Free climbing

For climbing without partner with protection, see Solo climbing. For climbing without protection or partner (with only shoes, clothing, and helmet), see Free solo climbing.

‘Free climbing’ is a general term for a form of rock climbing in which the climber utilizes climbing equipment such as ropes and other means of climbing protection, but only to protect against injury during falls and not to assist progress. Free climbing more specifically may include solo climbing, traditional climbing, sport climbing and bouldering.

Free climbing should not be confused with aid climbing, in which specific aid climbing equipment is also used to assist the climber in ascending the climb. The term free climbing originally meant "free from aid".[1]

Methods and techniques

In lead climbing, a climber climbs a route from the ground up. For protection against a fall, the lead climber trails a rope which is managed by a belayer who remains on the ground or at an established anchor. As the leader climbs, he either places traditional protection such as cams and stoppers, or clips his rope through pre-placed bolted hangers or fixed anchors. The belayer feeds rope to the lead climber through a belay device, keeping a minimum amount of slack in the system, and keeping himself ready to catch the leader in case of a fall. The leader climbs until the top is reached, and he can then belay the following climber from above.

Both climber and belayer attach the rope to their climbing harnesses. The rope is tied into the climber's harness with a figure-of-eight loop or double bowline knot. The leader either places their own protection or clips into permanent protection already attached to the rock. In traditional climbing, the protection generally is removable. However, many significant first ascents in the U.S. done with a combination of crack gear and bolts placed on lead were termed "traditional" at the time (see below discussion). Usually nuts or spring-loaded camming devices (often referred to as "cams" or "friends") are set in cracks in the rock (although pitons are sometimes used). In sport climbing the protection is metal loops called hangers. Hangers are secured to the rock with either expanding masonry bolts taken from the construction industry, or by placing glue-in bolt systems. In ice climbing the protection is made-up of ice screws or similar devices hammered or screwed into the ice by the leader, and removed by the second climber.

The lead climber typically connects the rope to the protection with carabiners or quickdraws. If the lead climber falls, they will fall twice the length of the rope from the last protection point, plus rope stretch (typically 5% to 8% of the rope out), plus slack. If any of the gear breaks or pulls out of the rock or if the belayer fails to lock off the belay device immediately, the fall will be significantly longer. Thus if a climber is 2 meters above the last protection he will fall 2 meters to the protection, 2 meters below the protection, plus rope stretch (typ., 0.10–0.16 m) and slack, for a total fall of over 4 meters.

If the leader falls, the belayer must arrest the rope to stop the fall. To achieve this the rope is run through a belay device attached to the belayer's harness. The belay device runs the rope through a series of sharp curves that, when operated properly, greatly increases friction and stops the rope from running. Some of the more popular types of belay devices are the ATC Belay Device, the Figure 8 and various auto-locking belay devices such as the Petzl Gri-Gri.

If the route being climbed is a multi-pitch route the leader sets up a secure anchor system at the top of the pitch, also called a belay, from where s/he can belay as his/her partner climbs. As the second climber climbs, he/she removes the gear from the rock in case of traditional climbing or removes the quickdraws from the bolts in the case of sport climbing. Both climbers are now at the top of the pitch with all their equipment. Note that the second climber is protected from above while climbing, but the lead climber is not, so being the lead climber is more challenging and dangerous. After completing the climb, and with both climbers at the top of the pitch, both climbers must rappel or descend the climb in order to return to their starting point, or top out and walk off. All climbs do not necessarily require the lead climber to belay the second climber from the top. The belayer could lower the lead climber down after he/she has completed a single pitch route.

Style

Main article: Climbing style

There are no rules per se to free climbing, beyond showing respect for the rock and for other climbers.

Over the years, as climbing has become more popular and climbers more skilled, an entire generation of aficionados has been spawned from and with the ethics of climbing gyms and sport climbing. These climbers now share the rocks in some places with traditionally-trained adherents.

In the newer generation as in previous ones, certain new conventions have emerged as the state of the art changes. Conventions aren't universal: in fact, many older and/or more traditionally oriented climbers may ignore or actively disdain certain newer conventions, and the reverse is true as well: The more traditional values may be regarded as irrelevant, antique or "un-fun" by those who have different experience, goals and cultural identity.

While sport climbers are more likely than traditional climbers to frequently attempt routes that are too hard to successfully ascend on the first try, and repeat until successful, both cultures value positively:

As matters of style, any of the following are likely to be regarded similarly by most free climbers across the various cultures. Generally, the following diminish the perception of "good style":

Common misunderstandings of the term

While clear in its contrast to aid climbing, the term free climbing is nonetheless prone to misunderstanding and misuse.

The two most common errors are:

References

  1. Bachar, John; Boga, Steven (1996). Free Climbing With John Bachar. Stackpole Books. p. 1. ISBN 9780811725170.

Bibliography

Further reading

This article is issued from Wikipedia - version of the 11/29/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.