Author: Sun Mengyin 1//Li Shengping 1//Meng Guirong 1//Cui Yuanhao 1//Xin Yan 2
Affiliation: Tsinghua University, Beijing, China [1] //Municipal Institute of Traditional Chinese Medicine of Chongqing, Sichuan Province, China [2]
Conference/Journal: 1st World Conf Acad Exch Med Qigong
Date published: 1988
Other:
Pages: 168 , Word Count: 340
To further observe the action capability of 2000 km ultra-distance of the emitted qi on molecules, we have chosen the solution of potassium dichromate with stable chemical quality and examined the change of the sample under the action with an ultraviolet-visible spectrophotometer.
Before the experiment, relevant matters had been discussed with Yan Xin, the qigong master on telephone. On the afternoon of March 8, 1988, the K[sub 2]Cr[sub 2]0[sub 7] aqueous solution of 2 x 10-4 M was poured into two tubes. One tube was kept in the Analytic Centre of the Tainghua University as a contrast sample; the other, heat isolated, was sent to another lab 100 meters away and received the emitted qi produced by the master from Yunnan province. Then it was brought back to the Analytic Centre and examined together with the contrast sample and received tracking survey. For part of the result, see the following diagram, Table 1 and Table 2.
From the experimental results, we can see that the initial condition is very stable; within 70 hours 350 nm peak intensity fluctuated only 1.1 units. The standard deviation after surveyed 10 times was 0.38 (s = 0.38). If the confidence probability Pc = 0.99 and the allowable probability P[sub T] - 0.999 were adopted, the statistical allowable interval
( x bar ± ks ) of the individual survey value was able to be worked out as 56.4—61.8 by means of the essential parameters surveyed by the initial condition n = 10, x bar = 59.1 and s = O. 374, while the value of No. 6 sample wider action, which was 64.5, had obviously exceeded this interval and had significant difference with the initial condition. The intensity of the sample under action increased with the increase of the time peak intensity and the 350 nm peak intensity presented redshift to certain extent. This shows that the emitted qi has acme after-effects. Further study has yet to be carried out.
Table 1. Stability of the Contrast Sample of Potassium Dichromate within 70 Hours
Sample Number
Survey Date 1 2 3 4 5 6 7 8
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March 8 14:07 14:09 14:11 14:44 14:48 14:50 17:42
March 9 9:03
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RAI 59.1 59.1 59.1 58.5 58.7 58.7 59.0 59.5
RAI = Relative Absorption Intensity (350 nm)
Table 2. Survey Data of the Effect Sample of Potassium Dichromate within 60 Hours
Sample Number
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Survey Date 1 2 3 4 5 6
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March 8 17:48 17:52 17:56
March 9 9:09 21:25
March 11 11.48 _____________________________________________________________________
RAI 59.8 59.8 59.8 60.6 60.7 64.5