Trump and Hillary Clinton sprayed each other, exposed each other's shortcomings, smeared each other, and murdered each other, all of which were about to catch up with the injustices of the world, and the two of them in their 70s were happier than young men for the presidency of the United States. Pen × fun × Pavilion www. ｂｉｑｕｇｅ。 ｉｎｆｏ

Not only play with their own lives, but also play with each other's lives, and by the way, play with other people's lives, anyway, the two of them don't have many years to live, and it's not a loss if they die, if they become presidents, they all earn money. And each of these two guys has at least a 50% probability of being able to become president, with such a great success rate, why not play with your life?

While the two would-be presidents were busy squeezing their opponents out of power, or simply thinking about sending them to God, Mo Hui was busy secretly debugging the digital world, and Su Qingji was not idle at this time, she was also busy working on another special project now.

I have to say that Su Qingji is very lucky, since she joined Mo Hui's team, her research route has suddenly broadened, and her research was originally only focused on the field of psychology, and rarely involved other fields. Since joining the Mo Hui team, she has started a cross-border research journey, and the projects of trajectory, publicity, training, campaign, and Skynet are basically comprehensive application projects that require the cooperation of various disciplines.

Later, the derivation involved the philosophical nature of the world, which allowed Su Qingji to borrow the hand of God and a general platform to obtain a higher level of resource mobilization ability while cross-border scientific research, which is not only capital and manpower, but also various scientific research resources and social resources.

Now coming to the United States to provide technical support to Trump is also a strengthening of resource utilization capabilities, and the powerful effect of Derivation 1.0 has made Mo Hui's team highly praised and valued, and the support has skyrocketed.

Su Qingji used her profound psychological skills to open up a new field of scientific research, and she mobilized scientific research forces from all walks of life to set up a project team to specialize in transcranial direct current stimulation research.

Transcranial direct current stimulation, which is actually a medical technology, was discovered around '98 and gradually applied to the medical field. Its principle, if put simply, is to stimulate the cerebral cortex with direct current, interfering with and affecting the normal functioning of the brain.

Because we all know that human nerves actually transmit bioelectricity, and only bioelectricity can transmit brain signals to the limbs in a fraction of a second, and chemical transmitters are completely impossible to reach this speed.

The brain itself is a mass of nerve cells, and when the brain is thinking, it is these tens of billions of nerve cells that constantly communicate with each other. It's like the whole world is chatting online at the same time, I send you a text message, you send a group QQ, he is posting a Weibo, and then the next neuron sends an official account.

A large number of neurons constantly emit and receive various bioelectric signals, which combine to form the brain's thinking, judgment, reasoning, decision-making, action instructions, and so on.

Now there is a problem with the internal bioelectrical operation of the human decision-making brain, in addition to the problem, interrupt the short and quick direct solution to the problem, so there is a treatment method of transcranial direct current stimulation.

For example, if your voltage is low, then we will input the voltage from the outside, and if the current is small, we will add some electricity to you.

Anyway, it's probably the same principle, and the main diseases it targets are those diseases with organic brain lesions, such as Alzheimer's, Parkinson's, epilepsy, deep depression and the like.

What Su Qingji wants to do now is to study the process, dynamics, and interaction of external currents involved in the operation of the brain.

Yes, Su Qingji doesn't plan to simply study the effect of electric shocks, purely study the electric shock brain, and if you study it, you will become an electric shock maniac, and Su Qingji plans to study the interaction. Since it is possible to shock the brain, it is certainly possible to collect and study the brain's electrical signals.

However, Su Qingji's main research direction is biased towards transcendental psychology after all, and it is not the same as those who study pathological psychology, she is more inclined to study the psychology of healthy people, and this characteristic will naturally be reflected in the direction of the project. Others used transcranial electrogram to study the treatment of epilepsy, and she used this thing to study the interaction between external electrical currents and the brain's thinking.

Su Qingji's laboratory scene looks like this:

The volunteers, shaved to a bald head, wore a helmet full of wires, and the inside of the helmet was covered with dozens of suction cups, each of which was an electrode that was responsible for inputting tiny direct current to affect the functioning of the experimenter's brain.

The helmet is not only an electrical input device, but also a brainwave receiving device, which is responsible for monitoring the generation and operation of microcurrents in the subject's brain. If necessary, MRI data will also be collected to understand the inner workings of the brain.

When everything was ready for the transcranial memory test, twenty subjects were selected and divided into two groups of ten people, one as a control group and one as an experimental group.

Then each participant was given a computer in front of them, and twenty pictures were presented on the screen one after another, each for five seconds. Participants are asked to make an effort to memorize the pictures, and then they start to do multiple-choice questions, and there are groups of five pictures that appear continuously, and the participants are asked to choose which pictures they are asked to memorize.

The control group will do the questions normally, according to each person's different memory, they will show their own results, and the experimental group will also do the questions normally, and their results will be recorded as a reference value to distinguish everyone's IQ data on memory.

In order to avoid fluctuation errors, several sets of the same test were used to obtain a relatively stable memory data, and then the transcranial electrical stimulation experiment was started.

During the experiment, the control group was still doing everything normally, without any interference, while the experimental group began to have transcranial electrical interference. In the experimental group, the temporal lobe will be stimulated by microcurrent when they are working on the problem.

The temporal lobe is primarily responsible for memory in the functional division of the brain, which has long been medically proven, and the purpose of the experiment is to find out the extent to which transcranial electrical effects affect the operation of the temporal lobe, as well as the values of current and voltage associated with various effects.

Experiments have proved that transcranial electrical stimulation can effectively interfere with the normal operation of the temporal lobe, and when transcranial electrical stimulation is turned on, the test scores of the subject group are significantly reduced, and even memory disorders and confusion occur. (To be continued.) )