著者
松岡 武史 佐々木 大輔 藤岡 潤 泉野 浩嗣 加藤 亨
出版者
公益社団法人 日本工学教育協会
雑誌
工学教育 (ISSN:13412167)
巻号頁・発行日
vol.66, no.4, pp.4_45-4_51, 2018 (Released:2018-07-27)
参考文献数
19

Recently, the industrial accidents rate of young unskilled workers is increasing in our country. Therefore, in national institute of technology which produces young engineers, an effective safety and health education for these workers is also desired strongly. Action to collect near-miss incident information is important position in such education. However, the near-miss reporting is not functioning effectively at the majority of national institute of technology because of negative consciousness and lack of understandings about this activity. In this research, we proposed the teaching method about the near-miss reporting using minority influence in order to solve these issues and carried out this method for three years from 2015 at our school. In this paper, we showed that injury accidents and tool breakages decrease as student near-miss reports increase, and safety culture maturity level in the mechanical workshop rises.
著者
谷山 鉄郎 松岡 武 長屋 祐一 小林 尚文
出版者
日本生物環境工学会
雑誌
植物工場学会誌 (ISSN:09186638)
巻号頁・発行日
vol.6, no.4, pp.215-224, 1994

An automatic fogculture system for year-round rice production was developed. Its purpose was to reduce natural and environmental damages on rice production and farmland. Two rice cultivars, Koshihikari and Harebare, were grown from Mar. 12, 1992 to Aug. 24, 1992. Because the amount of sunlight was decreased to one-third of normal light intensity, growth and development of the two cultivars was very uneven. Yield of Koshihikari which was the better developed of the two, was 808 kg/10a. The yield of Harebare, which did not grow well, was 23 kg/10a. If this system was given enough sunlight and had a controlled temperature, a higher yield may be possible.
著者
末松 大二郎 松岡 武夫
出版者
一般社団法人 日本物理学会
雑誌
日本物理学会誌 (ISSN:00290181)
巻号頁・発行日
vol.43, no.8, pp.586-593, 1988-08-05 (Released:2008-04-14)
参考文献数
4

四つの力ならびに物質と時空とを統一する理論として最近注目を集めている超弦理論と, そこから導かれる低エネルギー有効理論について概括する. 超弦理論は高次元時空において定義されており, 4次元以外の余分な次元の空間がコンパクト化される結果として4次元理論が得られる. 導出される低エネルギー有効理論は, このコンパクト空間の位相構造と密接に関係している. いわゆる標準模型を含むなど, 低エネルギー有効理論として満すべき現実的条件と, コンパクト空間の位相構造との関係や超弦理論の実験的検証の可能性について述べる.