Difference between revisions of "Life on Mars?"
| Line 20: | Line 20: | ||
<div id="Mars2"></div> | <div id="Mars2"></div> | ||
<div style="border: 1px solid #AAA; padding:5px;"> | <div style="border: 1px solid #AAA; padding:5px;"> | ||
| − | === Problem | + | === Problem 2 === |
Estimate the number of stars, which had already received the signal about homo sapiens being (existence) on the Earth. | Estimate the number of stars, which had already received the signal about homo sapiens being (existence) on the Earth. | ||
<div class="NavFrame collapsed"> | <div class="NavFrame collapsed"> | ||
| Line 33: | Line 33: | ||
<div id="Mars3"></div> | <div id="Mars3"></div> | ||
<div style="border: 1px solid #AAA; padding:5px;"> | <div style="border: 1px solid #AAA; padding:5px;"> | ||
| − | === Problem | + | === Problem 3 === |
Inhabited planets in our Galaxy are likely to be located within so--called galactical habitable zone, which has a form of narrow ring with a radius greater or approximately equal to half radius of Galaxy. Explain, why genesis (?) is unlikely to happen at too small and too large galactocentric distances. | Inhabited planets in our Galaxy are likely to be located within so--called galactical habitable zone, which has a form of narrow ring with a radius greater or approximately equal to half radius of Galaxy. Explain, why genesis (?) is unlikely to happen at too small and too large galactocentric distances. | ||
<div class="NavFrame collapsed"> | <div class="NavFrame collapsed"> | ||
| Line 46: | Line 46: | ||
<div id="Mars4"></div> | <div id="Mars4"></div> | ||
<div style="border: 1px solid #AAA; padding:5px;"> | <div style="border: 1px solid #AAA; padding:5px;"> | ||
| − | === Problem | + | === Problem 4 === |
Why does the width of galactic habitable zone gradually increase in time? | Why does the width of galactic habitable zone gradually increase in time? | ||
<div class="NavFrame collapsed"> | <div class="NavFrame collapsed"> | ||
| Line 59: | Line 59: | ||
<div id="Mars5"></div> | <div id="Mars5"></div> | ||
<div style="border: 1px solid #AAA; padding:5px;"> | <div style="border: 1px solid #AAA; padding:5px;"> | ||
| − | === Problem | + | === Problem 5 === |
One of the possible formulations of the Fermi paradox, or the ''great silence'' paradox, is the following: if there is intelligent life in the Universe, why does it not emit any signal into space and generally manifest itself in any way? This paradox is related to the name of Fermi, because once having listened to the arguments of his colleagues stating that there exist a great number of highly developed technological civilizations, he asked after some pause: ''So, where are they?'' Give arguments to support or disprove the paradox. | One of the possible formulations of the Fermi paradox, or the ''great silence'' paradox, is the following: if there is intelligent life in the Universe, why does it not emit any signal into space and generally manifest itself in any way? This paradox is related to the name of Fermi, because once having listened to the arguments of his colleagues stating that there exist a great number of highly developed technological civilizations, he asked after some pause: ''So, where are they?'' Give arguments to support or disprove the paradox. | ||
<div class="NavFrame collapsed"> | <div class="NavFrame collapsed"> | ||
| Line 74: | Line 74: | ||
<div id="razm50n"></div> | <div id="razm50n"></div> | ||
<div style="border: 1px solid #AAA; padding:5px;"> | <div style="border: 1px solid #AAA; padding:5px;"> | ||
| − | === Problem | + | === Problem 6 === |
* Imagine for a moment, that electron has mass several times larger that aclual. If other conditions ware the same, how would our Universe change? | * Imagine for a moment, that electron has mass several times larger that aclual. If other conditions ware the same, how would our Universe change? | ||
<div class="NavFrame collapsed"> | <div class="NavFrame collapsed"> | ||
| Line 87: | Line 87: | ||
<div id="razm50nn"></div> | <div id="razm50nn"></div> | ||
<div style="border: 1px solid #AAA; padding:5px;"> | <div style="border: 1px solid #AAA; padding:5px;"> | ||
| − | === Problem | + | === Problem 7 === |
Our Sun emits energy during billions of years and thus supports life development on the Earth. It is possible due to very slow reaction of deuteron creation from two interacting protons. Find the limiting value of electron mass providing the necessarily low rate of such reaction. | Our Sun emits energy during billions of years and thus supports life development on the Earth. It is possible due to very slow reaction of deuteron creation from two interacting protons. Find the limiting value of electron mass providing the necessarily low rate of such reaction. | ||
<div class="NavFrame collapsed"> | <div class="NavFrame collapsed"> | ||
Revision as of 02:36, 11 September 2012
Problem 1
Consider a highly developed alien civilization, actively exploring the Earth in search of intelligent life. How would citizens of opposite part of Milky Way see their "prothers in mind" from the Earth? And what about citizens of Andromeda galaxy?
Problem 2
Estimate the number of stars, which had already received the signal about homo sapiens being (existence) on the Earth.
Problem 3
Inhabited planets in our Galaxy are likely to be located within so--called galactical habitable zone, which has a form of narrow ring with a radius greater or approximately equal to half radius of Galaxy. Explain, why genesis (?) is unlikely to happen at too small and too large galactocentric distances.
Problem 4
Why does the width of galactic habitable zone gradually increase in time?
Problem 5
One of the possible formulations of the Fermi paradox, or the great silence paradox, is the following: if there is intelligent life in the Universe, why does it not emit any signal into space and generally manifest itself in any way? This paradox is related to the name of Fermi, because once having listened to the arguments of his colleagues stating that there exist a great number of highly developed technological civilizations, he asked after some pause: So, where are they? Give arguments to support or disprove the paradox.
Fine-tuning of the Universe
Problem 6
- Imagine for a moment, that electron has mass several times larger that aclual. If other conditions ware the same, how would our Universe change?
Problem 7
Our Sun emits energy during billions of years and thus supports life development on the Earth. It is possible due to very slow reaction of deuteron creation from two interacting protons. Find the limiting value of electron mass providing the necessarily low rate of such reaction.
