大象传媒

Cell structures - OCR GatewayCell measurement

Organisms are made of cells. Most organisms are multicellular and have cells that are specialised to do a particular job. Microscopes produce magnified images of cells so we can study them in detail.

Part of Biology (Single Science)Cell level systems

Cell measurement

Greg Foot explains the main differences between light and electron microscopes

Light microscopes

Most animal cells range in size from 0.01 to 0.05 mm, and plant cells from 0.01 to 0.10 mm.

The human eye can see objects as small as around 0.05 mm. Therefore a microscope is needed to see cells in detail.

Microscopes magnify the image of a specimen - cells, tissues or other structures - so that it appears larger. The type of microscope most used in schools is a .

Microscopes magnify the image of a specimen 鈥 cells, tissues of other structures 鈥 so that it appears larger. The type of microscope you have used in the school laboratory is a compound microscope.
Figure caption,
The components of a light microscope and their functions

Calculating the magnification of a compound microscope

A compound microscope uses two lenses to magnify the specimen - the and an .

In most microscopes, there is a choice of objective lenses to use. can therefore be varied according to the size of the specimen to be viewed and the level of detail required.

The magnification of a lens is shown by a multiplication sign followed by the amount the lens magnifies, eg 脳10.

Magnification of the microscope = magnification of eyepiece 脳 magnification of objective

So, if the magnification of an eyepiece is 脳10 and the objective is 脳4, the magnification of the microscope is:

magnification of eyepiece 脳 magnification of objective = 10 脳 4 = 40

Question

If the magnification of an eyepiece is 脳10 and the objective is 脳40, what is the magnification of the microscope?

Calculating the magnification of an image

Microscopes use lenses to magnify the image of a so that it appears larger.

The formula to calculate magnification is:

\(\text{magnification} = \frac{\text{size of image}}{\text{real size of object}}\)

The formula shown in a magnification triangle:

A triangle showing how to calculate the magnification of an image