Measuring human in vivo gravitational waves and the origin of an elastic reference memory

AbstractThese data were generated to investigate gravitational binding inversion energy impacts on objects' FHD (falling height difference) at free fall state, ranging from close to rigid body objects, and liquids, to organisms including human beings.Historically, it is believed that the masses of free fall objects are independent of their weight measuring; however, we find such independence will be impacted by the internal motion of falling objects greatly, we then design the FHD indicator with board application and theoretical significance for bio-systems.In the falling height difference measurement, we first compare the FHD of slinky objects with internal motion and those objects without internal motion to find the source of FHD. Then test the FHDs of half bottle of oil and a half bottle of water, use liquid nitrogen treatment as CK to confirm that the FHDs come from internal motion.To test the FHDs of organisms, we compare the dead and alive states of organisms, also use liquid nitrogen treated alive organism to confirm that the FHDs of alive state come from internal motion.Finally, we test the human FHDs from a 10m diving platform, and also test the FHDs of animals before and after sexual behavior; and the FHDs of plant raw seeds and germinated seeds from the same batch.These experiments clearly reveal the origin of elastic reference systems and memory. Free-fall of rigid bodies following the conservation of common energy can issue legendary Galileo results. Free-fall of elastic objects such as half bottle of water begin to show elastic reference characteristics. We can section such free-fall height h into stages as h1 to hk, then for each stage hi inversion energy begins to accumulate in a small amount, common energy conservation is then impacted by the inversion energy E1 to k , thus inducing FHDs between a water bottle/oil bottle pair. To bio-systems, the little fraction of inversion energy E1 to k impacts are enlarged greatly, then all bio-systems follow inversion energy conservation instead of common energy conservation. To conserve inversion energy, bio-systems only take inversion (energy) induced by parameters instead of direct parameter data, not only in free-fall steps but also in all functional stages. It seems bio-systems internal interactions, such as from genomics to proteomics, to cells, tissues, and to organs, etc., or external interactions, such as eating, migrations, diverse activities, etc., are much more diverse and complicated; however, they indeed all belong to elastic reference systems and are as simple as the free-fall of liquid bottles in the experiments, nothing more than each step hi only takes inversion energy E1 to Ek induced by parameters instead of parameters themselves and then equivalents with memorized patterns, albeit the inversion energy of free-fall liquids are much lower than those in alive bio-systems. (It is noted that universal memory is not only present in living systems, but any non-living beings like our free-fall bottle liquids also possess such primitive “memory” albeit the level is quite lower, the resulting FHDs are from such universal “memory”) Our methods reveal the elastic reference memory quite well. Modifications of Newtonian three Laws also come from these designs. Usage NotesThis dataset originates modification of Newtonian Three Laws of Motion for bio-systems, it is recommended to design new equivalent experiments from these modification laws. The samples measured in this paper are only a very small fraction of all species on Earth, there are still a lot of samples waiting to be tested for theoretical studies as well as applications. Also, the lifetime standard curve will be more significant than a point test; therefore, it is strongly recommended to test the human lifetime FHD standard curve. As suggested in the paper, it could start from around 6 years old till the final 5 years. Such a lifetime FHD standard curve can’t be replaced by any other test. Even for animals and plant samples, the lifetime FHD standard curve is still critical. We can know more about the gravitational quiddity of ourselves and the whole biological kingdom by such kind of lifetime standard curves. (Due to the COVID-19 pandemic and other reasons, this paper still does not get a lifetime FHD standard curve. However, scholars and the global public should try lifetime FHD standard curves or support such study.)Dateset descriptionThis readme file was generated on [2020-06-01] by [Yi Yu Lai] GENERAL INFORMATIONTitle of Dataset: Measuring human in vivo gravitational waves and the origin of an elastic reference memoryAuthor/Principal Investigator InformationName: Yi Yu LaiORCID: 0000-0002-0113-8795Institution: Innoen Gravitational InstituteAddress: 6-61 Ardglen Dr. Brampton, L6W1V1, Ontario, Canada(office) The experiments need field tests, various locations on Great Toronto region & Guizhou Province in China (Test sites)Email: yylai@innoen.org Date of data collection: From 2019-12-23 to 2020-4-25, human diving on 10m platform data were collected on 2020-2-15 in Canada Ontario Etobicoke diving club.Various locations in the Great Toronto area in Canada and Guizhou Province in China for various experiments in the paper (Guizhou locations performed mutation 1.4: two bi-layer metal balls free-fall experiment for 6 repetitions and mutation 1.5 for around 100 tests with different bottle sizes and oil types, location around 26.423532, 106.674131, no liquid nitrogen mutation performed in this location.) The videos in the paper were performed at Mississauga, Canada: 43.62942, -79.66731, including liquid nitrogen mutations, also various other experimental locations in the GTA area and Ontario. The human diving data were collected at Etobicoke Olympium, address: 590 Rathburn Rd, Etobicoke, ON M9C 3T3 , Canada (43.65048, -79.58436) Information about funding sources that supported the collection of the data: No funding SHARING/ACCESS INFORMATION Licenses/restrictions placed on the data:Performing similar experiments need to comply with relevant ethical requirements, E.g., vertebrate animals need ethical approval, in this paper, human diving is a sportive activity to understand in vivo gravitational waves, only needs licensed diving coaches to assure the diving safety since no somatic body intervention or biological sample was taken out. However, if future designs involve intervention or somatic samples during the diving activities, then need additional clinical trial compliance. Links to publications that cite or use the data: Lai, Y.Y. Measuring the “Weight” of Human in vivo Bio-Inertia by Legendary Galileo Falling Body Experiments on a Commercial 10m Diving Platform and Gravitationally Inversion of Newton's Three Laws of Motion into the Basic Laws of Evolution. IJSR, 10(9), 1301-1328 (2021). (http://doi.org/10.21275/SR21829103822) Was data derived from another source?If yes, list source(s): No Recommended citation for this dataset: DOI: 10.57760/sciencedb.02448DATA & FILE OVERVIEWFile List:Tab 3: A half bottle of water VS a half bottle of oil liquid nitrogen mutation free-fall experiments. Tab 4: Different animals/plant alive samples VS their dead counterparts for free-fall experiments.Tab 5: Raw mung bean seeds and soybean seeds VS germination state for free-fall experiments.Tab 6: liquid nitrogen mutation of Tab 4.Tab 7: Human free-fall from a commercial 10m diving platform against a metal bar experimentsTab 8: Animal before sexual behavior and after sexual behavior free-fall experimentsSupplementary Movie 1. part of the Apollo 15 experiment video on the Moon (1971 by astronaut David Scott)Supplementary Movie 2. the movement of a free suspension slinky after releaseSupplementary Movie 3. the FHD of a metal chain and a same-length slinky from 7.05mSupplementary Movie 4. the FHD of a half-bottle of oil and a half bottle of water from 7.04m_video by a 6-year-old kindergarten girl from Dorset Public School, Brampton, CanadaSupplementary Movie 5. bio quantum path experiment for the definition of bio-inertiaSupplementary Movie 6. the FHD of a dead(cooked) apple and an alive apple from 7.04m_video by a 6-year-old kindergarten girl from Dorset Public SchoolSupplementary Movie 7. the FHD of a rat and a metal weight from 7.04mSupplementary Movie 8.the FDH of soybean seeds after soaking 24H against raw seeds from 7.04mSupplementary Movie 9. accepted diving posture 1Supplementary Movie 10. accepted diving posture 2Supplementary Movie 11. ancient training for increasing the surface tension of spinal vertebrae METHODOLOGICAL INFORMATIONDescription of methods used for collection/generation of data:From linked paper, refer to the Experimental section: (http://doi.org/10.21275/SR21829103822) Methods for processing the data: Directly use a video camera to get the FHDs, manually collect as written in the paper. Instrument- or software-specific information needed to interpret the data: Video camera, rack, metal bar, laser distance meter, ice-cream clips, safety rope, liquid nitrogen jar, and other accessories. Standards and calibration information, if appropriate: The laser distance meter follows the manufacturer’s calibration. Plant samples need to fix on the rack for 5 mins to be stable, also choose windless conditions. For liquid nitrogen overnight mutation, we choose 20 seconds of stabilizing time instead of the normal 5 mins stabilizing time. For animal testing, try to avoid extra body motion in the free-fall, such as tying the wings, etc. Be careful, the impact of sexual behavior on the FHDs can't be neglected, try to avoid such impacts for at least one week. For humans close to free-fall state from the 10m platform, only two diving styles as in supplementary movie 9 and movie 10 are allowed. However, these two postures are still not the ideal condition, in the paper, we suggested a horizontal bar holding posture for FHD testing, that way can get reliable results. Environmental/experimental conditions: Avoid the impacts of wind or airflow, give enough stabilizing time and also refer to the above Standards and calibration information. And the experiments in the paper are only preliminary experiments to assure FHDs are 100% present, still have a long way to go to attain the lifetime FHD standard curves that can offer substantial information. Describe any quality-assurance procedures performed on the data: For all the experiments, try to repeat experiments on the same day and under the same condition, and also repeat on a different day in the same location. Only enough reproducible results are used. For human diving from the 10m platform, we only get one opportunity to test, therefore, no different day results for comparison. It is still highly recommended the lifetime FHD standard curve for reflecting the bio-inertia. People involved with sample collection, processing, analysis and/or submission: Yi Yu Lai, Jingli Xing, Rong Yong Weng, Guangxin Lai. DATA-SPECIFIC INFORMATION FOR: [Tab. 3]Number of variables: 4 Number of cases/rows: 6 Variable List: <bottle size: 330ml, 500ml; liquid nitrogen: treat overnight, untreated bottle contents: water, commercial plant oil; falling height: 5.28m, 7.04m, 23.56mMissing data codes: <NA> Specialized formats or other abbreviations used: NATab 3: the unit of FHD in this paper is cm.Pre-experiments that generate the following liquid nitrogen mutation experiments:A half bottle of water and a half bottle of oil visually prepared were composed of a trial pair, released from a height, and a video camera was used to calculate the FHDs (falling height difference). In total 600 pairs (1200 bottles) with different parameters in different countries, all with falling heights larger than 20cm, all resulted in the oil bottles hitting the ground first. Measuring one experimental pair, the oil bottle is 173.274g, and the water bottle measured 184.125g, due to the density difference, all the test pairs should be the oil bottle is lighter than the water bottle, and the lighter bottle hits the ground first. The parameters refer in these 600 tests are: height from 4.82 to 23.65m; bottle size 330ml, 500ml, and 750ml; oil type: canola oil, vegetable oil, sunflower oil, peanut oil, soybean oil, car engine oil. Location: Ontario Canada, Guizhou Province of China.Formal liquid nitrogen mutation experiments:24 commercial drinking water bottles (12 × 330ml, 12× 500ml) compose of 12 experimental pairs (a half bottle of plant oil and a half bottle of water of the same height), 6 pairs treated with liquid nitrogen overnight and six not, released from the heights of 5.28 m, 7.04m, and 23.65m; FHDs present in (Tab.3), the stabilizing time for normal pairs is 5 mins and for liquid nitrogen treated pairs is 20s. For the six experimental pairs without liquid nitrogen treatment present FHDs in the table and the oil bottle hits the ground first; however, for the six experimental pairs after liquid nitrogen overnight, water bottles and oil bottles hit the ground simultaneously. This result demonstrates the internal motion of the bottle liquid contents plays a critical role in FHDs. DATA-SPECIFIC INFORMATION FOR: [Tab. 4]Number of variables: 3 Number of cases/rows: 34 Variable List: < species: 34; living state: dead or alive (sometimes metal bar replace dead samples); repetition: 3 samples each species; falling height: 7.04m Missing data codes: <NA> Specialized formats or other abbreviations used: spl, means each species take 3 repetitions. Tab 4: Different alive animals and plant samples VS their dead counterparts or a metal bar to demonstrate significant FHDs between them, three repetitions, validated different gravitational binding between the alive and the dead state of bio-systems (the advantage of this design over mutations of Cavendish experiments is that it can acquire in vivo gravitational waves or bio-inertia. It is this design that generates the method for testing human in vivo gravitational waves or bio-inertia and establishes the theoretical foundation of the paper.) DATA-SPECIFIC INFORMATION FOR: [Tab. 5]Number of variables: 2 Number of cases/rows: 4 Variable List: < seeds: mung beans, soybeans; germination: 24H, 48H> ; falling height: 7.04m Missing data codes: <NA> Specialized formats or other abbreviations used: spl means each sample takes three repetitions. Tab 5: Raw mung bean seeds and soybean seeds, soaked in water for 24 hours and 48 hours, put inside centrifuge bottles, and released from a height. The raw seeds hit the ground first, which means the seed's germination process accumulates more gravitational binding than raw seeds and is sensitive to our FHD tests. DATA-SPECIFIC INFORMATION FOR: [Tab. 6]Number of variables: 2 Number of cases/rows: 10Variable List: <falling height: 5.48m, 7.54m; species: apples, pears, tomatoes, lobsters, mice>Missing data codes: <NA> Specialized formats or other abbreviations used: < NA> Tab 6: Tab 4 has demonstrated that FHDs are present between the dead and alive state of a living being. We used some experimental pairs from Tab 4 and fixed them with liquid nitrogen overnight, then the FHDs present in Tab 4 recovered back to 0 again, this confirms for living beings, the FHDs do originate from internal motion. DATA-SPECIFIC INFORMATION FOR: [Tab. 7]Number of variables: 1 Number of cases/rows: 8 Variable List: < falling height: 10m, eight volunteers, only permit two compromised diving styles> Missing data codes: <no missing data, however, the idea diving style should use a horizontal bar rack, we lack it, and have to compromise to two inferior styles>Specialized formats or other abbreviations used: < NA> Tab 7: Human diving from a commercial 10m diving platform against a metal bar, demonstrating significant FHDs. This experiment combined with previous experiments suggests that FHD testing is a reliable method for testing bio-inertia or integrating health conditions. It is highly recommended to use a lifetime FHD standard curve for health monitor and evaluation. DATA-SPECIFIC INFORMATION FOR: [Tab. 8]Number of variables: 1 Number of cases/rows: 5Variable List: < animals: 3 three one-year roosters and 2 one-year male rabbits. falling height: roosters, 5.28m, rabbits, 5.44m, behavior: before and after sexual behavior >Missing data codes: < NA> Specialized formats or other abbreviations used: < spl means three repetitions of FHDs before sexual behavior, after sexual behavior, only test one repetition of FHD for calculating loss> Tab 8: One-year visually healthy male animals were selected and separated from female partners for one month, then free-fall into a trampoline three times to average into FHDs before sex. After sexual behavior then tests the FHDs again to calculate the FHD sexual loss. After sexual behavior all animals show significant FHD, corresponding to the ancient Kungfu experience that sexual behavior will lose significant gravitational binding or bio-inertia for men (following ancient physical training experiences, after sexual behavior, male animals lose gravitational binding substantially and female animals should acquire part of the gravitational binding. In Wudang system, there are strict sexual restrictions for men; however, almost no restrictions for women. Using our FHD test can easily get sexual behavior gravitational binding loss for male animals; however, it is not easy to get the sexual behavior gravitational binding acquirement for female animals. Possibly it still needs some technological improvement for testing the female gravitational binding accumulation conditions).