When Fang Hong posted this on Weibo, he told everyone that he had quit, and used an epic -95% Yin K to prove his determination to the world.
As a result, in the eyes of the outside world, Fang Hong had thrown away all the Bitcoins in his hands.
When Bitcoin becomes popular in the future, no one will think that Fang Hong still holds a large amount of chips.
During this period of time, he was tossing back and forth on Bitcoin. The purpose was actually very simple, which was to loosen the chips and release the trading volume.
The current trading volume is too small and there is no change of hands at all.
How to loosen the chips?
The answer is to create violent price fluctuations to attract followers and give holders the urge to sell.
After such back and forth, the cost price of the holders who come in and out to participate in the speculation will continue to rise, and then it will break through, causing the holders to suffer losses on their books, or even cut it in half and cause huge losses.
Before this, when the price fluctuations of Bitcoin were not so violent, the holders may not have made any money, but they had not lost any money either, so just leave it there and the holders would hold it for a long time. , you may even forget it exists.
But after the violent price fluctuations, it is difficult for holders to calm down under the sudden rise and fall.
There will be a willingness to sell to cash out when there is a sudden increase, and there will be a willingness to stop losses when there is a sudden loss. Especially those speculators who want to make a fortune from Fang Hong's intermediary price difference will be uneasy, and those who have entered a heavy position will want to die. .
In this way, Bitcoin's chips are loosened, followed by a surge in trading volume and turnover rate.
Fang Hong's back and forth like this activated the sluggish trading volume of Bitcoin, and indeed the number of transactions began to surge sharply.
The next step is to actually start collecting chips. In the past, Fang Hong participated in the acquisition in a public name, but in the next step, he secretly collected funds and will not start in his name again.
Anyway, after that Weibo post was posted, it was clear on the surface.
It is worth mentioning that although Fang Hong has been tossing around with Bitcoin recently, there have been some reports in the media, but the impact is really not big.
It didn't cause any waves either at home or in Europe and the United States. Everyone just watched it for fun.
Because Bitcoin is so niche at this point in time, so niche that Fang Hong’s efforts like this may bring more visibility to Bitcoin than its previous market value. At any rate, his actions have brought Bitcoin’s popularity out of the circle. Quite a few.
But even so, it is still a niche, and it is precisely because it is so niche that the Fang Hong family can easily control the situation. They can take off if they want it to skyrocket, and smash through if they want it to plummet.
The media reported not because of Bitcoin itself, but because Fang Hong went to play with Bitcoin. It was Fang Hong who brought traffic and exposure to Bitcoin. It is such a niche.
Everyone regarded this matter as the fact that God K was so rich that he was simply enjoying himself there.
Then he came to take a break and left again. Well, he just left. By the way, he dropped the intraday price of Bitcoin by 95%, suffocating a group of speculators who wanted to take advantage of him.
Netizens who eat melons read it as news for fun.
After all, even if Fang Hong does this, Bitcoin has increased by more than 12 times, and the total market value is only just over 80 million US dollars. It really cannot cause any big waves.
What’s more, the trend of Bitcoin has not yet arrived.
…
Two days later, another incident hit the domestic Internet and became the headline news. It also attracted huge attention in the international academic community.
Surprisingly, it is the "Sky Mirror" project for space gravitational wave detection.
At this moment, Fang Hong was watching the midday news from the Xincheng local TV station in the villa's living room.
[Currently, there are two most advanced experimental bases in the field of gravitational wave detection, located in the United States and Italy. The one in the United States is the Laser Interferometer Gravitational Wave Observatory, or LIGO for short; the other in Italy is the Virgo Interferometer, or the Virgo Interferometer for short. Virgo, these two observation bases represent the current highest level of global gravitational wave detection. 】
[my country's research in this field of astronomy has already begun research and planning as early as 2008, but it is more about carrying out relevant theoretical research and demonstrating the feasibility of the construction project. Recently, the Gravitational Wave Research Center of the National Space Administration was officially established in Donghu District, Xincheng University. This marks that our country has played a grand "symphony" in the most cutting-edge field of gravitational waves. 】
[It is reported that the "Sky Mirror" space gravitational wave detection project funded by the Natural Science Foundation and led by Xincheng University has involved more than 80 scientific research units and thousands of scientists. Unlike the LIGO experimental base on the ground, the "Sky Mirror" "It is to form a space gravitational wave detection array by sending experimental equipment into space and forming a network..."
After the narration of the news report ended, the screen switched, and Ning Xingqing appeared in the news screen to be interviewed by reporters. His introduction on the screen listed a line of subtitles, that is, the chief scientist of the "Sky Mirror" project.
I saw Ning Xingqing facing the camera and saying: "...Gravitational waves are just 'ripples' caused by the curvature of space and time, so their propagation does not require any medium, and the loss when blocked by celestial bodies is also very small, so the entire universe can be said to be flowing all the time. Gravitational waves are no longer being transmitted, but the strength of the 'waves' is different, which also allows us to create some detectors to capture the anomalies caused by this curvature of space-time."
Ning Xingqing continued: "From the perspective of the principle of the gravitational wave detector, it is actually very simple. Taking LIGO as an example, it is to build two long pipelines that are perpendicular to each other and of exactly the same length on the open and flat ground. A laser is placed at the intersection of the long pipes. During the experiment, the laser emits laser light outwards. The two laser beams are transmitted along the two long pipes through the beam splitter. When they reach the end, the laser light is reflected back through the reflection device. , and then perform laser interference at the starting point.”
Ning Xingqing described while gesturing: "If there are no gravitational waves, then the interference results of the two reflected lasers will cancel each other. Once interference from gravitational waves occurs, then, because the gravitational waves are in the two pipes, The impact on the curvature of space and time is different, so the distance traveled by the two lasers is different, so the final reflected laser interference will change. Through the analysis of the final interference pattern, on the one hand, it can be determined that gravitational waves have been detected Or not, on the other hand, when gravitational waves are detected, the strength of the gravitational waves and the direction of the source and target can also be analyzed..."
…
When the media reported this matter, the title of the article did not focus on the ultra-large-scale scientific research project itself, but focused on the investment of "over 20 billion" in budget to attract clicks.
However, the scale of this investment really shocked the domestic academic community.
Such a huge investment scale has set a record in the field of major domestic basic scientific research projects. Even internationally, it is a first-class scientific research project in terms of investment scale.
…
(End of chapter)
