answersLogoWhite

0

microscope consists of two lens called eye lens and objective lens. objective lens is lens kept behind object and eye lens is keep on the top of microscope .i.e. on the place through which we look. firstly the object is placed behind the objective of microscope which is turned into virtual, erect and magnified image. later this image is thought to be the object for the eye lens and this objects forms real, inverted and magnified image.

User Avatar

Wiki User

12y ago

What else can I help you with?

Continue Learning about Biology

What is the purpose and principle of the microscope?

The purpose of a microscope is to magnify and resolve tiny objects or structures that are not visible to the naked eye. The principle of a microscope is based on the interaction of light waves or electrons with the specimen to produce a magnified image for observation and analysis.


What is is the principle of inverted microscope?

The Inverted microscope is mounted upside down, the light source and condenser are situated uppermost and direct light down through the stage. The objective is set with its front element uppermost, and the eyepieces are angled upward so that the observer can study specimens that are still in their watery medium.


What is the function of the pillar in the microscope?

it supports the upper part of the microscope where the eyepiece, draw tube , body tube and the objectives is placed .


List three differences between the dissecting microscope and the compound microscope?

The dissecting microscope has a lower magnification range (up to 40x) compared to the compound microscope, which can go up to 1000x. The dissecting microscope has a larger working distance and a wider field of view, making it suitable for observing larger specimens. The dissecting microscope typically has a lower resolution than the compound microscope due to its lower magnification power and optical design.


Why was fluorescence microscope invented?

The fluorescence microscope was invented to allow scientists to visualize and study the internal structure and dynamics of cells and tissues. It relies on the principle of fluorescence to enhance contrast between specific structures, such as proteins or organelles labeled with fluorescent dyes, making them easier to observe under the microscope. This tool has revolutionized biological research by enabling researchers to study complex biological processes at the molecular level.