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Product Name | Immersion Oil for Clinical Diagnosis |
Brand | Generic |
Volume | 5mL |
Application | Microscopy |
Refractive Index | 1.518 |
Viscosity | 22 cSt |
Fluorescence | Non-fluorescent |
Compatibility | Compatible with standard laboratory microscopes |
Packaging | Glass bottle |
Storage Conditions | Store at room temperature |
Shelf Life | 2 years |
Manufacturing Country | USA |
Ingredients | Mineral oil, additives |
Certifications | ISO 9001:2015 certified |
Usage Instructions | Apply a small amount onto the microscope slide |
FAQ
What is the purpose of using immersion oil for clinical diagnosis?
Immersion oil is a key tool used in microscopy for clinical diagnosis. By using immersion oil, the resolution of the microscope is significantly improved, allowing for clearer and more accurate visualization of specimens.
How does immersion oil improve the resolution of the microscope?
Immersion oil has a refractive index similar to that of glass, which minimizes the loss of light as it passes through the specimen and into the objective lens. This reduction in light loss leads to an increase in numerical aperture, resulting in improved resolution and clarity of the image.
What are the benefits of using immersion oil in clinical diagnosis?
By using immersion oil, healthcare professionals can accurately identify and diagnose various conditions, such as identifying pathogens in blood smears, detecting abnormal cells in tissues, and analyzing cellular structures in microbiological samples. Immersion oil also enhances the quality of images, making it easier to spot subtle details and abnormalities.
Can immersion oil be used with all types of microscopes?
Immersion oil is specifically designed for use with high-powered microscopes, such as oil immersion objectives with a numerical aperture of 1.25 or higher. It should not be used with low-powered microscopes or objectives that are not designed for oil immersion, as this can damage the lens and compromise the quality of the image.
How should immersion oil be applied to the microscope slide?
To apply immersion oil, place a drop on the center of the specimen on the slide. Then, gently lower the oil immersion objective lens onto the oil droplet, ensuring that the lens makes direct contact with the oil. This process helps to create a continuous medium between the lens, oil, and specimen, resulting in improved resolution and clarity during microscopy.
Immersion oil is a key tool used in microscopy for clinical diagnosis. By using immersion oil, the resolution of the microscope is significantly improved, allowing for clearer and more accurate visualization of specimens.
How does immersion oil improve the resolution of the microscope?
Immersion oil has a refractive index similar to that of glass, which minimizes the loss of light as it passes through the specimen and into the objective lens. This reduction in light loss leads to an increase in numerical aperture, resulting in improved resolution and clarity of the image.
What are the benefits of using immersion oil in clinical diagnosis?
By using immersion oil, healthcare professionals can accurately identify and diagnose various conditions, such as identifying pathogens in blood smears, detecting abnormal cells in tissues, and analyzing cellular structures in microbiological samples. Immersion oil also enhances the quality of images, making it easier to spot subtle details and abnormalities.
Can immersion oil be used with all types of microscopes?
Immersion oil is specifically designed for use with high-powered microscopes, such as oil immersion objectives with a numerical aperture of 1.25 or higher. It should not be used with low-powered microscopes or objectives that are not designed for oil immersion, as this can damage the lens and compromise the quality of the image.
How should immersion oil be applied to the microscope slide?
To apply immersion oil, place a drop on the center of the specimen on the slide. Then, gently lower the oil immersion objective lens onto the oil droplet, ensuring that the lens makes direct contact with the oil. This process helps to create a continuous medium between the lens, oil, and specimen, resulting in improved resolution and clarity during microscopy.