Accession No
0556
Brief Description
compound microscope, side pillar type, by J. Dollond and Son, English, 1758 - 1761
Origin
England; London
Maker
J. Dollond and Son
Class
microscopes
Earliest Date
1758
Latest Date
1761
Inscription Date
Material
wood (beech, mahogany); glass; metal (brass); paper (card, cardboard); fishskin (shagreen); ivory
Dimensions
height 361mm; depth 168mm; breadth 168mm; box side of base 205mm; height 397mm
Special Collection
Robert Whipple collection
Provenance
Purchased from T. Middegails, Paris, in 05/1929.
Inscription
‘J. Dollond & Son London’
Description Notes
Square [beech] foot with mahogany veneer; drawer in foot; swinging mirror on brass foot; pillar with rectangular section and scroll brace; cruciform stage with fitting for frog plate; socket at top of pillar for optic body with clamp and fine focus screw with knurled head; optic body with cylindrical snout marked ‘2-6’, screw fit to field lens collar, screw fits to eyepiece with sliding cover.
Six objectives, ‘1-6’; spring stage; lieberkuhn with sliding tube; stage forceps (mount only); talc and ring box; wheel of stops made of card; black ring; cardboard slip case covered with black shagreen containing four 4-object ivory slides. Box.
References
Events
Description
This type of microscope was first designed by Henry Baker, a microscopist, and John Cuff, an instrument maker, in 1743. By mounting the stage on a side pillar the instrument became easier to use, with the operating parts much more accessible than in previous designs. The focus was controlled by a finely tuned screwthread, and was thus made far more accurate.
More on compound microscopes
The compound microscope was developed during the 17th Century and was closely related to the refracting telescope. Its popularity increased after the publication in 1665 of Robert Hooke’s (1635-1703) Micrographia. Micrographia contained detailed pictures, never before seen, of insects magnified using a compound microscope.
A compound microscope uses two or more lenses. The lenses are held at certain distances from each other and are mounted inside a rigid tube. The tube was usually made from pasteboard, ivory, or most commonly, brass. The basic compound microscope magnifies an image in two stages -
Stage one: Light from a mirror is reflected up through the specimen into a powerful objective lens.
Stage two: The image produced by the objective lens is magnified again by the eye lens, which works like a simple magnifying lens.
The first compound microscope consisted of a simple barrel which would have been held up to the light. Later developments ensured that the compound microscope had a stable base, usually a brass stand and a side pillar.
In the 17th Century, the compound microscope had some serious drawbacks which made it easier to use a simple microscope (which have only one lens) instead. The image produced by a compound microscope was often affected by two types of aberration, known as chromatic and spherical. These aberrations caused blurring to the image (spherical) and the edge of the specimen to colour (chromatic). Chromatic aberration was removed at the end of the 18th Century by Harmanus van Deijlan, an instrument maker in Amsterdam. In 1830, spherical aberration was overcome by Joseph Lister who developed the achromatic lens. Achromatic lenses became widely used in microscopes in the 1850s and are still used today.
Created by: Corrina Bower
FM:42779
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