Is Google's quantum computing chip capable of brute-forcing the Bitcoin algorithm?

Is Google's latest quantum chip vivo capable of brute-forcing Bitcoin? Currently, there are only two methods to crack Bitcoin: one is to brute-force the secondary of Bitcoin, and the second is to possess more than fifty-one percent of the total computing power of the entire network of Bitcoin.

If more than fifty percent of the computing power is used, then one has the accounting rights to the entire ledger of Bitcoin, allowing arbitrary entries during the accounting process. For example, if there is only one Bitcoin in a wallet, during the accounting process, one could record one million Bitcoins, making Bitcoin worthless.

If the second method is cracked, modifying or brute-forcing all the secondaries of Bitcoin, addresses such as Nakamoto's address, Zhao Changpeng's address, Xu Mingxing's address, and Sun's address would all belong to you, and the Bitcoins inside would be yours. And what does Bitcoin claim to be? It is a sacred and inviolable property; if it is cracked, does that mean Bitcoin loses its value?

In fact, it is very difficult. Why is it difficult? Starting from the basics, if Google's v6 really has even a one percent chance of cracking Bitcoin, either one of the two methods would not allow the price to remain at the current ninety-seven thousand; this afternoon it even reached ninety-eight thousand, but would directly fall below fifty percent, or even sixty percent is possible.

Now let's analyze from a technical perspective why it cannot be cracked. First of all, the feed of Bitcoin is composed of a random array of two hundred fifty-six bits, ranging from zero to two hundred. Each of the two hundred fifty-six numbers has a one in two hundred fifty-six chance, so the entire feed combination is 1.1579 multiplied by ten to the seventy-seventh power.

How large is the data? It might be unimaginable; using the fastest computer in the world today to calculate and crack Bitcoin would take 2.89 multiplied by ten to the fifty-th power years. Now let's look at how powerful the algorithm touted by Google's quantum computer v6 is; it claims that the computer completed a task in two hundred seconds that would take the fastest computer in the world ten thousand years to complete. One is ten thousand years, and the other is ten to the fifty-th power years, so the gap between these two is quite large, making it impossible to crack.