Naismith's rule

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Naismith's rule helps with the planning of a walking or hiking expedition by calculating how long it will take to travel the intended route, including any extra time taken when walking uphill. This rule of thumb was devised by William W. Naismith, a Scottish mountaineer, in 1892. A modern version can be formulated as follows:

Allow one hour for every 3 miles (5 km) forward, plus an additional hour for every 2,000 feet (600 m) of ascent.

Video Naismith's rule

Assumptions and calculations

The original Naismith's rule from 1892 says that men should allow one hour per three miles on the map and an additional hour per 2000 feet of ascent. It is included in one, last sentence of his report from a trip. William W. Naismith was a Scottish mountaineer.

Today it is formulated in many ways. Naismith's 1 h / 3 mi + 1 h / 2000 ft can be replaced by:

• 1 h / 3 mi (5 km) + 1 h / 2000 ft (600 m)
• 1 h / 5 km (3 mi) + 1/2 h / 300 m (1000 ft)
• 3 mph + ½ h / 1000 ft
  5 kph + ½ h / 300 m
• 12 min / 1 km + 10 min / 100 m

The basic rule assumes hikers of reasonable fitness, on typical terrain, and under normal conditions. It does not account for delays, such as extended breaks for rest or sightseeing, or for navigational obstacles. For planning expeditions a team leader may use Naismith's rule in putting together a route card.

It is possible to apply adjustments or "corrections" for more challenging terrain, although it cannot be used for scrambling routes. In the grading system used in North America, Naismith's rule applies only to hikes rated Class 1 on the Yosemite Decimal System, and not to Class 2 or higher.

In practice, the results of Naismith's rule are usually considered the minimum time necessary to complete a route.

When walking in groups, the speed of the slowest person is calculated.

Naismith's rule appears in UK statute law, although not by name. The Adventure Activities Licensing Regulations apply to providers of various activities including trekking. Part of the definition of trekking is that it is over terrain on which it would take more than 30 minutes to reach a road or refuge (by the quickest safe route), based on a walking speed of 5 kilometres per hour plus an additional minute for every 10 metres of ascent.

Maps Naismith's rule

Scarf's equivalence between distance and climb

Alternatively, the rule can be used to determine the equivalent flat distance of a route. This is achieved by recognising that Naismith's rule implies an equivalence between distance and climb in time terms: 3 miles (=15,840 feet) of distance is equivalent in time terms to 2000 feet of climb.

Professor Philip Scarf, Associate Dean of Research and Innovation and Professor of Applied Statistics at the University of Salford, in research published in 2008, gives the following formula:

equivalent distance = x + ?·y

where:

x = horizontal distance

y = vertical distance

? = 7.92 (3 mi / 2000 ft), called Naismith's number by Scarf

That is, 7.92 units of distance are equivalent to 1 unit of climb. For convenience an 8 to 1 rule can be used. So, for example, if a route is 20 kilometres (12 mi) with 1600 metres of climb (as is the case on leg 1 of the Bob Graham Round, Keswick to Threlkeld), the equivalent flat distance of this route is 20+(1.6×8)=32.8 kilometres (20.4 mi). Assuming an individual can maintain a speed on the flat of 5 km/h, the route will take 6 hours and 34 minutes. The simplicity of this approach is that the time taken can be easily adjusted for an individual's own (chosen) speed on the flat; at 8 km/h (flat speed) the route will take 4 hours and 6 minutes. The rule has been tested on fell running times and found to be reliable. Scarf proposed this equivalence in 1998.

As you can see, the Scarf's assumption allows also to calculate the time for each speed, not just one as in case of the original Naismith rule.

Pace

Pace is the reciprocal of speed. It can be calculated here from the following formula:

p = p0·(1 + ?·m)

where:

p = pace

p0 = pace on flat terrain

m = gradient uphill

This formula is true for m>=0 (uphill or flat terrain). It assumes equivalence of distance and climb by applying mentioned earlier ? factor.

Sample calculations: p0 = 12 min / h (for 5 km / h speed), m = 0.6 km climb / 5 km distance = 0.12, p = 12 · (1 + 7.92 · 0.12) = 23.4 min / km.

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Other modifications

Over the years several adjustments have been formulated in an attempt to make the rule more accurate. The simplest correction is to add 25 or 50% to the time predicted using Naismith's rule. While this may be more accurate for some people or under certain conditions, it does not explicitly account for any additional variables. The accuracy of some corrections is disputed by some, in particular the speed at which walkers descend a gentle grade. Other common corrections are:

• When walking on uneven or unstable terrain, allow 1 hour for every 4 kilometres (2.5 mi) forward, instead of 1 hour per 5 kilometres (3.1 mi).
• On a gentle decline (about 5-12°), subtract 10 minutes per 1000 feet of descent. On a steep decline (over 12°), add 10 minutes per 1000 feet of descent.

Tranter's corrections

Tranter's corrections make adjustments for fitness and fatigue. Fitness is determined by the time it takes to climb 1000 feet over a distance of ½ mile (800 m). Additional adjustments for uneven or unstable terrain or conditions can be estimated by dropping one or more fitness levels.

For example, if Naismith's rule estimates a journey time of 9 hours and your fitness level is 25, you should allow 11.5 hours.

Aitken corrections

Aitken (1977) assumes that 1 h takes to cover 3 mi (5 km) on paths, tracks and roads, while this is reduced to 2½ mi (4 km) on all other surfaces.

For both distances he gives an additional 1 h per 2000 ft (600 m) of ascent. So Aitken doesn't take into account equivalence between distance and climb (proposed by Scarf in 1998).

Langmuir corrections

Langmuir (1984) extends the rule on descent. He assumes the Naismith's base speed of 5 km/h and makes the following further refinements for going downhill:

• subtract 10 minutes for every 300 meters of descent for slopes between 5 degrees and 12 degrees
• add 10 minutes for every 300 meters of descent for slopes greater than 12 degrees

Later he says i.e., that fitness of the slowest member of a party should be taken into account and thus more practical for a group is formula:

• 4 kph + 1 h / 450 m of ascent

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See also

• Preferred walking speed
• Tobler's hiking function

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Notes

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References

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External links

• Route choice in mountain navigation, Naismith's rule, and the equivalence of distance and climb, Journal of Sports Sciences vol. 25, pages 719 - 726.
• About walking uphill: time required, energy consumption and the zigzag transition
• Naismith's Rule
• An online calculator and Nomogram
• Naismith's Rule and Route Timing
• Tranter's Correction - is it still relevant?

Source of the article : Wikipedia