- 4Table of Contents
- 6Safety Precautions
- 6English
- 11German
- 15French
- 19Spanish
- 23Italian
- 28Dutch
- 32Danish
- 36Portuguese
- 40Finnish
- 44Greek
- 46Notes On Handling the System
- 48Chapter 1 Nomenclature of Each Part
- 50Chapter 2 Switches and Controls
- 52Chapter 3 a Quick Microscopic Procedure
- 54Adjust the Diopter
- 56Chapter 4 Microscopy (Detailed Procedure)
- 56Interpupillary Distance
- 60Aperture Diaphragm Adjustment
- 61Adjusting the Aperture Diaphragm
- 64Chapter 5 Miscellaneous Operations
- 64Oil-Immersion Observation
- 66Adjusting the Torque of the Coarse Focus Knob
- 66Upper Limit Bolt
- 67Eye Level Raiser
- 67Photomicrography and TV Microscopy
- 68ND Filter for the Objective
- 69Cord Hangers
- 70Chapter 6 Assembly
- 70Assembly of Standard Set
- 71Connecting the Power Cord
- 72Assembly of Additional Components
- 72Condenser
- 73Objectives
- 73Specimen Holder
- 73Eyepiece and Eyepiece Pointer
- 73Other Accessories
- 74Replacement of Consumable Materials
- 74Replacing the Lamp
- 76Replacing the Fuse
- 77Chapter 7 Optical Characteristics
- 79Chapter 8 Troubleshooting Tables
- 86Chapter 9 Care and Maintenance
- 87Chapter 10 Technical Specifications
Taking apart a microscope helps you discover all the important optical components and get a better understanding of how things work. It is not always practical to do this yourself, therefore, have a look at this video to see the internals of the Nikon Ti Eclipse microscope. June 21, 2001 total solar eclipse, Chisamba, Zambia. Nikon N90s, Vixen 90mm Refractor f/9. Composite shows the various phases of the eclipse. The central image of the corona during totality is a composite of 22 negatives which reveal subtle details and structures in the Sun's atmosphere.