screws. Customer may specify other screws for linear stages, e.g. with non-matching travel range to save space. A Platform is spring preloaded against the driving screw to provide high resolution of the linear stage, low backlash, smooth and accurate linear motion. An array of mounting holes on a platform and on a base allow a variety of convenient mounting options, including mounting on 3MP series Posts. Linear stages can be promptly stacked in compact XY-XYZ configurations. Similar design stage but with greater load capacity performance 7T175-50.

Motorizedtranslation Stage

Compound microscopes consist of a single optical path with two sets of lenses: the objective lens located near the specimen and the eyepiece lens positioned near the observer's eye. They also feature a stage where the specimen is placed, a focus mechanism for adjusting the clarity of the image, and an illumination system typically located beneath the stage.

Lineartranslation stage

Dissecting microscopes consist of two separate optical paths with eyepieces and objective lenses that provide a three-dimensional (3D) view of the specimen. They typically feature a zoom knob to adjust magnification, a focus knob for precise focusing, and an adjustable light source for illumination.

Xyztranslation stage

2AB173-20-50 Angle Bracket is used to fix stages in Z configuration.3UBP-04 Universal Base Plate is required to fix stages or whole assembly to a flat surface e.g. optical table. Bottom of the stages is made with a series of holes for direct mounting - please see the drawing.

Compound microscopes, on the other hand, are designed for observing small, transparent specimens at high magnification. These microscopes use multiple lenses to magnify the image of the specimen, allowing for detailed examination of cellular structures, microorganisms, and histological samples.

The versatility of dissecting microscopes makes them suitable for various applications across different fields. In biology, they are used for studying plant and animal anatomy, conducting dissections, and examining specimens in environmental science. In industries such as electronics and manufacturing, dissecting microscopes are employed for inspecting small components and conducting quality control checks.

The primary differences between compound microscopes and dissecting microscopes lie in their design, magnification capabilities, and intended applications. Compound microscopes are designed for observing small, transparent specimens at high magnification, whereas dissecting microscopes are used for examining larger, opaque specimens at low magnification. Additionally, compound microscopes provide a two-dimensional (2D) view of the specimen, while dissecting microscopes offer a three-dimensional (3D) view. Overall, the choice between a compound and dissecting microscope depends on the specific requirements of the observation task and the nature of the specimen being studied.

Translation Stagethorlabs

Microscopes play a crucial role in scientific research, allowing scientists to observe objects and organisms at the microscopic level. Two common types of microscopes used in laboratories and educational settings are compound microscopes and dissecting microscopes. While both serve the purpose of magnifying objects for observation, they differ in their design, applications, and functionalities.

Dissecting microscopes, also known as stereo microscopes, are widely used for examining larger, opaque specimens that require low magnification. These microscopes are ideal for tasks such as dissecting biological specimens, examining minerals, inspecting circuit boards, and conducting quality control inspections in industries.

Compound microscopes are widely used in fields such as biology, medicine, and materials science for a variety of applications. In biology, they are essential for studying cell structures, observing microorganisms, and analyzing tissue samples. In medicine, compound microscopes are used for diagnosing diseases, examining blood samples, and conducting research in fields like microbiology and pathology.