By Michael Lanza
There are only three guarantees in life: death, taxes, and at some point, getting rained on when dayhiking or backpacking. As we all know, wet clothing conducts heat away from your body, making you colder. Staying as dry as possible while on the trail or in camp is key to staying warm in the backcountry when the weather turns wet—especially in temperatures below around 60° F and in wind, which swiftly chills your body. This article will help you enjoy a much more comfortable and pleasant backcountry adventure—even when the weather doesn’t cooperate.
Trekkers on Besseggen Ridge in Norway’s Jotunheimen National Park.
” data-image-caption=”Jasmine and Jeff Wilhelm trekking through rain on Besseggen Ridge in Jotunheimen National Park.
” data-medium-file=”https://i0.wp.com/thebigoutside.com/wp-content/uploads/2015/01/Nor1-032-Besseggen-Ridge-Jotunheimen-NP-Norway1.jpg?fit=199%2C300&ssl=1″ data-large-file=”https://i0.wp.com/thebigoutside.com/wp-content/uploads/2015/01/Nor1-032-Besseggen-Ridge-Jotunheimen-NP-Norway1.jpg?fit=425%2C640&ssl=1″ decoding=”async” width=”425″ height=”640″ src=”https://i0.wp.com/thebigoutside.com/wp-content/uploads/2015/01/Nor1-032-Besseggen-Ridge-Jotunheimen-NP-Norway1.jpg?resize=425%2C640&ssl=1″ alt=”Trekkers on Besseggen Ridge in Norway’s Jotunheimen National Park.” class=”wp-image-11207″ srcset=”https://i0.wp.com/thebigoutside.com/wp-content/uploads/2015/01/Nor1-032-Besseggen-Ridge-Jotunheimen-NP-Norway1.jpg?w=425&ssl=1 425w, https://i0.wp.com/thebigoutside.com/wp-content/uploads/2015/01/Nor1-032-Besseggen-Ridge-Jotunheimen-NP-Norway1.jpg?resize=199%2C300&ssl=1 199w, https://i0.wp.com/thebigoutside.com/wp-content/uploads/2015/01/Nor1-032-Besseggen-Ridge-Jotunheimen-NP-Norway1.jpg?resize=200%2C301&ssl=1 200w” sizes=”(max-width: 425px) 100vw, 425px” data-recalc-dims=”1″ />Jasmine and Jeff Wilhelm hiking Besseggen Ridge in Norway’s Jotunheimen National Park.
Many hikers mistakenly assume that all one needs to do when caught hiking in the rain is don a rain jacket—and sometimes, that is all you have to do. But in mild temperatures, even a high-quality waterproof-breathable shell can cause you to overheat and sweat a lot—especially when walking uphill and carrying a pack—making you wet from the inside rather than the outside.
The key to staying as warm and dry as possible while hiking is learning the strategies for balancing your body’s heat production with the ambient weather conditions and your clothing layers.
I’ve walked through countless downpours and long days of rain over three decades of dayhiking, backpacking, and climbing from the rainforests of the North Cascades and Olympic National Park to the Wind River Range (lead photo at top of story), High Sierra, New England, the Tour du Mont Blanc, Norway, Iceland, New Zealand and many other places—formerly as the Northwest Editor of Backpacker magazine for 10 years and even longer running this blog.
After that many trail miles in miserably wet weather, you either learn some tricks for staying dry or you give this stuff up, and I couldn’t give it up.
The 10 simple tips below will help you stay dry and warm through the wettest adventures. Please share any tips of your own or your questions in the comments section at the bottom of this story; I try to respond to all comments.
Click on any photo in this story to read about that trip.
Hi, I’m Michael Lanza, creator of The Big Outside. Click here to
Did you miss our previous article…
Starship | Second Flight Test
On November 18, 2023, Starship successfully lifted off at 7:02 a.m. CT from Starbase on its second integrated flight test.
While it didn’t happen in a lab or on a test stand, it was absolutely a test. What we did with this second flight will provide invaluable data to continue rapidly developing Starship.
The test achieved a number of major milestones, helping us improve Starship’s reliability as SpaceX seeks to make life multiplanetary. The team at Starbase is already working final preparations on the vehicles slated for use in Starship’s third flight test.
Congratulations to the entire SpaceX team on an exciting second flight test of Starship!
Follow us on X.com/SpaceX for continued updates on Starship’s progress
Did you miss our previous article…
For its Final Trick, Chandrayaan-3 Brings its Propulsion Module to Earth Orbit
On August 23, ISRO’s Vikram lander detached from its propulsion module and made a soft landing near the Moon’s south pole region. The lander then deployed its Pragyan rover, and for two weeks the endearing little solar-powered rover performed marvelously, detecting water ice and characterizing the makeup of the lunar regolith before succumbing to the darkness and cold of the lunar night.
But since the rover mission ended, the propulsion module that brought it to the Moon has made a detour, performing a series of complex maneuvers that took it from a tight lunar orbit back to Earth orbit. This was possible because the module still had more than 100 kg of fuel, allowing scientists to conduct additional maneuvers and experiments.
Right now, the propulsion module (PM) is orbiting Earth at an altitude of 115,000 km (71,500 miles), well above geostationary orbit. ISRO said the mission team decided to use the available fuel in the propulsion module to derive additional information for future lunar missions. More specifically, this demonstration gave them the chance to test mission operation strategies for a future sample return mission.
A graphic of the Chandrayaan-3 lander separating from the propulsion module. Credit: ISRO.
The PM has had a busy and productive mission. While in lunar orbit for about a month, it wasn’t just taking it easy. After the separation of the lander, the PM operated an on-board experiment, the Spectro-polarimetry of HAbitable Planet Earth (SHAPE) payload, designed to observe the Earth. Specifically, this instrument also provided scientists and engineers experience for future missions and research as its purpose was to study habitable planet-like features of Earth. These observations will be used by ISRO for future studies of exoplanets. Additionally, there was a special operation of the SHAPE payload on October 28, 2023 during the solar eclipse.
But because the spacecraft had such a precise orbit injection and optimal burn maneuvers, the amount of leftover fuel meant the engineers could do even more with the PM than originally expected. The PM was commanded to execute an orbit-raising maneuver at the Moon and then perform a Trans-Earth injection burn, which placed the PM in an Earth-bound orbit.
ISRO said the first orbit raising maneuver at the Moon was performed on October 9, 2023 to raise apolune altitude to 5,112 km from 150 km. The Trans-Earth injection (TEI) maneuver was performed on October 13, 2023, and as its orbit was slowly raised, the PM made four Moon flybys before departing Moon on November 10.
Currently, propulsion module is orbiting Earth with an orbital period of nearly 13 days, at 27 degrees inclination. Because of this high orbit, ISRO said there is no threat of close approach with any operational Earth orbiting satellites.
ISRO said these extra operations allowed them to plan and execute trajectory maneuvers to return from Moon to Earth, as well as develop software to plan and validate the maneuvers. They also planned and executed a gravity assisted flyby between two celestial bodies and, most notably they avoided an uncontrolled crash into the Moon’s surface at the end of the life of PM, which met the requirements of creating no debris on the Moon.
Will its current high geostationary orbit be the Chandrayaan-3 PM’s final trick? Who knows? The resourceful engineers might figure out another way to make use of this multi-purpose spacecraft.
The post For its Final Trick, Chandrayaan-3 Brings its Propulsion Module to Earth Orbit appeared first on Universe Today.
In 1872, a Solar Storm Hit the Earth Generating Auroras from the Tropics to the Poles
Imagine a solar storm generating auroral displays across the entire sky. No, we haven’t quite seen them that strong in the current solar cycle. But, back in February 1872, people around the world reported seeing brilliant northern and southern lights. The culprit? A medium-sized sunspot group that unleased a torrent of charged particles in a coronal mass ejection directed toward Earth.
As with strong space weather storms today, the long-ago event not only sent aurorae dancing across most of Earth’s skies, but it disrupted technology. It affected telegraph communications on the submarine cable in the Indian Ocean between Bombay (Mumbai) and Aden for hours. Similar disturbances were reported on the landline between Cairo and Khartoum. That presaged the damage that such storms can do to today’s power grids and satellite communications.
Nowadays scientists know quite a bit more about the solar activity that causes these storms. Back in those days, however, solar science was still in its infancy. We didn’t have globe-girdling, interconnected communications systems. And, then as now, extremely strong solar storms were relatively rare, but they could still do damage. Today, we are well aware of the threat to modern technologies. Strong solar storms can shut down power stations, stop communications, threaten the world’s financial and trade systems, and harm life. “The longer the power supply could be cut off, the more society, especially those living in urban areas, will struggle to cope,” said Hisashi Hayakawa, the lead author of a group studying ancient solar storms. “Could we maintain our life without such infrastructure? Well, let us just say that it would be extremely challenging.”
Studying an Ancient Solar Storm
The 1872 solar event was named the Chapman-Silverman storm. Recently, an international team of 22 scientists, led by Hayakawa at Nagoya University in Japan, Edward Cliver at the US National Solar Observatory, and Frédéric Clette of the Royal Observatory of Belgium studied it in great detail. Their tools were historical records coupled with modern techniques to assess the Chapman-Silverman storm from its origins on the Sun to its impact on our planet.
Sketches by Italian astronomer Angelo Secchi (Pontifical Gregorian University). The top shows the disk of the Sun, and the lower images show the 1872 sunspot group in more detail. Courtesy Osservatorio Astronomico di Roma.
How do you go about finding records for a storm that far back? First, you look at sunspot records. People have long sketched sunspot groups and records go back quite far. The team scoured Belgian and Italian records of sunspots during the period. For terrestrial impacts, they used geomagnetic field measurements recorded in places as diverse as Bombay (Mumbai), Tiflis (Tbilisi), and Greenwich. Those gave them insight into the temporal evolution and intensity of the storm. Finally, they examined hundreds of accounts of visual aurorae caused by the storm, written in different languages.
A Japanese drawing of the aurorae triggered by the 1872 solar event. Courtesy Shounji Temple.
“Our findings confirm the Chapman-Silverman storm in February 1872 as one of the most extreme geomagnetic storms in recent history. Its size rivaled those of the Carrington storm in September 1859 and the NY Railroad storm in May 1921,” Hayakawa said. “This means that we now know that the world has seen at least three geomagnetic superstorms in the last two centuries.
Did you miss our previous article…
M Brand17 hours ago
Discover Natural Remedies For Enlarged Prostate vs Pharmaceuticals
M Brand4 days ago
Discover The Benefits Of Improving Problem Solving Skills In Everyday Life
Baller Awards6 days ago
Hollywood Creative Alliance Renames Award Shows to Astra Awards
Travel4 days ago
Tips for Solo Female Travel in Sri Lanka
EDM7 days ago
DJ Snake Announces Final Show At Stade De France In 2025
Frontier Adventure4 days ago
Europa Clipper Could Help Discover if Jupiter’s Moon is Habitable
Grooming4 days ago
ONE Cologne Men Should Buy? Jeremy Fragrance Recommendations
Baller Awards4 days ago
FIFA Men’s World Rankings December 2023: Top 20 Nations