The Role of Quantum Computation in Cognitive Brain Functions and the Influence of Luck on Life Success


Hatched by Glasp

Aug 16, 2023

3 min read


The Role of Quantum Computation in Cognitive Brain Functions and the Influence of Luck on Life Success

Our brains use quantum computation. Scientists from Trinity believe that our brains could use quantum computation after adapting an idea developed to prove the existence of quantum gravity to explore the human brain and its workings. This adaptation allows for the measurement of brain functions correlated to short-term memory performance and conscious awareness, suggesting that quantum processes are also part of cognitive and conscious brain functions. The measurement of proton spins using MRI (Magnetic Resonance Imaging) can be used to detect these quantum processes in the brain.

The discovery that quantum processes are involved in cognitive brain functions opens up a new understanding of how our brains work. It suggests that there may be underlying quantum mechanisms that contribute to our ability to think, remember, and be aware. By studying these quantum processes, we can gain valuable insights into the mysteries of the human brain.

On the other hand, the role of luck in life success is far greater than we realized. Personal characteristics alone do not fully explain the differences in income and success among individuals. About half of the differences in income across people worldwide can be attributed to their country of residence and the income distribution within that country. Additionally, various factors such as name, birth month, and display of middle initials can influence one's chances of success in different fields.

In a study conducted by Italian researchers, it was found that luck plays a significant role in determining an individual's success. The most successful individuals were not necessarily the most talented but rather those who had a combination of average talent and good fortune. Mediocre-but-lucky people were found to be more successful than more-talented-but-unlucky individuals. This suggests that even a great talent becomes useless against the fury of misfortune.

The findings of this study challenge the notion of a "naive meritocracy" where honors and rewards are given solely based on personal characteristics and past success. Instead, the authors suggest that funding strategies should focus on targeting diversity rather than "excellence" to create a more productive and fair society. Distributing funds at random was found to be more efficient than giving a certain percentage of funding to only the most successful individuals.

In conclusion, our understanding of the human brain is expanding as we uncover the role of quantum computation in cognitive brain functions. At the same time, we are realizing the significance of luck and opportunity in determining individual success. To apply these insights in our own lives, here are three actionable advice:

  • 1. Embrace diversity: Instead of solely focusing on personal characteristics or past success, embrace diversity in your decision-making processes. Consider individuals with different backgrounds, talents, and experiences to foster innovation and creativity.
  • 2. Be open to opportunities: Luck can play a significant role in our lives, so be open to opportunities that come your way. Stay curious, explore new possibilities, and seize the chances that present themselves. You never know when luck might be on your side.
  • 3. Cultivate resilience: Even the most talented individuals can face setbacks and challenges. Cultivate resilience and develop the ability to bounce back from failures. Remember that luck can change, and with perseverance, you can overcome obstacles and achieve success.

By incorporating these advice into our lives, we can harness the power of quantum computation in our brains and increase our chances of success in a world influenced by luck and opportunity.

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