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Warm Offices Boost Productivity

Posted by michael on from the turn-down-the-frigging-air-conditioning dept.

bluelip writes "It looks like the real reason for offshoring is corporations looking for warmer weather. Instead of paying the energy bills to crank up the heat in the office to a more productive temperature, the offices are moving to warmer areas. This article shows a 44% error reduction and 150% increase in productivity for those working in warmer offices. Will this increase in output be enough to convince my boss to pay for us to vacation-commute from a tropical island?"

7 of 520 comments (clear)

  1. Too warm? by Tomahawk · · Score: 4, Informative

    68F = 20C
    77F = 25C
    (for those of use that use Celcius)

    25C/77F is very warm. I prefer to work around 21C/70F. Any warmer than that and I'd be falling asleep. Certainly /my/ productivity goes way down when I'm asleep.

    T.

    1. Re:Too warm? by Tomahawk · · Score: 4, Informative

      Google does that all for you do.

      Do a Google search for
      'convert 77F to C'

      And it will convert almost everything as well.

      T.

    2. Re:Too warm? by Frnknstn · · Score: 4, Informative

      They did, RTFA.

      The only type of 'work' they tested was typing. This does cause one to question the validity of the sweeping productivity statements made.

      Still, I definately work best at around 25deg C. The freezing office I work in makes my fingers to stiff to type properly.

      --
      If it's in you sig, it's in your post.
  2. This is old news by sckienle · · Score: 5, Informative

    From Article: When the office temperature in a month-long study increased from 68 to 77 degrees Fahrenheit, typing errors fell by 44 percent and typing output jumped 150 percent.

    This is a well-known phenomenon, first seen in the Hawthorne studies. One of the first productivity studies was in a factory where the researcher first reduced the light, and productivity increased; then the researcher increased the light, and productivity still increased. The end result is that worker productivity increased indirectly merely by changing the work environment.

    Maybe that's why we keep getting reorganized....

    --
    I don't see things in black and white; I see the gray. Heck, I actually see in color, which makes things more difficult
  3. Re:Warm??? by strictfoo · · Score: 5, Informative

    Women, on average, have a slower metabolism than men. This is due to them having a higher, on average, percentage of body fat (due to the natural features that women have). Thus, women produce less heat than men, on average, and like their environment to be slightly warmer.

    There is nothing wrong with pointing out the phyiscal differences between sexes.

    I have never worked at a company where there was an issue with men turning the heat up, which causes discomfort for others, just because they were a little too cold.

    --
    I've just signed legislation that'll outlaw Russia forever. We'll begin bombing in five minutes.
  4. Re:Warm??? by blackmonday · · Score: 4, Informative

    The funniest thing about that? Most office thermostats are placebos.

  5. 21 Celcius or 70 farenheit is optimal by SergeyKurdakov · · Score: 4, Informative

    just before reading the article as far as I know not such warm climate is optimal :) see http://www.usaweekend.com/00_issues/000116/000116b iology.html

    Pay attention to air quality. Cool, dry air, especially on your face, helps keep you alert, while heat and humidity make you drowsy. Studies show that mental performance, such as rule-based logical thinking, can be reduced by 30% at temperatures not even warm enough to cause sweating. So keep the room at 70 degrees, the average optimum temperature for mental work in the United States. (Not everybody shares the same optimal temperature -- some are "cold-blooded"; others are "hot-blooded" -- so you may need to adjust up or down.)

    see also http://schoolstudio.engr.wisc.edu/energysmartschoo ls.html

    Optimal Thermal Conditions Thermal comfort has been shown to influence task performance, attention spans and levels of discomfort. In general, historical empirical studies going back 50 years have indicated that temperatures above 80 degrees F tend to produce harmful physiological effects that decrease work efficiency and output (McGuffy, 1982). Thermal conditions are below optimal levels affect dexterity, while higher than optimal temperatures decrease general alertness and increase physiological stress. One researcher (Harner, 1974) when reviewing optimal temperature levels for the performance found that reading and mathematical skills were adversely affected by temperatures above 74 degrees F. Reading speed and comprehension were most affected by temperature. A significant reduction in reading speed and comprehension occurred between 73.4 degrees F and 80.6 degrees F. This researcher also found that achievement is mathematical operations such as multiplication, addition and factoring have been shown to be significantly reduced by air temperatures above 77 degrees F.