Solving the Highest Level Scientific Problems: Research Hours Needed

In summary, the highest level of scientific problem-solving requires extensive research and hard work, similar to other fields such as athletics, writing, and business. The journey of hard work itself is rewarding, even if the ultimate destination of achieving something "first rate" may not be attainable for everyone.
  • #1
redgoat
37
0
How many hours does a scientist have to use as research hours in order to solve the highest level of scientific problem?
 
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  • #2
That's a broad question. The "highest level" of a problem is a relevant term and surely the amount of research depends on what they're researching!

Please specify a little more.
 
  • #3
even to do any viable research at all in mathematics, i had to use all the available hours i could squeeze out of the day and the night, often going without sleep.

It should be obvious that a field in which people like Gauss, Riemann, Fermat, Wiles, etc participate, an ordinary human has to give all he has got to do anything worthwhile at all.

how hard does an athlete have to train to win even one meet? how hard does a writer have to work even to publish one book? or a small businessman to avoid going broke? we all have to work as hard as we possibly can to do anything worthwhile at all.

it is not a question of, "how hard do you have to work to do something first rate?". it is more like even if you work as hard as you can your whole life, will you ever do anything really first rate?

the joy is in the journey, not the destination. hard work itself is rewarding, knowing you did your best. certainly less than your best will not avail much.
 
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  • #4
mathwonk said:
we all have to work as hard as we possibly can to do anything worthwhile at all.

it is not a question of, "how hard do you have to work to do something first rate?". it is more like even if you work as hard as you can your whole life, will you ever do anything really first rate?
That reminds me of something G. H. Hardy wrote in _A Mathematician's Apology_:

"Most people can do nothing at all well ... It is a tiny minority who can do anything really well, and the number of men who can do two things really well is negligible. If a man has any genuine talent, he should be ready to make almost any sacrifice in order to cultivate it to the full."
 

What is the highest level scientific problem?

The highest level scientific problem refers to a complex and challenging issue in the field of science that requires extensive research and innovation to solve. These problems often involve cutting-edge technologies and have the potential to significantly advance our understanding of the world.

How many research hours are typically needed to solve such problems?

The number of research hours needed to solve a high-level scientific problem can vary greatly depending on the specific problem and the resources available. In some cases, it may take a team of scientists several years to find a solution, while others may require decades of research.

Why does solving high-level scientific problems take so long?

Solving high-level scientific problems is a complex and challenging process that requires a thorough understanding of the problem, innovative thinking, and rigorous experimentation. It also often involves collaboration between multiple scientists and may require the development of new technologies and techniques.

What are some examples of high-level scientific problems that have been solved?

Some examples of high-level scientific problems that have been solved include the discovery of the Higgs boson particle, the development of CRISPR gene editing technology, and the creation of the first genetically modified organisms. These breakthroughs required significant research and collaboration among scientists.

What are the potential benefits of solving high-level scientific problems?

The potential benefits of solving high-level scientific problems are numerous and can have a significant impact on society. These can include advancements in technology, improvements in healthcare, and a better understanding of the world around us. Additionally, solving these problems can inspire future generations of scientists and lead to further breakthroughs in the field.

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