[ RadSafe ] Concerning Rizzini's claim of one ug U-238
Cary Renquist
cary.renquist at ezag.com
Mon Oct 28 10:19:09 CDT 2013
Doesn't that mean that he is correct? 100% of people with more than 1 ug U238 will die.
---
Cary Renquist
-----Original Message-----
From: radsafe-bounces at health.phys.iit.edu [mailto:radsafe-bounces at health.phys.iit.edu] On Behalf Of Cowie, Michael I
Sent: Sunday, 27 October 2013 11:30 PM
To: The International Radiation Protection (Health Physics) Mailing List; Mattias.Lantz at physics.uu.se; The International Radiation Protection(Health Physics) Mailing List
Subject: Re: [ RadSafe ] Concerning Rizzini's claim of one ug U-238
From the IAEA document Depleted uranium: sources, exposure and health effects, Executive Summary it states:
On average, approximately 90 μg (micrograms) of uranium exist in the human body from normal intakes of water, food and air; approximately 66% is found in the skeleton, 16% in the liver, 8% in the
kidneys and 10% in other tissues.
So with 99.27% of that being U-238................
Mike
-----Original Message-----
From: radsafe-bounces at health.phys.iit.edu [mailto:radsafe-bounces at health.phys.iit.edu] On Behalf Of Otto G. Raabe
Sent: Monday, October 28, 2013 10:14 AM
To: Mattias.Lantz at physics.uu.se; The International Radiation Protection (Health Physics) Mailing List
Subject: Re: [ RadSafe ] Concerning Rizzini's claim of one ug U-238
Rizzini has been quoted as saying that one microgram of U-238 can kill a person. An article from March 31, 2011, Rizzini once again claims that 1 microgram of uranium is enough to kill a person:
PLEASE CHECK MY MATH: According to ICRP-2 (page 81) a human can have a body burden of U-238 of 0.5 microcuries without lifetime risk.
That is 0.5 microcuries times 3.7 x 109 Bq/uCi = 1.9 x 109 Bq. One microgram of U-238 equals 0.012 Bq.
Hence, according to ICRP-2 a human could have an internal burden of about ten grams without significant radiation risk.
Am I missing something here? Please check my math.
Otto
**********************************************
Prof. Otto G. Raabe, Ph.D., CHP
Center for Health & the Environment
University of California
One Shields Avenue
Davis, CA 95616
E-Mail: ograabe at ucdavis.edu
Phone: (530) 752-7754 FAX: (530) 758-6140
***********************************************
_______________________________________________
You are currently subscribed to the RadSafe mailing list
Before posting a message to RadSafe be sure to have read and understood the RadSafe rules. These can be found at: http://health.phys.iit.edu/radsaferules.html
For information on how to subscribe or unsubscribe and other settings visit: http://health.phys.iit.edu
________________________________
The contents of this email, including all related responses, files and attachments transmitted with it (collectively referred to as “this Email”), are intended solely for the use of the individual/entity to whom/which they are addressed, and may contain confidential and/or legally privileged information. This Email may not be disclosed or forwarded to anyone else without authorization from the originator of this Email. If you have received this Email in error, please notify the sender immediately and delete all copies from your system. Please note that the views or opinions presented in this Email are those of the author and may not necessarily represent those of Saudi Aramco. The recipient should check this Email and any attachments for the presence of any viruses. Saudi Aramco accepts no liability for any damage caused by any virus/error transmitted by this Email.
_______________________________________________
You are currently subscribed to the RadSafe mailing list
Before posting a message to RadSafe be sure to have read and understood the RadSafe rules. These can be found at: http://health.phys.iit.edu/radsaferules.html
For information on how to subscribe or unsubscribe and other settings visit: http://health.phys.iit.edu
More information about the RadSafe
mailing list