Petition on DNA Sequencing all citizens in the world.

Petition on DNA Sequencing all citizens in the world.

I have seen the effects of sexual assault and rape on the victims’ lives, and the results can be bad for both victims, friends, and families, and there are chances to get affected by sexual diseases like HIV, gonorrhea, and syphilis is present. In Ukraine, there are a lot of rape victims, read about it here: https://www.bbc.com/news/world-europe-61071243

2015–16 New Year’s Eve sexual assaults in Germany:

Over 1,200 women were reportedly sexually assaulted during the 2015–16 public New Year’s Eve celebrations in Germany, in all cases by men of Muslim origin.

https://en.wikipedia.org/wiki/2015%E2%80%9316_New_Year%27s_Eve_sexual_assaults_in_Germany

https://en.wikipedia.org/wiki/Rape_statistics

A United Nations statistical report compiled from government sources showed that more than 250,000 cases of rape or attempted rape were recorded by police annually. The reported data covered 65 countries. In a survey by United Nations, for 100 women that suffered sexual violence in their lifetimes, 14% had experienced attempted rape and 2.3% had experienced rape.

Now women get raped a lot I hear, but some women also rape men and steal their sperm to get a baby from a handsome man, homosexual men rape men, and I suggest the following:

That every human being on the planet, man and woman at birth get DNA sequenced so rape victims can get justice to see the rapist in jail so they do not rape other people too. Especially with abortion laws forbidding abortion coming into the act in the USA: the rapist must pay child support. Let them know they will get punished for rape, it is an evil crime.

It must be two databases for integrity reasons. One DNA test is taken at the hospital and one at the police station, and those two databases should match each other when the test is done and lookup in the databases is done in both databases, and when a sample is submitted to both databases. 

Everybody that needs to get a passport, driver’s license, education, bank account, or benefit, etc, needs to take a simple and fast DNA test from the mouth, done in 5 minutes. The cost of today’s technology is low from 99 to 50 dollars a person, the state pays the full cost. Just look at www.23andme.com and www.myheritage.com/dna (those two databases could be used because they have the technology already to identify people’s DNA)

Also after natural disasters, murder crimes, and other incidents identifying victims would be a lot easier when we have a DNA database of all citizens.

PS! It is important to say that it already exists technology for cloning DNA and printing out DNA strings from a digital file, and this can be by bribery as an example be used to frame people for crimes they did not do. Also, some are one-egged twins, exact DNA copies of each other.

Psykolog Carl Gustav Jung erklært som Geni

Hølen 28 Desember 2022

Geni erklæring av psykolog Carl Gustav Jung

https://no.wikipedia.org/wiki/Carl_Gustav_Jung

https://en.wikipedia.org/wiki/Carl_Jung Engelsk side om han er bedre.

https://en.wikipedia.org/wiki/Synchronicity

Jeg vil geni erklære en psykolog og psykiater som heter Carl Gustav Jung.

Det gjelder han arbeid rundt synkronisitet (synchronicity på engelsk.) Dette fenomenet han jobbet har jeg sett selv og opplevd med øyne. Jeg har har kalt det Super Information Symmetry.

Jeg har skrevet en del samling av hendelser for å underbygge hans påstander om at dette faktisk stemmer i verdenen.

Nå har jeg iPhone og kan ta opp bilde, lyd, video (for å skaffe bevis) av en hendelse, flette det sammen med hva som sies, gjøres, og hva som skjer eller tenkes.

Før kunne man ikke bevise at det inntraff og da trodde man at pasienten var schizofren. Dette har ingenting med schizofren å gjøre men at noe er så mye mer videreutviklet enn hva andre kan forstå.

Han var modig som dokumenterte synkronisitet og skrive om det selv om noen ville si han var gal. Det er han ikke.

Dere kan høre hva Carl Gustav Jung har skrevet om her:

Carl Gustav Jung var født 1875 og døde 1961.

Han og jeg burde få en nobels pris innen psykologi.(medisin)

Jeg har selv skrevet, fotografert og linket sammen informasjon jeg har opplevd selv her:

Den store mengden av super information symmetry hendelser tilsier seg at det er en strukturert overmakt i dette universet /jorden vi lever på, muligens i en dimensjon vi ikke kommer til. Dette systemet har vært her lenge side han levede 1800 til 1900 tallet og slike ting skjedde uten iPhone, og det kan det! Det krever ikke teknologiske hjelpemidler for å fungere, dvs inntreffe. Det kan inntreffe på papir hvor man leser noe som sammetreffer med hva andre sier i rommet, samtidige med hva man tenker i hodet og alt er sammenfallende. . Det er et svært avansert system.

Mvh

Tor Fredrik Nikolai Bjerke

What is human DNA?

Human DNA (deoxyribonucleic acid) is a complex molecule that contains the genetic instructions needed for the development and function of all known living organisms. It is present in nearly every cell in the human body and is made up of two long strands of nucleotides that are coiled around each other to form a double helix. Each strand of the double helix is composed of four different types of nucleotides: adenine (A), thymine (T), cytosine (C), and guanine (G). The sequence of these nucleotides determines the genetic information that is carried by the DNA molecule.

DNA is organized into units called genes, which contain the instructions for making proteins. Proteins are important for many different functions in the body, including the structure of cells, the regulation of chemical reactions, and the communication between cells. The genetic information carried by DNA is used to synthesize proteins through a process called transcription, which involves the production of a complementary RNA molecule (ribonucleic acid) from the DNA template. The RNA molecule is then used as a template for protein synthesis during translation.

Human DNA is inherited from our parents, with half coming from our mother and half from our father. Each person has a unique DNA sequence, which is determined by the specific combination of nucleotides inherited from their parents. The DNA sequence can be used to predict certain characteristics, such as physical traits and the risk of certain diseases. It can also be used in forensic science to identify individuals and in medical research to understand the genetic basis of diseases and to develop new treatments.

The article was written by chat.openai.com

Explain how unlimited computing would work!

Unlimited computing, also known as “unconstrained computing,” is a hypothetical scenario in which computational resources are infinite and there are no limits on the amount of processing power or data that can be used. In this scenario, computers would be able to perform any computational task, no matter how complex or resource-intensive, without experiencing any performance constraints.

There are several ways that unlimited computing could potentially be achieved. One possibility is through the use of quantum computers, which are based on principles of quantum mechanics and have the potential to perform certain types of computations much faster than classical computers. Another possibility is through the use of distributed computing, in which computational tasks are divided into smaller pieces and distributed among many different computers, each of which works on a portion of the task.

Unlimited computing could have significant implications for many different fields, including science, engineering, finance, and medicine. It could allow researchers to solve complex problems that are currently beyond the reach of classical computers, and it could enable the development of new technologies and applications that are not possible with current computing capabilities.

Overall, unlimited computing is a hypothetical concept that is not yet possible with current technology. However, it is an area of active research and development, and it is possible that advances in computing technology may eventually lead to the realization of this vision.

https://www.unlimitedcomputing.no

The article was written by chat.openai.com

What is HTML5 ? – Hypertext Markup Language version 5)

HTML5 (Hypertext Markup Language version 5) is the latest version of the HTML standard, which is a markup language used to structure and format content on the World Wide Web. HTML5 is designed to be more flexible and versatile than previous versions of HTML, and it includes a wide range of new features and capabilities that allow developers to create more interactive and engaging web applications.

Some of the key features of HTML5 include:

  • Improved support for multimedia: HTML5 includes support for audio and video playback natively, which means that developers can embed audio and video content into web pages without needing to use third-party plugins like Flash.
  • New semantic elements: HTML5 includes a number of new elements that allow developers to better structure and organize web content. This includes elements like <header>, <footer>, and <article>, which make it easier to create well-organized and user-friendly web pages.
  • Improved graphics and animation: HTML5 includes support for a number of new graphics and animation technologies, such as the canvas element and WebGL, which allow developers to create more interactive and visually appealing web applications.
  • Enhanced offline support: HTML5 allows developers to create web applications that can function offline, which means that users can access and use the application even when they are not connected to the Internet.

Overall, HTML5 is a powerful and flexible language that is widely used to create modern web applications and is likely to continue to be an important component of the World Wide Web in the future.

The article was created by chat.openai.com

HL7 (Health Level 7)

HL7 (Health Level 7) is a standard for exchanging healthcare information electronically. It is a set of protocols, data structures, and guidelines that are used to transmit clinical and administrative data between healthcare systems, such as electronic health records (EHRs), laboratory systems, and pharmacy systems.

HL7 is designed to support the interoperability of healthcare information systems, which means that it allows different systems to exchange data with each other in a standardized format. This allows healthcare providers to access and share patient information more efficiently, which can help to improve the quality and safety of patient care.

HL7 is a complex standard that includes a variety of different components, including:

  • Messaging standards: These define the structure and format of the messages that are used to transmit healthcare data between systems.
  • Data standards: These define the structure and content of the healthcare data that is transmitted using HL7. This includes information about patients, diagnoses, medications, and other clinical and administrative data.
  • Implementation guides: These provide guidance on how to implement HL7 in specific healthcare contexts, such as laboratory systems, radiology systems, or pharmacy systems.

Overall, HL7 is a critical component of the healthcare industry and is widely used to facilitate the exchange of healthcare information between different systems and devices. It is likely to continue to play a significant role in the healthcare landscape in the future.

The article was written by chat.openai.com

What is DICOM – (Digital Imaging and Communications in Medicine)

DICOM (Digital Imaging and Communications in Medicine) is a standard for handling, storing, printing, and transmitting medical images and related information. It is widely used in the healthcare industry to facilitate the exchange of medical images and related data between different systems and devices.

DICOM is a comprehensive standard that includes a set of protocols, data structures, and file formats that are used to represent and transmit medical images and other related information, such as patient demographics and clinical information. It is designed to be interoperable, which means that it can be used to exchange medical images and data between different systems and devices, regardless of the manufacturer or software platform.

DICOM is used in a variety of applications in the healthcare industry, including medical imaging, patient records management, and telemedicine. It is an important tool for improving the efficiency and accuracy of healthcare delivery and is widely used by hospitals, clinics, and other healthcare organizations around the world.

Overall, DICOM is a critical component of the healthcare industry and is likely to continue to play a significant role in the management and exchange of medical images and data in the future.

This article was written by chat.openai.com

What is PACS (Picture Archiving and Communication System)

PACS (Picture Archiving and Communication System) is a medical imaging technology that is used to store, retrieve, and distribute medical images, such as x-rays, CT scans, and MRIs. It is a digital system that allows healthcare professionals to access and review medical images from anywhere, at any time.

PACS consists of a central server and a network of workstations that are used to store, retrieve, and display medical images. The workstations are typically equipped with specialized software and hardware, such as high-resolution monitors and image-viewing software, that allow healthcare professionals to view and manipulate the images.

One of the key benefits of PACS is that it allows healthcare professionals to access medical images from any location, which can be particularly useful in situations where a patient’s records need to be accessed quickly or when a patient is being treated remotely.

PACS can also help to improve the efficiency of healthcare delivery by reducing the need for physical storage of medical images and eliminating the need for healthcare professionals to physically transport films or other media. It can also help to reduce the risk of lost or damaged records and can improve the accuracy and speed of diagnoses.

Overall, PACS is an important tool for managing and accessing medical images and is widely used in healthcare settings around the world. It is likely to continue to play a significant role in the healthcare landscape in the future.

The article was written by chat.openai.com

What is Teleradiology?

Teleradiology is the practice of transmitting medical images, such as x-rays, CT scans, and MRIs, from one location to another for the purpose of diagnostic interpretation. It is often used to enable remote consultation between radiologists and other healthcare professionals, and can be an important tool for improving patient care and access to medical expertise.

One of the key benefits of teleradiology is that it allows healthcare professionals to access medical images and receive diagnostic interpretations from experts who may be located in different parts of the world. This can be particularly useful in rural or underserved areas where access to specialized medical expertise may be limited.

Teleradiology can also be used to improve the efficiency of healthcare delivery by allowing medical images to be transmitted and reviewed more quickly. This can help to reduce wait times for diagnostic results and improve the speed and quality of patient care.

In addition to these benefits, teleradiology can also help to reduce the cost of healthcare by eliminating the need for patients to travel long distances for diagnostic imaging and consultations. It can also help to reduce the burden on local healthcare systems by enabling patients to receive care from remote experts.

Overall, teleradiology is a valuable tool for improving patient care and access to medical expertise and is likely to continue to play a significant role in the healthcare landscape in the future.

The article was written chat.openai.com

What is PKI -Public Key Infrastructure

Public Key Infrastructure (PKI) is a system that is used to manage and secure digital communications by using public and private key pairs. PKI is used to verify the identity of individuals or organizations, and to secure the confidentiality, integrity, and authenticity of digital communications.

In PKI, each user or entity has a pair of keys: a public key and a private key. The public key is used to encrypt messages, and the private key is used to decrypt them. This allows users to send encrypted messages to each other that can only be decrypted by the intended recipient.

PKI also includes a system of certificate authorities (CAs) that are responsible for issuing, managing, and revoking digital certificates. Digital certificates are electronic documents that contain a user’s public key and other identifying information, such as their name and email address. They are used to verify the identity of the user and to establish trust between parties.

PKI is used in a variety of applications, including secure email, online banking, and e-commerce. It is an important tool for ensuring the security and privacy of digital communications, and is widely used by individuals and organizations around the world.

Overall, PKI is a complex and sophisticated system that plays a vital role in securing digital communications and protecting against cyber threats. It is likely to continue to be an important component of the Internet landscape in the future.

The article was written by chat.openai.com