Reddit mentions: The best nuclear chemistry books
We found 7 Reddit comments discussing the best nuclear chemistry books. We ran sentiment analysis on each of these comments to determine how redditors feel about different products. We found 4 products and ranked them based on the amount of positive reactions they received. Here are the top 20.
1. Modern Alchemy: Selected Papers of Glenn T Seaborg (World Scientific 20th Century Chemistry)
- Used Book in Good Condition
Features:
Specs:
| Height | 10.48 Inches |
| Length | 7.79 Inches |
| Number of items | 1 |
| Weight | 3.52 Pounds |
| Width | 1.59 Inches |
2. Crucibles: The Story of Chemistry from Ancient Alchemy to Nuclear Fission
Specs:
| Height | 8.49 Inches |
| Length | 5.43 Inches |
| Number of items | 1 |
| Release date | June 1976 |
| Weight | 0.86862131228 Pounds |
| Width | 0.77 Inches |
3. Modern Nuclear Chemistry
Specs:
| Height | 9.5980123 Inches |
| Length | 6.401562 Inches |
| Number of items | 1 |
| Weight | 2.47799582488 Pounds |
| Width | 1.499997 Inches |
4. Dynamic Nmr Spectroscopy
Used Book in Good Condition
Specs:
| Number of items | 1 |
| Weight | 1.02074027306 Pounds |
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Summary
1. Modern Alchemy: Selected Papers of Glenn T Seaborg (World Scientific 20th Century Chemistry)
- Used Book in Good Condition
Features:
Specs:
| Height | 10.48 Inches |
| Length | 7.79 Inches |
| Number of items | 1 |
| Weight | 3.52 Pounds |
| Width | 1.59 Inches |
2. Crucibles: The Story of Chemistry from Ancient Alchemy to Nuclear Fission
Specs:
| Height | 8.49 Inches |
| Length | 5.43 Inches |
| Number of items | 1 |
| Release date | June 1976 |
| Weight | 0.86862131228 Pounds |
| Width | 0.77 Inches |
3. Modern Nuclear Chemistry
Specs:
| Height | 9.5980123 Inches |
| Length | 6.401562 Inches |
| Number of items | 1 |
| Weight | 2.47799582488 Pounds |
| Width | 1.499997 Inches |
4. Dynamic Nmr Spectroscopy
Used Book in Good Condition
Specs:
| Number of items | 1 |
| Weight | 1.02074027306 Pounds |
It isn't deleted. Here is a link. I was having trouble with that too on this thread for some reason.
I never knew that about his thesis! That makes me think maybe he set out to do this from the start and he eventually succeeded. Very cool.
This made me curious so I looked him up some more and it turns out he named his collected works "Modern Alchemy", so he was at least aware of the connection:
https://www.amazon.com/Modern-Alchemy-Selected-Scientific-Chemistry/dp/9810214405
Commenting to come back after math.Math:
Let's look at the math for the following superheavy synthesis reaction: Am-243(C-12,4n)Md-251. An atom of Am-243 is hit by a C-12 atom, and undergoes a "fusion-evaporation" reaction which yields Md-251 and ejects 4 neutrons. (Note: the 5n and 6n reactions, yielding Md-250 and -249 are also possible, according to Eskola PRC 7 (1973) 280.) To potentially cause fusion requires overcoming the Coulomb repulsion due to the positive charges of the nuclei, which repel each other. According to a spreadsheet which I have developed from equations in "Modern Nuclear Chemistry", it appears that for every fusion reaction, you require at least 56.7 MeV (the energy equivalent of 56.7 million electrons being accelerated through a 1-Volt potential), or 9.08434 pJ (pico-Joules = 1*10^(-12) Joules). This is equivalent to 4.61*10^14 molecules of TNT being exploded - this is a very small amount (about 1/10millionth of a paper clip), but a very large amount of energy for one atom to be formed.
I'm using the HyperPhysics Calculator so I don't make any simple math errors. For a particle with mass 12x a proton (C-12), to have a relativistic energy of 56.7*10^6 eV requires it to be traveling 0.09997*c, or ~1/10th the speed of light. Given the mind-boggling speeds encountered by matter near black holes, this isn't impossible.
Here's why it wouldn't happen in detectable amounts:
Let's assume that the black hole in Hercules A is our model. It emits (randomly) matter out of the two ends over billions of square kilometer. The odds of a head-on collision are incredibly small. The odds of hitting with an energetic enough but not-too-powerful carbon atom are impossibly small. Even if they do hit head-on, the odds are very small that they interact. In nuclear science, we use a unit called "barns" to determine the probability of interaction, which is nominally related to area units of cm^2. 1 barn = 1*10^(-24) cm^2; the sum of all C+Am=Md interactions is equal to 4.8*10^(-6) barns, or like throwing a dart and precisely hitting an area 4.8*10^(-30) cm^2, just right. Given an infinite time-scale, it may happen once or twice, but it would be individual atoms rather than grams in the entire universe.
Wow...i just paid £100 for a book and i thought i was Mr Big...thats amazing.
I took a grad course on the history of chemistry and we used The Development of Modern Chemistry by Ihde.
Another comprehensive (but style-wise a little hard to read) is
Crucibles:The Story of Chemistry from Ancient Alchemy to Nuclear Fission.
I have yet to read The Disappearing Spoon, a pop-sci read on the history and stories behind discoveries of elements.
http://www.amazon.com/Dynamic-Nmr-Spectroscopy-J-Sandstrom/dp/0126186200/ref=sr_1_2?ie=UTF8&qid=1411519756&sr=8-2&keywords=dynamic+nmr+spectroscopy
Your opinion is wrong. None of these references show any evidence whatsoever that cold fusion is a real phenomenon. Here are some references for where you can read about real nuclear physics: