Suunto MCA D Mirror Compass IN
- Balanced for northern hemisphere
- Fixed declination correction scale
- Jewel bearing
- Sighting notch
- Mirror lid locks open at various angles (60º, 120º, 180º)
- Inch scale
- Size: 56 x 84 x 15 mm / 2.2" x 3.3" x 0.6" (with the lid closed)
- Weight: 42 g / 1.5 oz
The MC range of mirror compasses from Suunto provides an invaluable tool for those who place a particular premium on accurate and reliable directional measurements; for example surveyors, miners, architects, rescue patrols, hikers, boaters and the military. The declination adjustment system, standard throughout the range, is especially useful when working in areas of large magnetic variation, while the sighting notch provides superior accuracy.
Mechanical compasses have been working as the navigator since several thousands of years. Still today magnetic compass is environmentally friendly, cheap and the most reliable tool when choosing the course. The oldest Suunto field compasses, which are still in use, are manufactured in 1938. A high quality field compass hardly needs any other service than washing in fresh water from time to time. The compass works without any external power supply. The compass gets its power from nature – from the magnetic north pole.
The vertical intensity and direction of the earth's magnetic field, the inclination, influences the horizontal plane of a compass needle according to the latitude where it is used. Due to inclination, compasses must be balanced for different geographical zones in order to keep the needle in a horizontal position. Previously, the globe was divided into five different balance zones in which specific compasses functioned. However, as people travel more and more, the need for a compass with a greater geographical range has increased. Thanks to Suunto's 'Two Zone System' there are only two balance zones to consider in compass use - the northern hemisphere and the southern hemisphere. In practice, this means that a Suunto compass designed for the northern hemisphere will still work for a fair distance into the southern hemisphere, and vice-versa.