can i just thank everybody here for this thread.
You're welcome.
i actually feel sorry for starting it all now lol
No need to feel sorry. It's good to get into a debate. The only thing I'm sorry about is his lack of staying power. Two days of intense activity followed by a flounce. One of the shortest we've had I think.
as you may have guessed my knowledge on this matter is limited and i have learned a lot.
The last five words of that sentence are what sets you apart from Tim....
1. the GCR is not all High Energy Particles but consists of a spectrum of radiation. this means that it is quite difficult to calculate what dosage any mission should receive.
Not only a spectrum but variable over time, influenced by solar activity, and several other variables that Tim seemed unwilling to believe existed or influenced the radiation levels sufficiently to matter.
2. the Mars missions vehicle and the apollo mission vehicle were different by design (if not by radiation design) and would therefore be impossible to compare due to those differences.
Essentially correct as far as I understand it, since radiation exposure is entirely dependent on what is between you and the source. Tim insisted we 'lack the technology' to shield GCRs. That's not strictly true, since sticking anything in between you and the source will shield to some extent. The question is how much and what is acceptable for the mission requirements and crew health.
He also insisted on using averaged data without considering error margins. Another of his oversimplifications. Here's an illustration of why:
Imagine you are in space for 10 days and you measure the radiation exposure every day. In the units of choice anything under 10 is 'safe', anything over 20 increases your likelihood of getting cancer in the next 20 years by 50% and anything over 30 will see you dead within 24 hours of exposure. Let's say on that mission your data set looks like this:
6,6,2,3,3,4,7,6,5,8
Average that out and you have experienced a mean of 5 units per day on the mission. A safe mission.
Now imagine someone else goes up and the data set looks like this:
2,1,2,1,3,2,33,3,2,1
If you look at the average there's a mean of 5 units per day of exposure, so looking at that data set you would conclude it was safe. However, there was a spike over 30 in the middle of that, so the reality is your astronaut was dead before they came home. The average data (safe daily levels for both missions) and the observed reality (one healthy and one dead astronaut) don't match, so you can't use it to compare the two missions directly.
is the above correct or have i confirmed my denseness on this matter.
I can't comment on your HEP query as I am unqualified to do so, however, don't confuse ignorance and 'denseness'. Everyone is ignorant of something, and in the case of complex fields like radiation more people are way more ignorant than others because it takes a lot of study to get a real grasp of it, and it's an evolving science anyway. You may be ignorant, but your willingness to listen and learn counts against any suggestion of 'denseness'.
