Laboratory Biological Microscope KLM/B/40B (Binocular)

Features:

  • Modern Design Drop Shaped Integrated Viewing Head, Eyepiece Tube Can Rotate Butterfly Freely to Fit Different Working Height
  • Unique Designed Dimming Objective 4x/10x, No Need to Lower Brightness When Use
  • Creative 100x Water Objective Instead of I00x Oil Objective for Easy Use Without Oil
  • Elegant Design with Built-in Easy Handle for Easy Moving + Wire Winding Device
Specification
Kiparma Model KLM/B/40B
Head : Seidentopf Binocular Head, inclined 30°, Rotatable 360°, Interpupillary distance 48-75mm
Eyepiece : WF 10x/20mm (High Eyepoint)
Nosepiece : Quadruple, Backward
Infinity EPlan Objective : EPLAN 4x/0.10, WD=12.1mm

EPLAN 10x/0.25, WD=4.14mm

EPLAN 40x/0.65(S), WD=0.58mm

EPLAN 100x/1.25(S,Oil), WD=0.19mm

Focusing : Coaxial Coarse and Fine Focusing, Coarse Focusing Travel Range: 25mm, Fine Focusing scale 2µ/Division
Working Stage: Mechanical Stage Size 145x140mm, Travel range 76x52mm, scale 0.1mm, Double Slide Holder
Condenser : Abbe Condenser N.A.1.25 Iris Diaphragm, spiral Up/Down, with Filter Holder.
Light Source : 3W LED Illumination With Aspheric Collector

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    Features & Compatibility

    Laboratory Biological Microscope KLM/B/40B: Exploring Precision and Clarity

    In the realm of scientific exploration, Laboratory Biological Microscope KLM/B/40B stand as indispensable tools, facilitating detailed examination and analysis of microscopic structures. These instruments are crucial in fields ranging from biology and medicine to materials science and forensics. In this comprehensive guide, we delve into the intricacies of laboratory biological microscopes, highlighting their functionalities, applications, and key considerations for choosing the right instrument for your needs.

    Understanding Laboratory Biological Microscopes

    Laboratory biological microscopes are designed specifically for observing biological specimens that are typically transparent or translucent. They utilize transmitted light to illuminate the sample from below, enabling researchers to view cells, tissues, and microorganisms in great detail. These microscopes consist of several essential components:

    • Objective Lenses: These lenses are crucial for magnifying the specimen. Laboratory biological microscopes often come with multiple objective lenses (e.g., 4x, 10x, 40x, and 100x), allowing for varying levels of magnification.
    • Eyepiece or Ocular Lens: Positioned at the top of the microscope, the eyepiece further magnifies the image produced by the objective lens.
    • Stage and Stage Clips: The stage holds the specimen in place, while stage clips secure it for steady observation.
    • Condenser: This lens system focuses light onto the specimen to enhance image clarity.

    Applications of Laboratory Biological Microscopes

    Laboratory biological microscopes find application across diverse scientific disciplines:

    • Biological Research: Studying cellular structures, tissues, and microorganisms.
    • Medical Diagnostics: Identifying pathogens and abnormalities in clinical specimens.
    • Education: Teaching students about cellular biology and microbiology.
    • Quality Control: Inspecting materials at a microscopic level in manufacturing processes.

    Key Features to Consider

    When selecting a laboratory biological microscope, several factors influence the choice:

    • Magnification Range: Consider the range of magnifications needed for your applications. Higher magnifications are essential for detailed cellular and sub-cellular observations.
    • Optical Quality: Superior optics ensure clear and crisp images, reducing distortion and improving resolution.
    • Lighting Options: LED illumination is energy-efficient and provides consistent lighting, whereas halogen bulbs offer brighter illumination but generate more heat.
    • Digital Imaging Capabilities: Some microscopes offer digital cameras for capturing and documenting images, facilitating research and analysis.

    SEO Implementation

    To optimize content for search engines while discussing laboratory biological microscopes, consider the following SEO techniques:

    • Keyword Integration: Use relevant keywords naturally throughout the content, such as “laboratory biological microscope,” “biological microscopy,” and specific model names.
    • Headers and Subheaders: Organize content using hierarchical headers (e.g., H2, H3), including targeted keywords to improve readability and SEO.
    • Meta Descriptions: Craft a concise meta description incorporating primary keywords to enhance search engine visibility.
    • Alt Text for Images: When including images of microscopes or microscopic samples, use descriptive alt text that includes keywords to improve image search optimization.
    • Internal and External Links: Link to authoritative sources on microscopy, both within your website and externally, to enhance credibility and SEO.
    • Long-tail Keywords: Incorporate long-tail keywords (e.g., “best laboratory biological microscope for research”) to capture specific search queries and attract targeted traffic.

    Conclusion

    Laboratory biological microscopes are indispensable tools for scientific discovery and analysis, offering unparalleled insights into the microscopic world. By understanding their functionalities, applications, and key features, researchers and educators can make informed decisions when selecting the ideal microscope for their needs. Implementing SEO techniques ensures that this valuable information reaches its intended audience effectively, enhancing visibility and engagement within the scientific community and beyond.

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    Kiparma

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