A compound microscope uses multiple lenses to magnify the image, allowing for higher magnification and resolution compared to a simple magnifying lens. The compound microscope also has a light source to illuminate the specimen, enabling better visibility of details. Additionally, compound microscopes typically have adjustable focus and magnification levels for more precise viewing.
The body tube of a compound optical microscope contains two lens systems, the objective lens composed of one or several lenses that magnify the image of the object being examined, and the ocular lens at the eyepiece end. The magnification of the microscope depends on the focal lengths of the two lens systems.
The object being examined is placed directly under the objective lens of a compound microscope. The objective lens is the lens closest to the specimen and is used to magnify the image of the object.
A compound microscope has two sets of lenses (objective and eyepiece) that work together to magnify an image. This dual-lens system allows for higher magnification levels and better resolution compared to a single lens found in a magnifying glass. Additionally, compound microscopes are designed for scientific purposes and have finer adjustments for focusing and manipulating magnification levels.
A compound microscope combines a series of lenses, including an objective lens and an eyepiece lens. The objective lens gathers light from the specimen and forms an intermediate image, which is then magnified further by the eyepiece lens for observation. Together, these lenses provide high magnification and resolution for viewing small objects.
A compound microscope uses a combination of two lenses - the objective lens and the eyepiece lens. The objective lens captures and magnifies the image of the specimen, which is then further magnified by the eyepiece lens. By working together, these lenses increase the size of the image produced, allowing for greater magnification and visualization of tiny details on the specimen.
edi magaling
No. If it only has one lens, then it's just a magnifying glass, not a microscope.
The 'object lens' in a compound microscope is closest to the object being examined.
The two main magnifying parts of a compound microscope are the objective lens, which is located close to the specimen and provides the initial magnification, and the eyepiece lens, which further magnifies the image for viewing.
The magnifying parts of a compound microscope are the objective lens and the ocular lens. The objective lens is located near the specimen and provides the initial magnification, while the ocular lens further magnifies the image for viewing. Together, these lenses work to increase the overall magnification power of the microscope.
A simple microscope has only one lens and is used for magnifying small objects, while a compound microscope has multiple lenses and is used for magnifying very small objects with higher magnification and resolution.
a compound microscope has two or more lens while a simple microscope has only one lens
No, the magnifying power is not simply the sum of the magnifications of the two lenses. In a compound microscope, the total magnification is the product of the magnification of the objective lens and the eyepiece lens.
A magnifying lens
The 'object lens' in a compound microscope is closest to the object being examined.
A simple microscope similar to a magnifying lens.
A compound microscope consists of several lenses operating together, whereas a simple microscope is one lens, like a magnifying glass. A compound microscope gives higher magnification and also better resolution than a simple microscope.