Battle of Honey Springs

Mount Harvard is the third highest summit of the Rocky Mountains of North America and the U.S. state of Colorado. The prominent 14,421-foot (4395.6 m) fourteener is the highest summit of the Collegiate Peaks and the fourth highest summit in the contiguous United States. Mount Harvard is located in the Collegiate Peaks Wilderness of San Isabel National Forest, 11.7 miles (18.9 km) northwest by west (bearing 304°) of the Town of Buena Vista in Chaffee County, Colorado, United States. The summit of Mount Harvard is the highest point in Chaffee County and is higher than any point in the United States east of its longitude. The mountain was named in honor of Harvard University.[1][a][2][3]

History

Mount Harvard was named in 1869 by members of the first Harvard Mining School class, while on expedition with professor Josiah Dwight Whitney, the namesake of Mount Whitney. The same group named the peak next to Harvard Mount Yale, after Whitney's alma mater. The group climbed Yale first, and estimated that it was over 14,000 feet in height. On August 19, 1869, the first recorded ascent of Harvard was made by expedition members S. F. Sharpless and William M. Davis. Harvard and Yale were the first 14,000 foot mountains in the Sawatch range to be named after universities. Later, nearby mountains were named for Princeton, Columbia, and Oxford, leading to the name "Collegiate Peaks" for this part of the Sawatch Range.

The pole

In 1962, three Harvard men attempted to erect a fourteen-foot metal pole on the top of Harvard, with a sign that read "Mt. Harvard, 14,434. This sign erected at an altitude of 14,434 making it the second highest point in the contiguous United States." Before they could reach the top of the mountain darkness set in, and the group was forced to abandon the pole a few hundred yards short of the summit. The next year, two Harvard men (Tim Wirth, who later represented Colorado's Second Congressional District and then served a term in the U.S. Senate, and his brother John), along with a Cornell graduate carried the pole the extra distance, and completed the task. The pole sat on the mountain for roughly twenty years, until it disappeared at some time in the 1980s, most likely as part of an effort to clean up Colorado's fourteeners.

Climate

Climate data for Mount Harvard (CO) 38.9270 N, 106.3170 W, Elevation: 13,970 ft (4,260 m) (1991–2020 normals)
Month Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Year
Mean daily maximum °F (°C) 21.2
(−6.0)
20.5
(−6.4)
25.3
(−3.7)
30.4
(−0.9)
39.2
(4.0)
50.9
(10.5)
56.2
(13.4)
54.2
(12.3)
48.2
(9.0)
38.2
(3.4)
27.7
(−2.4)
21.5
(−5.8)
36.1
(2.3)
Daily mean °F (°C) 9.4
(−12.6)
8.4
(−13.1)
13.1
(−10.5)
17.4
(−8.1)
26.1
(−3.3)
36.6
(2.6)
42.0
(5.6)
40.6
(4.8)
34.8
(1.6)
25.4
(−3.7)
16.4
(−8.7)
10.0
(−12.2)
23.3
(−4.8)
Mean daily minimum °F (°C) −2.4
(−19.1)
−3.7
(−19.8)
0.1
(−17.7)
4.4
(−15.3)
13.0
(−10.6)
22.2
(−5.4)
27.9
(−2.3)
27.1
(−2.7)
21.3
(−5.9)
12.7
(−10.7)
5.0
(−15.0)
−1.4
(−18.6)
10.5
(−11.9)
Average precipitation inches (mm) 3.17
(81)
3.32
(84)
3.81
(97)
4.36
(111)
3.07
(78)
1.40
(36)
2.78
(71)
3.02
(77)
2.35
(60)
2.69
(68)
3.12
(79)
3.16
(80)
36.25
(922)
Source: PRISM Climate Group[5]

See also

Notes

  1. ^ The elevation of Mount Harvard includes an adjustment of +2.084 m (+6.84 ft) from NGVD 29 to NAVD 88.

References

  1. ^ a b c "HARVARD". NGS Data Sheet. National Geodetic Survey, National Oceanic and Atmospheric Administration, United States Department of Commerce. Retrieved December 31, 2015.
  2. ^ a b c d e "Mount Harvard, Colorado". Peakbagger.com. Retrieved December 31, 2015.
  3. ^ a b "Mount Harvard". Geographic Names Information System. United States Geological Survey, United States Department of the Interior. Retrieved November 14, 2014.
  4. ^ "Mt. Harvard Routes". 14ers.com.
  5. ^ "PRISM Climate Group, Oregon State University". PRISM Climate Group, Oregon State University. Retrieved October 9, 2023. To find the table data on the PRISM website, start by clicking Coordinates (under Location); copy Latitude and Longitude figures from top of table; click Zoom to location; click Precipitation, Minimum temp, Mean temp, Maximum temp; click 30-year normals, 1991-2020; click 800m; click Retrieve Time Series button.

External links