Rad Data Handbook 20.. - Voss Associates

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SURFACE AREA AND VOLUME CALCULATIONS Triangle A (area) = ½ x b x h; where b is the base and h is the height of the triangle Rectangle A (area) = a x b; where a and b are the lengths of the sides Rectangular Box V (volume) = w x l x h; where w is the width, l is the length, and h is the height Parallelogram (a 4-sided figure with opposite sides parallel) A (area) = a x h; or a x b x sin ; where a and b are the length of the sides, h is the altitude (or vertical height), and is the angle between the sides Trapezoid (a 4-sided figure with two sides parallel) A (area) = ½ x h (a + b); where a and b are the length of the sides and h is the height Regular polygon of n sides 2 0 A (area) = 1/4 x n x a x cotangent (180 / n); where a is the length of a side and n is the number of sides 2 2 Circle A (area) = x r ; or 1/4 x x d ; where r is the radius and d is the diameter 2 Cube A (area) = 6 x a ; 3 V (volume) = a ; where a is the length of a side Cylinder A (area) = 2 x x r x h; 2 V (volume) = x r x h; where r is the radius and h is the length of the height 2 2 Sphere A (area) = 4 x x r ; or x d ; 3 3 V (volume) = 4/3 x x r or 1/6 x x d where r is the radius and d is the diameter SURFACE AREA AND VOLUME CALCULATIONS Triangle A (area) = ½ x b x h; where b is the base and h is the height of the triangle Rectangle A (area) = a x b; where a and b are the lengths of the sides Rectangular Box V (volume) = w x l x h; where w is the width, l is the length, and h is the height Parallelogram (a 4-sided figure with opposite sides parallel) A (area) = a x h; or a x b x sin ; where a and b are the length of the sides, h is the altitude (or vertical height), and is the angle between the sides Trapezoid (a 4-sided figure with two sides parallel) A (area) = ½ x h (a + b); where a and b are the length of the sides and h is the height Regular polygon of n sides 2 0 A (area) = 1/4 x n x a x cotangent (180 / n); where a is the length of a side and n is the number of sides 2 2 Circle A (area) = x r ; or 1/4 x x d ; where r is the radius and d is the diameter 2 Cube A (area) = 6 x a ; 3 V (volume) = a ; where a is the length of a side Cylinder A (area) = 2 x x r x h; 2 V (volume) = x r x h; where r is the radius and h is the length of the height 2 2 Sphere A (area) = 4 x x r ; or x d ; 3 3 V (volume) = 4/3 x x r or 1/6 x x d where r is the radius and d is the diameter 122 122 SURFACE AREA AND VOLUME CALCULATIONS Triangle A (area) = ½ x b x h; where b is the base and h is the height of the triangle Rectangle A (area) = a x b; where a and b are the lengths of the sides Rectangular Box V (volume) = w x l x h; where w is the width, l is the length, and h is the height Parallelogram (a 4-sided figure with opposite sides parallel) A (area) = a x h; or a x b x sin ; where a and b are the length of the sides, h is the altitude (or vertical height), and is the angle between the sides Trapezoid (a 4-sided figure with two sides parallel) A (area) = ½ x h (a + b); where a and b are the length of the sides and h is the height Regular polygon of n sides 2 0 A (area) = 1/4 x n x a x cotangent (180 / n); where a is the length of a side and n is the number of sides 2 2 Circle A (area) = x r ; or 1/4 x x d ; where r is the radius and d is the diameter 2 Cube A (area) = 6 x a ; 3 V (volume) = a ; where a is the length of a side Cylinder A (area) = 2 x x r x h; 2 V (volume) = x r x h; where r is the radius and h is the length of the height 2 2 Sphere A (area) = 4 x x r ; or x d ; 3 3 V (volume) = 4/3 x x r or 1/6 x x d where r is the radius and d is the diameter SURFACE AREA AND VOLUME CALCULATIONS Triangle A (area) = ½ x b x h; where b is the base and h is the height of the triangle Rectangle A (area) = a x b; where a and b are the lengths of the sides Rectangular Box V (volume) = w x l x h; where w is the width, l is the length, and h is the height Parallelogram (a 4-sided figure with opposite sides parallel) A (area) = a x h; or a x b x sin ; where a and b are the length of the sides, h is the altitude (or vertical height), and is the angle between the sides Trapezoid (a 4-sided figure with two sides parallel) A (area) = ½ x h (a + b); where a and b are the length of the sides and h is the height Regular polygon of n sides 2 0 A (area) = 1/4 x n x a x cotangent (180 / n); where a is the length of a side and n is the number of sides 2 2 Circle A (area) = x r ; or 1/4 x x d ; where r is the radius and d is the diameter 2 Cube A (area) = 6 x a ; 3 V (volume) = a ; where a is the length of a side Cylinder A (area) = 2 x x r x h; 2 V (volume) = x r x h; where r is the radius and h is the length of the height 2 2 Sphere A (area) = 4 x x r ; or x d ; 3 3 V (volume) = 4/3 x x r or 1/6 x x d where r is the radius and d is the diameter `122 122
ELECTROMAGNETIC SPECTRUM Wavelength Frequency Energy Radiation Meters MHz keV Type 1E-8 3E20 1.24E9 Cosmic ____________ ELECTROMAGNETIC SPECTRUM Wavelength Frequency Energy Radiation Meters MHz keV Type 1E-8 3E20 1.24E9 Cosmic ____________ 1E-14 3E16 1.24E5 X-Ray _________ gamma 1E-10 3E12 1.24E1 _________ _________ UV 1E-6 3E8 1.24E-3 ______ visible IR _________ 1E-2 3E4 1.24E-7 _____________ microwave radar TV 1E2 3 1.24E-11 TV shortwave radio 1E6 3E-4 1.24E-15 ë (meters wavelength) = 300 / F = 1.24E-9 / keV F (frequency MHz) = 300 / ë = 2.419E11 x keV E (keV) = 1.24E-9 / ë = F / 2.419E11 1E-14 3E16 1.24E5 X-Ray _________ gamma 1E-10 3E12 1.24E1 _________ _________ UV 1E-6 3E8 1.24E-3 ______ visible IR _________ 1E-2 3E4 1.24E-7 _____________ microwave radar TV 1E2 3 1.24E-11 TV shortwave radio 1E6 3E-4 1.24E-15 ë (meters wavelength) = 300 / F = 1.24E-9 / keV F (frequency MHz) = 300 / ë = 2.419E11 x keV E (keV) = 1.24E-9 / ë = F / 2.419E11 ELECTROMAGNETIC SPECTRUM Wavelength Frequency Energy Radiation Meters MHz keV Type 1E-8 3E20 1.24E9 Cosmic ____________ ELECTROMAGNETIC SPECTRUM Wavelength Frequency Energy Radiation Meters MHz keV Type 1E-8 3E20 1.24E9 Cosmic ____________ 1E-14 3E16 1.24E5 X-Ray _________ gamma 1E-10 3E12 1.24E1 _________ _________ UV 1E-6 3E8 1.24E-3 ______ visible IR _________ 1E-2 3E4 1.24E-7 _____________ microwave radar TV 1E2 3 1.24E-11 TV shortwave radio 1E6 3E-4 1.24E-15 ë (meters wavelength) = 300 / F = 1.24E-9 / keV F (frequency MHz) = 300 / ë = 2.419E11 x keV E (keV) = 1.24E-9 / ë = F / 2.419E11 1E-14 3E16 1.24E5 X-Ray _________ gamma 1E-10 3E12 1.24E1 _________ _________ UV 1E-6 3E8 1.24E-3 ______ visible IR _________ 1E-2 3E4 1.24E-7 _____________ microwave radar TV 1E2 3 1.24E-11 TV shortwave radio 1E6 3E-4 1.24E-15 ë (meters wavelength) = 300 / F = 1.24E-9 / keV F (frequency MHz) = 300 / ë = 2.419E11 x keV E (keV) = 1.24E-9 / ë = F / 2.419E11
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Abbreviations 115 Activity vs Expos
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RADIOLOGICAL EMERGENCY RESPONSE Wri
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HAZARD CONTROL PRIORITIES DURING ME
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ACUTE RADIATION EFFECTS 0 - 25 REM
Page 9 and 10:
TABLE OF THE ELEMENTS Z Density Z D
Page 11 and 12:
Relative Locations of Products of N
Page 13 and 14:
RADIOACTIVE DECAY MODES OF COMMONLY
Page 15 and 16:
Progeny kev and % abundance 55 Fe 5
Page 17 and 18:
Progeny kev and % abundance 99 Mo 9
Page 19 and 20:
Progeny kev and % abundance 208 Tl
Page 21 and 22:
Progeny kev and % abundance 229 Th
Page 23 and 24:
Progeny kev and % abundance 241 Am
Page 25 and 26:
Progeny kev and % abundance Progeny
Page 27 and 28:
Progeny kev and % abundance 222 Rn
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Neptunium Decay Chain (4n + 1) st 1
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Actinium Decay Chain (4n + 3) st 1
Page 33 and 34:
Ci / g = 3.578E5 / (T 1/2 in years
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Rem/hr / Ci Sv/hr / GBq Half-Life C
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Page 39 and 40:
Page 41 and 42:
Page 43 and 44:
Page 45 and 46:
mRem/hr mSv/hr 1ì 10ì 100ì 1ì 1
Page 47 and 48:
RADIATION BIOLOGY Maximum survivabl
Page 49 and 50:
INTERNAL DOSIMETRY Calculating CDE
Page 51 and 52:
EQUIVALENT DOSE, EFFECTIVE DOSE, an
Page 53 and 54:
CALCULATING TODE AND TEDE TEDE = DD
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SHIELDING MATERIALS α a single she
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Beta Dose Rates in rad/hr per mCi M
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Combining Radiation Types to Determ
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NEUTRON SHIELD THICKNESS I = I0e -N
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Exposure Rate in an Air-Filled Ion
Page 65 and 66:
Inverse Square Law 2 2 X 1 (D) 1 =
Page 67 and 68:
Table 1 of DOE 5400.5 Surface Activ
Page 69 and 70:
6CEN The 6CEN equation can be used
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Ventilation Rates Ventilation rates
Page 73 and 74: AIR FLOW METER CORRECTIONS Mass Flo
Page 75 and 76: 10CFR20 DAC 10CFR835 DAC 10CFR20 AL
Page 103 and 104: External Exposure in a Cloud of Air
Page 105 and 106: Characteristic X-Rays (KeV) of the
Page 107 and 108: Z # K K L L 103 Lr 71 Lu 54.06 61.2
Page 109 and 110: COUNTING STATISTICS COUNTING STATIS
Page 111 and 112: ELEVATION VS AIR PRESSURE Barometri
Page 113 and 114: NE Omaha 983 UT Cedar City 5,623 NH
Page 115 and 116: COMPOSITION OF AIR Density of Symbo
Page 117 and 118: ABBREVIATIONS ampere A, or amp angs
Page 119 and 120: Mass 1 gram = 0.03527 ounces 1 ounc
Page 121 and 122: Radiological 1 BTU = 235 1.28E-8 g
Page 123: CONSTANTS Avogadro's number (N 0) 6
Page 127 and 128: 5. Air-proportional alpha detectors
Page 129 and 130: 32 7. The bremsstrahlung from a 1 C
Page 131 and 132: RULES OF THUMB FOR NEUTRONS 1. The
Page 133 and 134: Spontaneous Fission Neutron and Gam
Page 135 and 136: Energy & Yield of neutrons from the
Page 137 and 138: WG Pu 15 years after fabrication 23
Page 139 and 140: Isotopic Mix of Natural U 238 U 234
Page 141 and 142: MISCELLANEOUS RULES OF THUMB 1. One
Page 143 and 144: PUBLIC RADIATION DOSES Average per
Page 145 and 146: COMPARATIVE RISKS OF RADIATION EXPO
Page 147 and 148: Voss Associates provides valuable t
Page 149: Publications Radiation Data Radiati
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Rad Data Handbook 20.. - Voss Associates

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