The Kibo Peak volcanic cone, renamed Uhuru Peak upon Tanzania's independence in 1964, of Mt. Kilimanjaro is the highest point in Africa, and at 5895m, the entire mountain itself is the highest free-standing mountain in the world. The other two cones, Mawenzi and Shira, are 11km and 16km from the summit, and linked by a number of trails. Though Uhuru Peak can be reached simply by walking, hikers regularly underestimate the effects of cold and altitude, and attempt the round trip in much less than the recommended 7-8 days.
The Explorer series of TinyMtn models is designed to break our usual impression of mountains. We generally see mountains one at a time, from a distance, and from the ground. While all TinyMtn models give you a fresh perspective on any one peak, the Explorer series presents mountains in identical scale, and shifted up so that sea level is at the bottom of the base. Thus, when you set two Explorer models next to each other, you will immediately notice which is taller, which rises more from its base, which is more massive, and so on. Plus, all Explorer models come in full color, making them just that much more realistic.
Model scale is 1:250000
Model measures 13.1 x 13.1 x 2.4 cm (5.2" x 5.2" x 0.93")
Original area is approximately 33 by 33 km
Altitudes covered: 1208m to 5895m
There is no vertical exaggeration applied to this model. This is a true-to-life scale model of a real place.
for more sizes.
for other 1:250000 models in the Explorer series.
TinyMtn models are most affordable in the "Sandstone" and "White Natural Versatile Plastic" materials. This model is in "Sandstone," which is a glued gypsum material. When you receive the model it will be ready for display, though it may smell funny and need some time to air out. "Sandstone" models are much more brittle than "Versatile Plastic" models, but feel more like light stone. Do not soak it in water, though you can safely seal it with Polycrylic or a similar water-based clear spray sealant. Read more about this popular material here
All TinyMtn models have hollow bottoms - this is to save on weight, and thus cost. Many larger models also have extra flanges on their undersides to increase rigidity and strength. To make the model more solid, you should feel free to carefully pour resin into the bottom cavity, or glue a properly-sized slab of wood or another material into it.
These models have been optimized for the above materials, and are not offered in other materials for strength or cost reasons. If you need one in another material, please email@example.com
and we'll do our best to fulfill your request.
(C) 2018 TinyMtn (TM)
Model created using GDAL, NetPBM, Gmsh, Carve, MeshLab, and other custom software
J. Takaku, T. Tadono, K. Tsutsui : Generation of High Resolution Global DSM from ALOS PRISM, The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, pp.243-248, Vol. XL-4, ISPRS TC IV Symposium, Suzhou, China, 2014. [PDF file]
T. Tadono, H. Ishida, F. Oda, S. Naito, K. Minakawa, H. Iwamoto : Precise Global DEM Generation By ALOS PRISM, ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences, pp.71-76, Vol.II-4, 2014. [PDF file] https://doi.org/10.5069/G94M92HB
Data Access Acknowledgement: This material is based on data services provided by the OpenTopography Facility with support from the National Science Foundation under NSF Award Numbers 1226353 & 1225810
Contains modified Copernicus Sentinel data from 2016
Copernicus Open Access Hub is https://scihub.copernicus.eu/dhus