The ACTUAL Way Bitcoin Could Fail & Go to ZERO (this will shock you.)

In this blog post, the focus will be on the potential factors that could lead to the downfall of Bitcoin and ultimately reduce its value to zero. It may come as a shock to many, but exploring the various risks and vulnerabilities associated with this popular cryptocurrency is crucial in understanding its true potential. By delving into the underlying reasons why Bitcoin may fail, we can gain valuable insights into its future trajectory and make informed decisions about its viability as a financial asset. So, let’s dive into the intriguing possibilities that await.


In the world of cryptocurrencies, Bitcoin has emerged as a leading contender, capturing the interest of investors and enthusiasts alike. However, recent advances in technology, particularly in the field of quantum computing, have raised concerns about the security and sustainability of cryptocurrencies, including Bitcoin. In this article, we will explore the potential impact of quantum computing on Bitcoin and discuss the various challenges and solutions that lie ahead.

Heading 1: The Threat of Quantum Computing

Quantum computing, a revolutionary technology that harnesses the power of quantum mechanics, holds immense potential for scientific breakthroughs. However, it also poses a significant threat to the cryptographic algorithms that underpin Bitcoin and other cryptocurrencies. Researchers estimate that a quantum computer with 1.9 billion cubits could crack Bitcoin’s encryption within 10 minutes, potentially exposing the security vulnerabilities of the digital currency.

Heading 2: Quantum Computing Milestones

In a recent milestone, the world witnessed the creation of the first quantum computer with over 1,000 cubits, surpassing IBM’s previous record. This development signals a significant advancement in the capabilities of quantum computing, raising concerns about the adequacy of Bitcoin’s encryption in the face of such powerful technology. With quantum computers becoming increasingly accessible, the urgency to address these vulnerabilities becomes all the more critical.

Heading 3: Bitcoin’s Algorithmic Challenge

During the interim period when quantum computing becomes widely available but not for all wallets, Bitcoin needs to adapt and change its encryption algorithms. The risk lies in the fact that Satoshi Nakamoto, Bitcoin’s mysterious creator, is rumored to hold a significant number of coins. If quantum computing were to advance enough to break the encryption, these coins could be compromised, potentially destabilizing the entire cryptocurrency market.

Heading 4: Vulnerabilities and Solutions

One vulnerability that emerges in the face of quantum computing is the potential vulnerability of moving lost coins to an upgraded address. The reliance on old encryption algorithms could expose these movements to exploitation. To mitigate this risk, Bitcoin would need to upgrade to a new encryption algorithm, such as SHA 512 or higher. Such an upgrade would enhance the security against quantum computing threats, safeguarding the integrity of the cryptocurrency.

Heading 5: Exponential Encryption Advances

As the threat of quantum computing looms, the numbers used in encryption algorithms could increase exponentially. This exponential growth would ensure that the computational power required to break the encryption becomes prohibitively large, effectively strengthening the security measures. While this approach poses its own challenges, including increased storage and processing requirements, it appears to be a viable solution to counter the impact of quantum computing advancements.

Heading 6: The Role of AI in the Crypto Market

In addition to quantum computing, another factor that could potentially impact the crypto market is the use of artificial intelligence (AI). While the provided content does not explicitly discuss this aspect, AI holds the potential to transform the way cryptocurrencies are traded and managed. AI-powered algorithms could analyze market trends and patterns, providing valuable insights and potentially influencing the buying and selling decisions of traders.


The potential threat posed by quantum computing to Bitcoin and other cryptocurrencies cannot be ignored. To ensure the long-term viability of cryptocurrencies, including Bitcoin, it is crucial to address these vulnerabilities and adopt appropriate measures. Upgrading encryption algorithms and embracing exponential encryption advances are some possible solutions to mitigate the risks posed by quantum computing. Meanwhile, the interplay between AI and cryptocurrencies continues to evolve, presenting both challenges and opportunities for the crypto market.


  1. Can quantum computing really break the encryption safeguarding Bitcoin?

    • Yes, researchers estimate that a quantum computer with 1.9 billion cubits could crack Bitcoin’s encryption within 10 minutes.
  2. How does Bitcoin’s encryption need to change in response to quantum computing?

    • Bitcoin would need to upgrade to a new encryption algorithm, such as SHA 512 or higher, to mitigate the threats posed by quantum computing.
  3. Are Satoshi Nakamoto’s coins at risk due to quantum computing?

    • If quantum computing advances enough to break the encryption, Satoshi Nakamoto’s presumed large holdings could be compromised.
  4. How can lost coins become vulnerable to quantum computing?

    • Moving lost coins to an upgraded address using old encryption algorithms could expose them to exploitation by quantum computing.
  5. What role does AI play in relation to cryptocurrencies?

    • While not explicitly discussed in the provided content, AI has the potential to impact the crypto market through its analytical capabilities and influence on trading decisions.