My 20 actual uses for Quantum Computers: For $5 million competition to find practical uses for quantum computers by Google & XPRIZE

Google and XPRIZE are launching a $5 million competition to find practical uses for quantum computers. So here are my 20 use cases that I can think of now:

1. DNA Structural Information: Due to sheer power of Quantum Computers we will be able to store and compute long DNA informations process it and maybe find more puzzling discoveries from this information. Imagine knowing how your ancestors used to think how they have developed their genes how all that led to you right now?

2. Understanding Biochemical Reactions and Drug Discoveries: Imagine a world where we have found cure for every single disease. Not just old but newer challenges that we may face in the coming future. An AI so powerful that it can give you a precise answer to all your queries about health within few seconds.

3. Discovery of Knowing the Unknown part of Universe: People forget how calculating a photograph of a black hole was such an intense computing task and so many of people were involved in the project just to see a real picture of a black hole. So with Quantum Computers what we can theorize? We can actually see it ourselves.

4. Unlocking the Potential to "Every Possible" Outcomes: 

Quantum Computers can actually work just like this, they rely on Quantum Mechanics principles that's the reason they can actually calculate all the possible outcomes for example in a chess match if a chess master is playing against a Quantum Computer they are destined to be at lost because a Quantum Computer has already calculated all of the possible moves;;0 before the chess master made those moves.

5. Accurate Weather Predictions: Although we are able to predict weather with a slight accuracy but we are still far away from computing a continuous and random change in weather. Quantum Computers can help us with accurate weather predictions.

6. Discovery of new semiconductor devices by Physics Simulation: Simulation of real-time physics needs intense amount of computing power this computing power is what Quantum Computers will give us, and it's knowing possible outcomes can help us create a "randomised" effect which can yield to discoveries without Human intervention.

7. Discovering observable and non-observable universes at Labs: What do I mean by this? We know how easy it would be after we have quantum computers to simulate anything from actual subatomic particles to heavy body simulations. As humans have already found out so many parts of observable universe we can feed that into our Quantum Computers and we can again leverage the principles of Quantum Mechanics to actually generate and feel the universe that is not observable.

8. Discovery of new alternatives to Harmonicity: We all know how much we love to play with Harmonic Oscillators in other words making things a little too simpler for our ease of understanding and work. But after discovery of "harmonic oscillator" alternative and feeding it or discovered by Quantum Computers we don't have to worry about simplicity and Quantum Computers can do the rest of the heavy calculations with this rises a new world where Quantum Computers are the actual personal computers so no one uses simpler approach.

9. Discovery of Antimatters: Antimatter opposite to matter has been bothering scientists for years and development can be sped up with Quantum Computers.

10. Simulation of Atomic Physics: We can simulate very basic to basic form of physics but it is hard to simulate a phenomenon in atomic physics because it requires a whole bunch of computing power. Which can be easily done with a Quantum Computer.

11. Quantum Chemistry: Quantum computers revolutionize chemical simulations and drug discovery, paving the way for innovative therapies and materials.

12. Financial Modeling: Quantum computing enhances financial modeling and forecasting, enabling more accurate predictions and risk assessments in investment and banking.

13. Quantum Data Storage: Leveraging the unique properties of qubits, quantum computers offer virtually unlimited storage capacity, revolutionizing data storage and retrieval.

14. Cost-Effective AGIs: Quantum computing drives advancements in Artificial General Intelligence (AGI), leading to more efficient and cost-effective AI solutions.

15. Business Predictions: Quantum computing enables unparalleled insights and predictions in business analytics, optimizing operations and decision-making processes.

16. Alchemy and Atom Manipulation: Quantum computers push the boundaries of chemistry and physics, enabling the manipulation of atoms and the synthesis of previously impossible materials.

17. Neuroscience Insights: Quantum computing enhances our understanding of the brain and consciousness, unlocking new insights into neuroscience and cognitive science.

18. Quantum Cryptography: Quantum computers offer unparalleled security through quantum cryptography, safeguarding sensitive information from cyber threats.

19. Materials Science Advancements: Quantum simulations drive discoveries in materials science, leading to the development of novel materials with unprecedented properties.

20. Accelerated Drug Discovery: Quantum computing accelerates drug discovery and development, leading to breakthroughs in healthcare and pharmaceuticals.

So these were my top 20 applications for Quantum Computing hopefully in future I will come up with even more applications. But as of now hope you liked it.