Mount Mystery

Mount Mystery is a prominent 7,639-foot (2,328-metre) mountain summit located in the Olympic Mountains in Jefferson County of Washington state. It is located within Olympic National Park on the Olympic Peninsula. Mount Mystery is the sixth-highest peak of the Olympic Mountains, after Mount Olympus, Mount Deception, Mount Constance, Mount Johnson, and Inner Constance.[3] Its nearest higher neighbor is Mount Deception, 1.32 mi (2.12 km) to the north-northwest. Little Mystery (6941 ft) is a subsidiary summit south of Mount Mystery.

Mount Mystery
Mount Mystery's west face
Highest point
Elevation7,639 ft (2,328 m)[1]
Prominence1,119 ft (341 m)[1]
Isolation1.32 mi (2.12 km)[2]
Coordinates47°47′45″N 123°13′17″W[1]
Geography
Mount Mystery
Location of Mount Mystery in Washington
Mount Mystery
Mount Mystery (the United States)
LocationOlympic National Park
Jefferson County, Washington, US
Parent rangeOlympic Mountains
Topo mapUSGS Mount Deception
Geology
Age of rockEocene
Type of rockTilted pillow Basalt
Climbing
Easiest routeclass 3 scrambling[2]

Mount Mystery is located in the eastern portion of the Olympic Mountains just south of Mount Deception at the headwaters of Deception Creek. This location puts it in the rain shadow of the Olympic Range, resulting in far less precipitation than Mount Olympus and the western Olympics receive.

Mount Mystery sits on the boundary between the drainage basins of the Dungeness River, to the north, and the Dosewallips River to the east. Deception Creek, a tributary of the Dosewallips River, drains the east and west slopes of Mount Mystery, including a small melting glacier on the east side referred to colloquially as Mystery Glacier.

Mount Mystery was given its name circa 1915 by G.A. Whitehead of the U.S. Forest Service because he admired its regal appearance in foggy weather.[4]

Climate

Mystery from Deception

Based on the Köppen climate classification, Mount Mystery is located in the marine west coast climate zone of western North America.[5] Most weather fronts originate in the Pacific Ocean, and travel northeast toward the Olympic Mountains. As fronts approach, they are forced upward by the peaks of the Olympic Range, causing them to drop their moisture in the form of rain or snowfall (Orographic lift). As a result, the Olympics experience high precipitation, especially during the winter months in the form of snowfall. Because of maritime influence, snow tends to be wet and heavy, resulting in high avalanche danger. During winter months, weather is usually cloudy, but, due to high pressure systems over the Pacific Ocean that intensify during summer months, there is often little or no cloud cover during the summer. The months July through September offer the most favorable weather for viewing and climbing this mountain.

Geology

The Olympic Mountains are composed of obducted clastic wedge material and oceanic crust, primarily Eocene sandstone, turbidite, and basaltic oceanic crust.[6] The mountains were sculpted during the Pleistocene era by erosion and glaciers advancing and retreating multiple times.

Recreation

While not a particularly technical climb, Mount Mystery is steep and exposed. If a climber falls and does not arrest immediately, loose rock and rotten snow may make it difficult to stop falling for some distance. The nearby Needles are typically regarded as providing better, and somewhat more difficult, mountaineering objectives in the Royal Basin area.

gollark: Now, arguably you "shouldn't" and that's "awful" and "you don't need to abstract everything".
gollark: ```rust if stack.len() < 2 { eprintln!("DOMAIN ERROR"); } else { let a = stack.pop().unwrap(); let b = stack.pop().unwrap();```I think you could abuse option combinators for this instead, though.
gollark: Apart from the `unwrap`s this seems reasonable.
gollark: How rustaceoformic.
gollark: <@356107472269869058> How has your rustaceoformic programming gone?

References

  1. "Mount Mystery". Peakbagger.com.
  2. "Mystery, Mount - 7,639' WA". listsofjohn.com. Retrieved 2020-06-14.
  3. "Olympic Mountains". Peakbagger.com.
  4. Parratt, Smitty (1984). Gods and Goblins: A Field Guide to Place Names of Olympic National Park (1st ed.).
  5. Peel, M. C.; Finlayson, B. L. & McMahon, T. A. (2007). "Updated world map of the Köppen−Geiger climate classification". Hydrol. Earth Syst. Sci. 11: 1633–1644. ISSN 1027-5606.
  6. Alt, D.D.; Hyndman, D.W. (1984). Roadside Geology of Washington. pp. 249–259. ISBN 0-87842-160-2.
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