From 6ebf4de4fa4323156d4ff3207e64729d11d52e51 Mon Sep 17 00:00:00 2001 From: Dane Sabo Date: Mon, 16 Sep 2024 11:18:53 -0400 Subject: [PATCH] vault backup: 2024-09-16 11:18:53 --- .../2024-09-10 Module 3.md | 24 +++++++++++++++++++ 1 file changed, 24 insertions(+) diff --git a/300s School/NUCE 2100 - Fundamentals of Nuclear Engineering/2024-09-10 Module 3.md b/300s School/NUCE 2100 - Fundamentals of Nuclear Engineering/2024-09-10 Module 3.md index ff67a660..f1543e3a 100644 --- a/300s School/NUCE 2100 - Fundamentals of Nuclear Engineering/2024-09-10 Module 3.md +++ b/300s School/NUCE 2100 - Fundamentals of Nuclear Engineering/2024-09-10 Module 3.md @@ -26,7 +26,31 @@ completed: null 2. But different rays can only penetrate certain materials 1. Ionization density is inversely proportional to penetration +>[!note] **Exposure:** +>The $\gamma$ and x ray radiation field incident on a body. Measured by the specific ionization produced by it in the neighboring air. +>Measured in photon flux. Amount of energy transferred from the photons ot a unit mass of air. +>Traditional unit for exposure is the roentgen (R) +>1 R is the amount of radiation required to **liberate** positive or negative charges of one electrostatic unit of charge (esu = 3.33E-10 Coulomb) in 1 cm^3 of dry air at STP. +>1 R = 1 esu/cm^3 where $\rho$ = 1.293 kg/m^3 +>An old unit. First attempt and standardizing field of radiation measurement + +>[!note] Absorbed Dose +>Actual damage to matter depends on how much energy is absorbed. +>SI unit: rad ("Radiation Absorbed Dose"): 1 rad = 100 ergs/gm + +>[!attention] SI Units for Radiation Quantities +>• Decay rate: Becquerel (Bq): 1Bq = 1 disintegration/second (dps), whereas 1 Curie = 3.7 x 1010 dps +>• Deposited energy: Gray (Gy): 1 Gy = 100 rads = 1 joule/kg * +>• Biological radiation effect: Sievert (Sv): 1 Sv = 100 rem +> +>* Recall 1 erg = 10-7 joule + # Module 3.2 - Radiation Damage in Biological Systems +Concentrations of ionizations within a single cell are more damaging then spread out ionization over many cells. +Biological damage is proportional to absorbed dose, as well as LET for that type of radiaiton. + +Look at slides from 3.1 Slide 22-24 for more info + # Module 3.3 - Radiation Protection Standards # Module 3.4 - Estimating Radiation Dose Rates # Module 3.5 - Radiation Shielding \ No newline at end of file