In January this year, I finally found some like me out there! I was contacted. By a fellow space enthusiast. Throughout my childhood, I rarely met anyone who shared my curiosity for space and astronomy - and was agitated about it. Then, I finally found one. It was my classmates elder brother who had heard about my space related pursuits through grapevine. He ran his own space advocacy initiative and was looking forward to a consortium of space enthusiasts to observe the International Year of Astronomy.
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About Usman
I believe that fastest scientific progress comes from multidimensional scientific research and integration of a vast array of sciences, so you will...
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Based on a number of queries on basic structure design, settlement protection, and settlement operations.
Firstly, the entire colony does not need to be entirely of domes. Domes can be used for the living habitat for settlers, the forest, and for agriculture, where there needs to be an element of 'openness' and efficient supply of sun light. For industrial and storage units, simple match-box like structures with slanting sides can be used to save on material and simplify structure assembly -- any automatic, non-labor intensive units don't even need to covered with glass at
all! You can give it a continuous case like form. Glass is gonna be expensive.
Firstly, the entire colony does not need to be entirely of domes. Domes can be used for the living habitat for settlers, the forest, and for agriculture, where there needs to be an element of 'openness' and efficient supply of sun light. For industrial and storage units, simple match-box like structures with slanting sides can be used to save on material and simplify structure assembly -- any automatic, non-labor intensive units don't even need to covered with glass at
all! You can give it a continuous case like form. Glass is gonna be expensive.
I was having a confusion in deciding how many layers of each material is to be used and the thickness of each layer.
Well you need the materials - whatever they are - to perform two functions:
a. Be tough to withstand colliding debris.
b. Block out harmful rays.
From the materials you have researched, select a material that can serve both the purposes, so that you can employ mass production techniques and get economies of scale.
Now, the total thickness of a particular 'glass' will depend on two things:
1. Its impedance.
Well you need the materials - whatever they are - to perform two functions:
a. Be tough to withstand colliding debris.
b. Block out harmful rays.
From the materials you have researched, select a material that can serve both the purposes, so that you can employ mass production techniques and get economies of scale.
Now, the total thickness of a particular 'glass' will depend on two things:
1. Its impedance.
To make sense, please read the Introduction entry first.
Secondly, how do quantum computers work?
Well, quantum computing is largely theoretical today. Although efforts have been made to make quantum computer and have been successful, a quantum computer of the sort that can completely outdo classical computer and be available in stores is not even on the drawing board!
Secondly, how do quantum computers work?
Well, quantum computing is largely theoretical today. Although efforts have been made to make quantum computer and have been successful, a quantum computer of the sort that can completely outdo classical computer and be available in stores is not even on the drawing board!
Recently, I was asked to help around a group that was designing a settlement on the moon. As I worked with them, I found the work increasingly absorbing and I soon started researching some questions that sprang up from my though process, not necessarily related to the designing.
In this series of blogs, I have presented some of the proposals I gave to solve the group's problems, as well as the extra diverse questions and ideas that popped up in my mind. The purpose of this activity to document how ideas evolve and how they can be synthesized to develop technology. The other main reason is to open the ideas for debate, so that we all can learn more and develop troubleshooting skills!
In this series of blogs, I have presented some of the proposals I gave to solve the group's problems, as well as the extra diverse questions and ideas that popped up in my mind. The purpose of this activity to document how ideas evolve and how they can be synthesized to develop technology. The other main reason is to open the ideas for debate, so that we all can learn more and develop troubleshooting skills!
Planet formation, as we all know (and don't know), is chaotic. It is like a lorenz Attractor constructable in computational astrophysics labs. When I was working on my astronomy project at Harvard this summer, I realized that there was a way to zoom into this complex, utterly random phenomenon to get a glimpse of the precise conditions of the proto-planetary disk as it evolved into the 'solar system'.
So what is that 'way' anyway?
So what is that 'way' anyway?
Alan Guth’s Inflation Theory is a pioneering work. Hitherto, cosmologists had only defined what the big bang actually was without addressing the reasons for the event. Before, the inflation theory, there were several loopholes in the big bang model. In fact, some even contradicted the theory of relativity. Further the basic cosmological principles of homogeneity and isotropy also went unexplained.
The Theory of Inflation solved many of these conundrums.
Inflation is the phase our universe passed through immediately after the big bang. In it, it expanded rapidly leading to a flat and homogeneous universe as we know it today. The inflation phase last for a short while (10-32s) and then the universe continued to expand leisurely.
The Theory of Inflation solved many of these conundrums.
Inflation is the phase our universe passed through immediately after the big bang. In it, it expanded rapidly leading to a flat and homogeneous universe as we know it today. The inflation phase last for a short while (10-32s) and then the universe continued to expand leisurely.
Black holes have been a research concentration for a number of years now. Advanced telescopes like Chandra X-ray Observatory and the Swift Gamma Ray Burst Telescope make it easier to observe the effects of black holes on their local neighborhood. Black holes have intrigued me for a number of years now as the physics involved can help us understand behavior of singularities and behavior of matter in extreme situations. Also, study of black holes may expose the source of the large amount of energy given out by quasars.
The particular point that I find interesting is the detection of these exotic objects. So far, extensive models on the workings of black holes are only based on the effect they have on the surroundings.
The particular point that I find interesting is the detection of these exotic objects. So far, extensive models on the workings of black holes are only based on the effect they have on the surroundings.
