이 목록은 다양 한 에너지 (J )를 크기 순서로 비교 합니다.
1 J 미만 1~105 J 106 ~ 1011 J 1012 ~ 1017 J 1018 ~ 1023 J 1023 J 이상
10개24 요타- (YJ)5.5×1024 J 매년[167] [195] 표면 에 도달하는 태양 의 총 에너지 10개25 6×1025 J 태양 [196] 10개26 10J26 이상 초기 시생대 소행성 [197] 3.8×1026 J 초당 [198] 10개27 1×1027 J 수성에 칼로리스 [199] ~3×1027 J 지구 표면의 모든 물을 증발시키는 데 필요한 에너지의 추정치 10개28 3.8×1028 J 달 의 지구 궤도 운동 에너지(지구와 [200] [201] 10개29 2.1×1029 J 지구 의[202] [203] [204] 에너지 10개30 1.8×1030 J 수성 의 중력 결합 에너지 10개31 ~2×1031 J 지금까지 가장 에너지 넘치는 항성 슈퍼플레어 (S Fornacis)[205] 3.3×1031 J 매일 [198] [206] 10개32 2×1032 J 지구 의[207] 중력 결합 에너지 10개33 2.7×1033 J 지구 [208] 운동 에너지 10개34 1.2×1034 J 매년 [198] [209] 10개39 1~5×1039 J SGR 1806-20 에서[210] [211] [212] 별자리 )의 에너지 6.6×1039 J 이론적 으로 달의 총 질량 에너지 10개41 2.276×1041 J 태양 의[213] 5.4×1041 J 이론적 으로[214] [215] 질량 에너지 10개43 5×1043 J 일반적인 감마선 [216] [217] 10개44 최대44 10 J 광대역 [218] UV대역 에서의 TDE(Timent Disruption Event) 평균값 1 ~ 2 × 1044 J 초신성 에서 [219] 적이라고 × 1044 J태양 의 대략적인 평생 에너지 출력입니다. 10까지44-45 FBOT CSS1610에[220] 의해 방출된 운동 에너지 추정치 10개45 ± 0.2)×10J45 하이퍼노바 ASASSN-15lh 에[221] 2.3×1045 J 매우 에너지 넘치는 초신성 [222] [223] PS1-10adi 에 의해 방출되는 에너지로, ASASSN-15lh의 약 2배입니다. 545 5 × 10 J 지금까지 가장 에너지 넘치는 초신성 SN 2016aps 가[224] [225] [226] [227] 1045 J를 넘다 자기회전성 극초노바의[228] 몇 배×1045 J 초에너지 감마선 [229] [230] [231] [232] [233] 에너지 (감마선 에너지+상대 운동 에너지) 10개46 1046 J를 넘다 초노바 ,[234] [235] 불안정 초신성 [236] 노바 에서[237] 10개47 1045-47 J 전자장 [238] [239] 진공편광에 의한 항성질량 회전블랙홀 추정에너지 1047 J를 넘다 매우 에너지적이고 상대론적 분사 조수 파괴 사건(TDE)[240] 1.8×1047 J 이론적 으로[241] [242] 질량 에너지 5.4×1047 J LIGO(GW150914 )[243] 블랙홀 이 합쳐지는 동안 중력파 로 방출되는 질량 에너지 8.6×1047 J 2020년까지 관측된 가장 강력한 블랙홀 병합 중 중력파로 방출되는 질량 에너지(GW170729)[244] 8.8×1047 J GRB 080916C – 지금까지 기록된 것 중 가장 강력한 감마선 버스트(GRB) – [245] [246] 47 줄(8.8 × 1054 erg) 또는 에너지로 전환된 태양 질량의 4.9배로 추정되는 총 '외관상'/등방성(빔에 대해 보정되지 않음) 에너지 출력. 10개48 최대48 10 J "일반 상대론적 불안정성 초신성"[247] [248] 초대질량 종족 III 별 초신성의 추정 에너지. 1.2×1048 J까지 지금까지[249] [250] [251] [252] [253] 중간질량 블랙홀 을 발생시킨 가장 강력한 블랙홀 병합(GW190521 )에서 방출된 대략적인 에너지 10개50 101050 J 모집단 III별 의 '외관상'/등방성 에너지(Eiso) 의 상한은 감마선 폭발(GRB)[254] 10개53 1053 J를 넘다 이른바 '준중 쓰나미'[255] [256] 역학적 에너지 6×1053 J RBS 797의[257] 강력 한 AGN 폭발로 인한 기계적 에너지 또는 엔탈피 의 합계 10개54 3×1054 J 헤라클레스 A의 강력한 AGN 폭발에 따른 총 기계적 에너지 또는 엔탈피(3C 348)[258] 10개55 1055 J를 넘다 MS 0735.6+7421 ,[259] Ophiucus 슈퍼클러스터 [260] 초대질량 블랙홀 병합 의[261] [262] 에너지 또는 엔탈피 총계 10개57 최대57 10 J M87 SMBH의 예상 회전 에너지와 Gyr 시간[263] [264] 따른 가장 밝은 퀘이사 의 총 에너지 ~2×1057 J 총알 [265] 은하단 의 추정 열 에너지 10개58 최대58 10 J 은하단 병합의[266] 추정 총 에너지(충격파, 난류, 가스 가열, 중력) 4×1058 J 우리은하 의 눈에 보이는 질량 에너지, 은하수 [267] [268] 10개59 1×1059 J 암흑 물질과 암흑 [269] [270] 포함 한 우리 은하 의 총 질량 에너지 10개62 1 ~ 2 × 1062 J 암흑 물질을 포함 한 처녀자리 초은하단 의 총 질량 에너지, 은하수 를[271] 포함 하는 초은하단 10개69 4×1069 J 관측 가능 한[272] 질량 에너지
SI 배수 SI 줄 배수(J) 서브멀티플 배수 가치 SI 기호 이름. 가치 SI 기호 이름. 10−1 J dJ 데시졸 101 J daJ 데카쥬루 10−2 J 씨제이 센티줄 102 J hJ 헥토줄 10−3 J mJ 밀리줄 103 J kJ 킬로줄 10−6 J § J 마이크로줄 106 J MJ 메가줄 10−9 J nJ 나노줄 109 J GJ 기가줄 10−12 J pJ 피코줄 1012 J TJ 테라줄 10−15 J fJ 펨토줄 1015 J 잠자리 페타줄 10−18 J aJ attojoule. 1018 J EJ 엑사졸 10−21 J zJ 젭토줄 1021 J ZJ 제타줄 10−24 J yJ 콕토줄 1024 J YJ 요타줄
Joule은 James Prescott Joule의 이름 을 따서 지어졌다. 사람을 위해 명명된 모든 SI 단위와 마찬가지로, 그 기호는 대문자 (J)로 시작하지만, 전체를 표기할 때는 보통명사 의 대문자화 규칙을 따른다. 즉, "joule "은 문장의 시작 부분과 제목에서 대문자화되지만, 그 이외의 경우에는 소문자로 표기된다.
「 」를 참조해 주세요. 메모들 ^ "Planck's constant physics Britannica.com" . britannica.com. Retrieved 26 December 2016 .^ 계산avg : KE µ (3/2) × T × 1.38 × 10 1 × 10× 10× 10 ^ 계산 완료: Ephoton = h = 6.626× 10× 10× 10 입력 eV: 6.6× 10× 10× 10 ^ Cheung, Howard (1998). Elert, Glenn (ed.). "Frequency of a microwave oven" . The Physics Factbook . Retrieved 25 January 2022 . ^ 계산 완료: Ephoton = h420 = 6.626× 10× 10× 10 입력 eV: 1.62× 10× 10× 10 ^ "Boomerang Nebula boasts the coolest spot in the Universe" . JPL. Retrieved 13 November 2011 .^ 계산avg : KE µ (3/2) × T × 1.38 × 10× 10× 10 ^ a b c d "Wavelength, Frequency, and Energy" . Imagine the Universe . NASA. Archived from the original on 18 November 2001. Retrieved 15 November 2011 .^ 계산: 몰당 1× 10× 10× 10 ^ 계산: 1.381× 10× 10 ^ a b c "Bond Lengths and Energies" . Chem 125 notes . UCLA. Archived from the original on 23 August 2011. Retrieved 13 November 2011 .^ 계산: 2 ~4 kJ/mol = 2 × 10× 10 × 10 입력 eV: 3.3× 10× 10× 10× 10× 10 입력 eV: 6.7× 10× 10 ^ Ansari, Anjum. "Basic Physical Scales Relevant to Cells and Molecules" . Physics 450 . Retrieved 13 November 2011 . ^ 계산: 4~13kJ/mol. 4kJ/mol = 4× 10J× 10분자× 10J 입력 eV: 6.7× 10× 10× 10× 10× 10 입력 eV: 13× 10. 022/ 1.6×10 eV/J = 0.13 eV. ^ Thomas, S.; Abdalla, F.; Lahav, O. (2010). "Upper Bound of 0.28 eV on Neutrino Masses from the Largest Photometric Redshift Survey". Physical Review Letters . 105 (3): 031301. arXiv :0911.5291 Bibcode :2010PhRvL.105c1301T . doi :10.1103/PhysRevLett.105.031301 . PMID 20867754 . S2CID 23349570 . ^ 계산: 0.28 eV × 1.6 × 10 × 10 ^ "CODATA Value: electron volt" . NIST. Retrieved 4 November 2011 .^ "BASIC LAB KNOWLEDGE AND SKILLS" . Archived from the original on 15 May 2013. Retrieved 5 November 2011 . Visible wavelengths are roughly from 390 nm to 780 nm ^ 계산 완료: E = hc/120. E780 nm = 6.6× 102 /s × 3× 10× 10× 10× 102 /s × 3× 10× 10× 10 ^ 계산: 50 kcal/cal × 4.184 J/cal / 6.0× 10e23× 10× 10× 10e23 ^ Phillips, Kevin; Jacques, Steven; McCarty, Owen (2012). "How much does a cell weigh?" . Physical Review Letters . 109 (11): 118105. Bibcode :2012PhRvL.109k8105P . doi :10.1103/PhysRevLett.109.118105 . PMC 3621783 PMID 23005682 . Roughly 27 picograms ^ Bob Berman. "Our Bodies' Velocities, By the Numbers" . Retrieved 19 August 2016 . The [...] blood [...] flow[s] at an average speed of 3 to 4 mph ^ 계산: 1/2 × 27 × 102 (시속 3.5 마일) = 3 × 10 ^ 고막은 65mm의2 막이다"Physics of the Body" (PDF) . Notre Dame. Archived from the original (PDF) on 6 November 2016. Retrieved 19 August 2016 . ^ "Intensity and the Decibel Scale" . Physics Classroom. Retrieved 19 August 2016 .^ 계산: 2개의 고막 ≤ 1cm2 . 1× 10W2 × 1× 10m2 × 1s = 1× 10J ^ Thomas J Bowles (2000). P. Langacker (ed.). Neutrinos in physics and astrophysics: from 10–33 to 1028 cm: TASI 98 : Boulder, Colorado, USA, 1–26 June 1998 ISBN 978-981-02-3887-2 . Retrieved 11 November 2011 . an upper limit ov m_v_u < 170 keV ^ 계산: 170× 10× 10× 10 ^ "electron mass energy equivalent" . NIST. Retrieved 4 November 2011 .^ "Conversion from eV to J" . NIST. Retrieved 4 November 2011 .^ "How much energy is released when hydrogen is fused to produce one kilo of helium?" . 11 November 2017. Retrieved 21 July 2021 .^ Muller, Richard A. (2002). "The Sun, Hydrogen Bombs, and the physics of fusion" . Archived from the original on 2 April 2012. Retrieved 5 November 2011 . The neutron comes out with high energy of 14.1 MeV ^ "Conversion from eV to J" . NIST. Retrieved 4 November 2011 .^ a b "Energy From Uranium Fission" . HyperPhysics . Retrieved 8 November 2011 .^ a b "Conversion from eV to J" . NIST. Retrieved 4 November 2011 .^ "proton mass energy equivalent" . NIST. Retrieved 4 November 2011 .^ "neutron mass energy equivalent" . NIST. Retrieved 4 November 2011 .^ "Conversion from eV to J" . NIST. Retrieved 4 November 2011 .^ "deuteron mass energy equivalent" . NIST. Retrieved 4 November 2011 .^ "alpha particle mass energy equivalent" . NIST. Retrieved 4 November 2011 .^ 계산: 7 × 102 × 1 × 10 ^ "Conversion from eV to J" . NIST. Retrieved 4 November 2011 .^ Myers, Stephen. "The LEP Collider" . CERN. Retrieved 14 November 2011 . the LEP machine energy is about 50 GeV per beam ^ 계산: 50× 10× 10× 10 ^ "W" . PDG Live . Particle Data Group. Archived from the original on 17 July 2012. Retrieved 4 November 2011 .^ "Conversion from eV to J" . NIST. Retrieved 4 November 2011 .^ Amsler, C.; Doser, M.; Antonelli, M.; Asner, D.; Babu, K.; Baer, H.; Band, H.; Barnett, R.; Bergren, E.; Beringer, J.; Bernardi, G.; Bertl, W.; Bichsel, H.; Biebel, O.; Bloch, P.; Blucher, E.; Blusk, S.; Cahn, R. N.; Carena, M.; Caso, C.; Ceccucci, A.; Chakraborty, D.; Chen, M. -C.; Chivukula, R. S.; Cowan, G.; Dahl, O.; d'Ambrosio, G.; Damour, T.; De Gouvêa, A.; et al. (2008). "Review of Particle Physics⁎" . Physics Letters B . 667 (1): 1–6. Bibcode :2008PhLB..667....1A . doi :10.1016/j.physletb.2008.07.018 . hdl :1854/LU-685594 the original on 12 July 2012. ^ "Conversion from eV to J" . NIST. Retrieved 4 November 2011 .^ "Conversion from eV to J" . NIST. Retrieved 4 November 2011 .^ ATLAS ; CMS (26 March 2015). "Combined Measurement of the Higgs Boson Mass in pp Collisions at √s=7 and 8 TeV with the ATLAS and CMS Experiments". Physical Review Letters . 114 (19): 191803. arXiv :1503.07589 Bibcode :2015PhRvL.114s1803A . doi :10.1103/PhysRevLett.114.191803 . PMID 26024162 . S2CID 1353272 .^ Adams, John. "400 GeV Proton Synchrotron" . Excertp from the CERN Annual Report 1976 . CERN. Retrieved 14 November 2011 . A circulating proton beam of 400 GeV energy was first achieved in the SPS on 17 June 1976 ^ 계산: 400× 10× 10× 10 ^ a b c d e f g h i j k l "Appendix B8—Factors for Units Listed Alphabetically" . NIST Guide for the Use of the International System of Units (SI) . NIST. 2 July 2009. 1.355818 ^ "Conversion from eV to J" . NIST. Retrieved 4 November 2011 .^ "Chocolate bar yardstick" . Archived from the original on 26 February 2014. Retrieved 24 January 2014 . A TeV is actually a very tiny amount of energy. A popular analogy is to a flying mosquito. ^ "First successful beam at record energy of 6.5 TeV" . Retrieved 28 April 2015 .^ 계산: 빔당 6.5× 10eV× 10J. 04 ^ "The radioactive series of radium-226" (PDF) . CERN .^ Jr., James G. Terrill; Ii, Samuel C. Ingraham; Moeller, Dade W. (1954). "Radium in the Healing Arts and in Industry: Radiation Exposure in the United States" . Public Health Reports . 69 (3): 255–262. doi :10.2307/4588736 . JSTOR 4588736 . PMC 2024184 PMID 13134440 . ^ "NanoTritium™: Next-gen Tritium Battery with Decade-Long Betavoltaic Battery Power CityLabs" . Retrieved 4 April 2022 .^ "LED - Basic Red 5mm - COM-09590 - SparkFun Electronics" . www.sparkfun.com . Retrieved 4 April 2022 .^ "Coin specifications" . United States Mint. Retrieved 2 November 2011 . 11.340 g ^ 계산: m×g×h = 11.34× 10kg2 × 1m = 1.1× 10J ^ "Apples, raw, with skin (NDB No. 09003)" . USDA Nutrient Database . USDA. Archived from the original on 3 March 2015. Retrieved 8 December 2011 .^ 계산: m×g×h = 1 × 102 × 1 m = 1 J ^ "Specific Heat of Dry Air" . Engineering Toolbox. Retrieved 2 November 2011 .^ "Footnotes" . NIST Guide to the SI . NIST. 2 July 2009.^ "Physical Motivations" . ULTRA Home Page (EUSO project) . Dipartimento di Fisica di Torino. Retrieved 12 November 2011 .^ 계산: 5 × 10 × 10 ^ "Notes on the Troubleshooting and Repair of Electronic Flash Units and Strobe Lights and Design Guidelines, Useful Circuits, and Schematics" . Retrieved 8 December 2011 . The energy storage capacitor for pocket cameras is typically 100 to 400 uF at 330 V (charged to 300 V) with a typical flash energy of 10 W-s. ^ "Teardown: Digital Camera Canon PowerShot " . electroelvis.com. 2 September 2012. Archived from the original on 1 August 2013. Retrieved 6 June 2013 .^ "The Fly's Eye (1981–1993)" . HiRes. Retrieved 14 November 2011 .^ Bird, D. J. (March 1995). "Detection of a cosmic ray with measured energy well beyond the expected spectral cutoff due to cosmic microwave radiation". Astrophysical Journal, Part 1 . 441 (1): 144–150. arXiv :astro-ph/9410067 Bibcode :1995ApJ...441..144B . doi :10.1086/175344 . S2CID 119092012 . ^ "Ionizing Radiation" . General Chemistry Topic Review: Nuclear Chemistry . Bodner Research Web. Retrieved 5 November 2011 .^ "Vertical Jump Test" . Topend Sports. Retrieved 12 December 2011 . 41–50 cm (males) 31–40 cm (females) ^ "Mass of an Adult" . The Physics Factbook . Retrieved 13 December 2011 . 70 kg ^ 점프 시작 시 운동 에너지 = 점프 높이 시 위치 에너지. 질량 70kg, 고점 40cm = 에너지 = m×g×h = 70kg × 9.8m/s2 × 40× 10m ^ "Latent Heat of Melting of some common Materials" . Engineering Toolbox. Retrieved 10 June 2013 . 334 kJ/kg ^ "Javelin Throw – Introduction" . IAAF. Retrieved 12 December 2011 .^ Young, Michael. "Developing Event Specific Strength for the Javelin Throw" (PDF) . Archived from the original (PDF) on 13 August 2011. Retrieved 13 December 2011 . For elite athletes, the velocity of a javelin release has been measured in excess of 30m/s ^ 계산: 1/2 × 0.8 kg × (30 m/s)2 = 360 J ^ Greenspun, Philip. "Studio Photography" . Archived from the original on 29 September 2007. Retrieved 13 December 2011 . Most serious studio photographers start with about 2000 watts-seconds ^ "Discus Throw – Introduction" . IAAF. Retrieved 12 December 2011 .^ 계산: 1/2 × 2 kg × (24.4 m/s)2 = 595.4 J.^ "Shot Put – Introduction" . IAAF. Retrieved 12 December 2011 .^ 계산: 1/2 × 7.26 kg × (14.7 m/s)2 = 784 J ^ Kopp, G.; Lean, J. L. (2011). "A new, lower value of total solar irradiance: Evidence and climate significance" . Geophysical Research Letters . 38 (1): n/a. Bibcode :2011GeoRL..38.1706K . doi :10.1029/2010GL045777 ^ "Intermediate power ammunition for automatic assault rifles" . Modern Firearms . World Guns. Archived from the original on 10 August 2013. Retrieved 12 December 2011 .^ "Fluids – Latent Heat of Evaporation" . Engineering Toolbox. Retrieved 10 June 2013 . 2257 kJ/kg ^ powerlabs. org – PowerLabs Solid State Can Crusher!, 2002년 ^ "Hammer Throw – Introduction" . IAAF. Retrieved 12 December 2011 .^ Otto, Ralf M. "HAMMER THROW WR PHOTOSEQUENCE – YURIY SEDYKH" (PDF) . Retrieved 4 November 2011 . The total release velocity is 30.7 m/sec ^ 계산: 1/2 × 7.26 kg × (30.7 m/s)2 = 3420 J ^ a b TNT× 10 J/t(1톤/1× 10그램× 10 ^ ".458 Winchester Magnum" (PDF) . Accurate Powder . Western Powders Inc. Archived from the original (PDF) on 28 September 2007. Retrieved 7 September 2010 .^ "Battery energy storage in various battery sizes" . AllAboutBatteries.com. Archived from the original on 4 December 2011. Retrieved 15 December 2011 .^ "Energy Density of Carbohydrates" . The Physics Factbook . Retrieved 5 November 2011 .^ "Energy Density of Protein" . The Physics Factbook . Retrieved 5 November 2011 .^ "Energy Density of Fats" . The Physics Factbook . Retrieved 5 November 2011 .^ a b "Energy Density of Gasoline" . The Physics Factbook . Retrieved 5 November 2011 .^ 계산 완료: E = 1/2 m×v2 = 1/2 × (1× 10× 102 = 5× 10 ^ a b "List of Car Weights" . LoveToKnow. Retrieved 13 December 2011 . 3000 to 12000 pounds ^ 계산 완료: 1톤에서 5톤의 차량 중량을 사용합니다. E = 1/2 m×v2 = 1/2 × (1× 10= 3.0 × 10× 10 kg) × (55mph × 1600 m/m/m/3600 s/hr) = 15× 10 ^ Muller, Richard A. "Kinetic Energy in a meteor" . Old Physics 10 notes . Archived from the original on 2 April 2012. Retrieved 13 November 2011 . ^ 계산: KE = 1/2 × 2 × 102 = 1.0 × 10 ^ "Candies, MARS SNACKFOOD US, SNICKERS Bar (NDB No. 19155)" . USDA Nutrient Database . USDA. Archived from the original on 3 March 2015. Retrieved 14 November 2011 .^ a b "How to Balance the Food You Eat and Your Physical Activity and Prevent Obesity" . Healthy Weight Basics . National Heart Lung and Blood Institutde. Retrieved 14 November 2011 .^ 계산 : 2000 식칼로리 = 2.0× 10cal× 10J ^ 계산: 1/2 × m × v2 = 1/2 × 48.78 kg × (655 m/s)2 = 1.0 × 10 ^ 계산 : 2600식 열량 = 2.6× 10cal× 10J ^ "Table 3.3 Consumer Price Estimates for Energy by Source, 1970–2009" . Annual Energy Review . US Energy Information Administration. 19 October 2011. Retrieved 17 December 2011 . $28.90 per million BTU ^ 계산 J/달러: 100만 BTU/28.90달러=1× 10× 10 TU = 3.65× 10 ^ kWh당 계산된 비용: 1 kWh × 3.60 × 10× 10 와 ^ "Energy in a Cubic Meter of Natural Gas" . The Physics Factbook . Retrieved 15 December 2011 .^ "The Olympic Diet of Michael Phelps" . WebMD . Retrieved 28 December 2011 .^ Cline, James E. D. "Energy to Space" . Retrieved 13 November 2011 . 6.27× 10 ^ "Tour de France Winners, Podium, Times" . Bike Race Info. Retrieved 10 December 2011 .^ "Watts/kg" . Flamme Rouge. Archived from the original on 2 January 2012. Retrieved 4 November 2011 .^ 계산: 90시간×3600초/시×5W/kg×65kg=1.1× 10J ^ Smith, Chris (6 March 2007). "How do Thunderstorms Work?" . The Naked Scientists. Retrieved 15 November 2011 . It discharges about 1–10 billion joules of energy ^ "Powering up ATLAS's mega magnet" . Spotlight on.. . CERN. Archived from the original on 30 November 2011. Retrieved 10 December 2011 . magnetic energy of 1.1 Gigajoules ^ "ITP Metal Casting: Melting Efficiency Improvement" (PDF) . ITP Metal Casting . U.S. Department of Energy. Retrieved 14 November 2011 . 377 kWh/mt ^ 계산: 380kW-h × 3.6× 10J× 10J ^ Bell Fuels. "Lead-Free Gasoline Material Safety Data Sheet" . NOAA . Archived from the original on 20 August 2002. Retrieved 6 July 2008 . ^ thepartsbin. com – Volvo 연료 탱크: 부품 [permanent dead link 비교, 2012년 5월 6일 ^ E P = ℏ c 5 G \displaystyle E_{\text{ P}}=sqrt {frac {hbar c^{5}} {G}}}: ^ "Power of a Human Heart" . The Physics Factbook . Retrieved 10 December 2011 . The mechanical power of the human heart is ~1.3 watts ^ 계산: 1.3 J/s × 80 년 × 3.16 × 10. 3 × 10 ^ "U.S. Household Electricity Uses: A/C, Heating, Appliances" . U.S. HOUSEHOLD ELECTRICITY REPORT . EIA. Retrieved 13 December 2011 . For refrigerators in 2001, the average UEC was 1,239 kWh ^ 계산: 1239 kWh × 3.6 × 10 × 10 ^ a b Energy ^ "Top 10 Biggest Explosions" . Listverse. 28 November 2011. Retrieved 10 December 2011 . a yield of 11 tons of TNT ^ 계산 : TNT 상당량 11톤 × TNT 상당량 4.184× 10J× 10J ^ "Emission Facts: Average Annual Emissions and Fuel Consumption for Passenger Cars and Light Trucks" . EPA. Retrieved 12 December 2011 . 581 gallons of gasoline ^ "200 Mile-Per-Gallon Cars?" . Archived from the original on 19 December 2011. Retrieved 12 December 2011 . a gallon of gas ... 125 million joules of energy ^ 계산: 581갤런 × 125× 10× 10 ^ 계산: 1× 10와트× 10J ^ 계산 : 3.44× 10× 10× 10× 10 ^ 계산: 2000kcal/일×365일/년×80년=2.4× 10J ^ "A330-300 Dimensions & key data" . Airbus. Archived from the original on 16 January 2013. Retrieved 12 December 2011 . 97530 litres ^ a b c "Archived copy" (PDF) . Archived from the original (PDF) on 8 June 2011. Retrieved 19 August 2011 .{{cite web }}: CS1 maint: 제목으로 아카이브된 복사(링크 ) ^ 계산 : 97530L × 0.804kg/L × 43.15MJ/kg = 3.38× 10J ^ 계산: 1× 10와트 ^ Weston, Kenneth. "Chapter 10. Nuclear Power Plants" (PDF) . Energy Conversion . Archived from the original (PDF) on 5 October 2011. Retrieved 13 December 2011 . The thermal efficiency of a CANDU plant is only about 29% ^ "CANDU and Heavy Water Moderated Reactors" . Retrieved 12 December 2011 . fuel burnup in a CANDU is only 6500 to 7500 MWd per metric ton uranium ^ 계산: 7500× 10와트× 10J의 전기 = 연소 × 최대 29% 효율 = 3.8× 10 ^ 계산: TNT 상당량 4.2× 10J× 10t× 10J ^ "747 Classics Technical Specs" . Boeing. Archived from the original on 10 December 2007. Retrieved 12 December 2011 . 183,380 L ^ 계산 : 183380L × 0.804kg/L × 43.15MJ/kg = 6.36× 10J ^ "A380-800 Dimensions & key data" . Airbus. Archived from the original on 8 July 2012. Retrieved 12 December 2011 . 320,000 L ^ 계산: 320,000 L × 0.804 kg/L × 43.15 MJ/kg = 11. 1 × 10 ^ "International Space Station: The ISS to Date" . NASA. Retrieved 23 August 2011 .^ "The wizards of orbits" . European Space Agency. Retrieved 10 December 2011 . The International Space Station, for example, flies at 7.7 km/s in one of the lowest practicable orbits ^ 계산 완료: E = 1/2 m.v2 = 1/2 × 417000 kg × (7700 m/s)2 = 1.2 × 10 ^ "What was the yield of the Hiroshima bomb?" . Warbird's Forum. Retrieved 4 November 2011 . 21 kt ^ 계산 : 15kt = 15× 10g× 10J× 10J ^ "Conversion from kg to J" . NIST. Retrieved 4 November 2011 .^ "JPL – Fireballs and bolides" . Jet Propulsion Laboratory . NASA. Retrieved 13 April 2017 .^ a b "How much energy does a hurricane release?" . FAQ : HURRICANES, TYPHOONS, AND TROPICAL CYCLONES . NOAA. Retrieved 12 November 2011 .^ "The Gathering Storms" . COSMOS. Archived from the original on 4 April 2012. Retrieved 10 December 2011 .^ a b c d e "Country Comparison :: Electricity – consumption" . The World Factbook . CIA. Archived from the original on 28 January 2012. Retrieved 11 December 2011 .^ 계산: 288.6× 10kWh× 10J× 10J ^ 계산: TNT 상당량 4.2× 10J× 10t× 10J ^ 계산: 3.02 × 10 × 10× 10 ^ 계산 완료: E = mc2 = 1 kg × (2.998 × 102 = 8.99 × 10 ^ "USGS Energy and Broadband Solution" . National Earthquake Information Center, US Geological Survey. Archived from the original on 4 April 2010. Retrieved 9 December 2011 .^ a b c 지구의 단면 은 1.274×1014 평방미터 이고 태양 정수는 평방미터당 1361와트 이다. ^ "The Soviet Weapons Program – The Tsar Bomba" . The Nuclear Weapon Archive. Retrieved 4 November 2011 .^ 계산: 50× 10톤. 2×10J× 10J ^ 계산: 115.6× 10kWh× 10J× 10J ^ Alexander, R. McNeill (1989). Dynamics of Dinosaurs and Other Extinct Giants ISBN 978-0-231-06667-9 the explosion of the island volcano Krakatoa in 1883, had about 200 megatonnes energy. ^ 계산: TNT 등가 200× 10톤× 10J/톤× 10J ^ 이 값은 8월 27일 오전 10시 2분에 발생한 세 번째 폭발만을 지칭하는 것으로 보인다. 보도에 따르면, 세 번째 폭발은 지금까지 기록된 가장 큰 폭발음, 폭발 중 가장 높은 쓰나미, 그리고 가장 강력한 충격파가 세계를 여러 번 돌았던 것과 관련이 있다. TNT의 200메가톤은 종종 전체 폭발에 의해 방출되는 총 에너지로 언급되지만, 그 효과를 고려하면 오히려 단일 세 번째 폭발에 의해 방출되는 에너지로 그럴듯하다. [1] [2] ^ 계산: 402 × 10× 10× 10 ^ Mizokami, Kyle (1 April 2019). "Here's What Would Happen If We Blew Up All the World's Nukes at Once" . Popular Mechanics . Retrieved 8 April 2021 . ^ 계산: 3.741× 10kWh× 10J× 10J ^ "United States" . The World Factbook . USA. Retrieved 11 December 2011 .^ 계산: 3.953× 10kWh× 10J× 10J ^ a b "World" . The World Factbook . CIA. Retrieved 11 December 2011 .^ 계산: 17.8× 10kWh× 10J× 10J ^ 계산: 18.95× 10kWh× 10J× 10J ^ a b c d e "Statistical Review of World Energy 2011" (PDF) . BP. Archived from the original (PDF) on 2 September 2011. Retrieved 9 December 2011 .^ 계산: 12002 오일 당량× 10J× 10J ^ a b c "Global Uranium Resources to Meet Projected Demand International Atomic Energy Agency" . iaea.org. June 2006. Retrieved 26 December 2016 .^ "U.S. Energy Information Administration, International Energy Generation" .^ "U.S. EIA International Energy Outlook 2007" . eia.doe.gov. Retrieved 26 December 2016 .^ 최종수가 계산됩니다. Energy Outlook 2007에서는 세계 에너지의 15.9%가 원자력이라고 합니다. IAEA는 재래식 우라늄 비축량을 현재의 가격으로 85년간 충분할 것으로 추산하고 있습니다. 10억 킬로와트시를 줄(joule)로 환산하면 6.25×1019 ×0.159×85 = 8.01×10입니다20 . ^ 계산 완료: "1608.9조 입방피트" => 6608. 90× 100억× 10억× 10× 10 ^ 계산: "1,8880억 톤" => 188.8× 10× 10= 7.9 ^ 계산: 1.27× 10m2 ×1370W/m2 ×86400s/day=1.5× 10J ^ 산출: 석탄 8억6천938만톤 => 석탄 860938× 10톤× 10J = 2.4×10J ^ 계산: 천연가스+석유+석탄=6. 9×10J× 10J× 10J× 10J ^ "USGS, Harvard Moment Tensor Solution" . National Earthquake Information Center . 26 December 2004. Archived from the original on 17 January 2010. Retrieved 9 December 2011 .^ Boslough, M. B.; Chael, E. P.; Trucano, T. G.; Crawford, D. A.; Campbell, D. L. (1 December 1994). "Axial focusing of impact energy in the earth's interior: A possible link to flood basalts and hotspots" . New Developments Regarding the Kt Event and Other Catastrophes in Earth History : 9. Bibcode :1994ndrk.rept....9B . OSTI 10197028 . ^ 계산: 1.27 × 102 m × 1370 W/m2 × 86400 s/day = 5.5 × 10 ^ Carroll, Bradley; Ostlie, Dale (2017). An Introduction to Modern Astrophysics (2 ed.). ISBN 978-1-108-42216-1 ^ Zahnle, K. J. (26 August 2018). "Climatic Effect of Impacts on the Ocean" . Comparative Climatology of Terrestrial Planets III: From Stars to Surfaces . 2065 : 2056. Bibcode :2018LPICo2065.2056Z . ^ a b c "Ask Us: Sun: Amount of Energy the Earth Gets from the Sun" . Cosmicopia . NASA. Archived from the original on 16 August 2000. Retrieved 4 November 2011 .^ Lii, Jiangning. "Seismic effects of the Caloris basin impact, Mercury" (PDF) . MIT . ^ "Moon Fact Sheet" . NASA. Retrieved 16 December 2011 .^ 계산된 값: KE = 1/2 × m × v2 . v. = 1.023 × 10× 10 KE = 1/2 × (7.120× 10× 102 = 3.845× 10 ^ "Moment of Inertia—Earth" . Eric Weisstein's World of Physics . Retrieved 5 November 2011 .^ Allain, Rhett. "Rotational energy of the Earth as an energy source" . .dotphysics . Science Blogs. Archived from the original on 17 November 2011. Retrieved 5 November 2011 . the Earth takes 23.9345 hours to rotate ^ 계산 완료: E_회전 = 1/2 × I × w2 = 1/2 × (8. 0 × 102 m) × (2 × pi / (23.9345 시간 × 3600 초 / 시간)2 = 2.1 × 10 ^ Schaefer, Bradley E.; King, Jeremy R.; Deliyannis, Constantine P. (February 2000). "Superflares on Ordinary Solar‐Type Stars" . The Astrophysical Journal . 529 (2): 1026–1030. arXiv :astro-ph/9909188 Bibcode :2000ApJ...529.1026S . doi :10.1086/308325 . ISSN 0004-637X . S2CID 10586370 . ^ 계산: 3.8× 10× 10 ^ "Earth's Gravitational Binding Energy" . Retrieved 19 March 2012 . Variable Density Method: the Earth's gravitational binding energy is −1.711×1032 J ^ "DutchS/pseudosc/flipaxis" . uwgb.edu. Archived from the original on 22 August 2017. Retrieved 26 December 2016 .^ 계산: 3.8 × 10 × 10 ^ "NASA - Cosmic Explosion Among the Brightest in Recorded History" . www.nasa.gov . Retrieved 27 March 2022 .^ Palmer, D. M.; Barthelmy, S.; Gehrels, N.; Kippen, R. M.; Cayton, T.; Kouveliotou, C.; Eichler, D.; Wijers, R. a. M. J.; Woods, P. M.; Granot, J.; Lyubarsky, Y. E. (April 2005). "A giant γ-ray flare from the magnetar SGR 1806–20" . Nature . 434 (7037): 1107–1109. arXiv :astro-ph/0503030 Bibcode :2005Natur.434.1107P . doi :10.1038/nature03525 . ISSN 1476-4687 . PMID 15858567 . S2CID 16579885 . ^ Stella, L.; Dall'Osso, S.; Israel, G. L.; Vecchio, A. (17 November 2005). "Gravitational Radiation from Newborn Magnetars in the Virgo Cluster" . The Astrophysical Journal . 634 (2): L165–L168. arXiv :astro-ph/0511068 Bibcode :2005ApJ...634L.165S . doi :10.1086/498685 . ISSN 0004-637X . S2CID 18172538 . ^ U = ( 3 / 5 ) G M 2 r {\displaystyle U=black {(3/5) GM^{2}}{r}} Chandrasekhar, S. 1939, 항성 구조 연구 개요 (시카고: U. of Chicago; 뉴욕: 도버, 섹션 9, eqs. 90-92, 페이지 51 (도버판) Lang, K. R. 1980, 천체물리학 공식 (베를린: Springer Verlag), 페이지 272 ^ "Earth: Facts & Figures" . Solar System Exploration . NASA. Archived from the original on 23 July 2012. Retrieved 29 September 2011 .^ "Conversion from kg to J" . NIST. Retrieved 4 November 2011 .^ Frail, Da.;Kulkarni, S.R.;사리, R.;Djorgovski, S.G., 블룸, J.S.;Galama, T.J.;Reichart, DE. 버거, E;해리슨, F.A.;가격, P.A., 요스트, S.A.;Diercks A.;굿리치, R.W., 채피, F(2001년).Gamma-Ray Bursts에서``Beaming:표준 에너지 Reservoir"의 증거.그 AstrophysicalJournal.562년(1):L55.arXiv:astro-ph/0102282.Bibcode:2001ApJ...562L..55F. doi:10.1086/338119.S2CID 1047372."그 감마선 에너지 방출, 기하학에 대해 수정 간신히 5× 1050에르그에 모여들다". ^ 계산: 5× 10erg× 10J× 10J ^ Lu, Wenbin; Kumar, Pawan (28 September 2018). "On the Missing Energy Puzzle of Tidal Disruption Events" . The Astrophysical Journal . 865 (2): 128. arXiv :1802.02151 doi :10.3847/1538-4357/aad54a . ISSN 1538-4357 . S2CID 56015417 . ^ Khokhlov, A.; Mueller, E.; Hoeflich, P.; Mueller; Hoeflich (1993). "Light curves of Type IA supernova models with different explosion mechanisms". Astronomy and Astrophysics 270 (1–2): 223–248. Bibcode :1993A&A...270..223K . {{cite journal }}: CS1 maint: 여러 이름: 작성자 목록(링크 ) ^ Coppejans, D. L.; Margutti, R.; Terreran, G.; Nayana, A. J.; Coughlin, E. R.; Laskar, T.; Alexander, K. D.; Bietenholz, M.; Caprioli, D.; Chandra, P.; Drout, M. R. (26 May 2020). "A Mildly Relativistic Outflow from the Energetic, Fast-rising Blue Optical Transient CSS161010 in a Dwarf Galaxy" . The Astrophysical Journal . 895 (1): L23. arXiv :2003.10503 Bibcode :2020ApJ...895L..23C . doi :10.3847/2041-8213/ab8cc7 . ISSN 2041-8213 . S2CID 214623364 . ^ Dong, S.; Shappee, B. J.; Prieto, J. L.; Jha, S. W.; Stanek, K. Z.; Holoien, T. W.- S.; Kochanek, C. S.; Thompson, T. A.; Morrell, N.; Thompson, I. B.; et al. (15 January 2016). "ASASSN-15lh: A highly super-luminous supernova". Science 351 (6270): 257–260. arXiv :1507.03010 Bibcode :2016Sci...351..257D . doi :10.1126/science.aac9613 . PMID 26816375 . S2CID 31444274 . ^ Kankare, E.; Kotak, R.; Mattila, S.; Lundqvist, P.; Ward, M. J.; Fraser, M.; Lawrence, A.; Smartt, S. J.; Meikle, W. P. S.; Bruce, A.; Harmanen, J. (December 2017). "A population of highly energetic transient events in the centres of active galaxies" . Nature Astronomy . 1 (12): 865–871. arXiv :1711.04577 Bibcode :2017NatAs...1..865K . doi :10.1038/s41550-017-0290-2 . ISSN 2397-3366 . S2CID 119421626 . ^ ASSASN-15lh와 PS1-10adi는 모두 초신성으로 나타나며, 아마도 그럴 것이다.실제로 초신성의 특성에 따라 그것들을 설명하는 다른 메커니즘이 제안된다. ^ Mike Wall (13 April 2020). "Boom! Distant star explosion is brightest ever seen" . Space.com . Retrieved 29 March 2022 . ^ Starr, Michelle. "Astronomers Detect The Most Powerful Star Explosion We've Ever Observed" . ScienceAlert . Retrieved 29 March 2022 . ^ Kristen Rogers. "Astronomers just discovered the brightest supernova ever seen" . CNN . Retrieved 29 March 2022 . ^ Nicholl, Matt; Blanchard, Peter K.; Berger, Edo; Chornock, Ryan; Margutti, Raffaella; Gomez, Sebastian; Lunnan, Ragnhild; Miller, Adam A.; Fong, Wen-fai; Terreran, Giacomo; Vigna-Gómez, Alejandro (September 2020). "An extremely energetic supernova from a very massive star in a dense medium" . Nature Astronomy . 4 (9): 893–899. arXiv :2004.05840 Bibcode :2020NatAs...4..893N . doi :10.1038/s41550-020-1066-7 . ISSN 2397-3366 . S2CID 215744925 . ^ Yong, D.; Kobayashi, C.; Da Costa, G. S.; Bessell, M. S.; Chiti, A.; Frebel, A.; Lind, K.; Mackey, A. D.; Nordlander, T.; Asplund, M.; Casey, A. R. (8 July 2021). "R-Process elements from magnetorotational hypernovae" . Nature . 595 (7866): 223–226. arXiv :2107.03010 Bibcode :2021Natur.595..223Y . doi :10.1038/s41586-021-03611-2 . ISSN 0028-0836 . PMID 34234332 . S2CID 235755170 . ^ McBreen, S; Krühler, T; Rau, A; Greiner, J; Kann, D. A; Savaglio, S; Afonso, P; Clemens, C; Filgas, R; Klose, S; Küpüc Yoldas, A; Olivares E, F; Rossi, A; Szokoly, G. P; Updike, A; Yoldas, A (2010). "Optical and near-infrared follow-up observations of four Fermi/LAT GRBs: Redshifts, afterglows, energetics and host galaxies". Astronomy and Astrophysics . 516 (71): A71. arXiv :1003.3885 Bibcode :2010A&A...516A..71M . doi :10.1051/0004-6361/200913734 . S2CID 119151764 . ^ Cenko, S. B; Frail, D. A; Harrison, F. A; Haislip, J. B; Reichart, D. E; Butler, N. R; Cobb, B. E; Cucchiara, A; Berger, E; Bloom, J. S; Chandra, P; Fox, D. B; Perley, D. A; Prochaska, J. X; Filippenko, A. V; Glazebrook, K; Ivarsen, K. M; Kasliwal, M. M; Kulkarni, S. R; LaCluyze, A. P; Lopez, S; Morgan, A. N; Pettini, M; Rana, V. R (2010). "Afterglow Observations of Fermi-LAT Gamma-Ray Bursts and the Emerging Class of Hyper-Energetic Events". The Astrophysical Journal . 732 (1): 29. arXiv :1004.2900 Bibcode :2011ApJ...732...29C . doi :10.1088/0004-637X/732/1/29 . S2CID 50964480 . ^ Cenko, S. B; Frail, D. A; Harrison, F. A; Kulkarni, S. R; Nakar, E; Chandra, P; Butler, N. R; Fox, D. B; Gal-Yam, A; Kasliwal, M. M; Kelemen, J; Moon, D. -S; Price, P. A; Rau, A; Soderberg, A. M; Teplitz, H. I; Werner, M. W; Bock, D. C. -J; Bloom, J. S; Starr, D. A; Filippenko, A. V; Chevalier, R. A; Gehrels, N; Nousek, J. N; Piran, T; Piran, T (2010). "The Collimation and Energetics of the Brightest Swift Gamma-Ray Bursts". The Astrophysical Journal . 711 (2): 641–654. arXiv :0905.0690 Bibcode :2010ApJ...711..641C . doi :10.1088/0004-637X/711/2/641 . S2CID 32188849 . ^ url = http://tsvi.phys.huji.ac.il/presentations/Frail_AstroExtreme .pdf Wayback Machine에서 2014년 8월 1일 보관 ^ url = http://fermi.gsfc.nasa.gov/science/mtgs/grb2010/tue/Dale_Frail .ppt ^ "A Hypernova: The Super-charged Supernova and its link to Gamma-Ray Bursts" . Imagine the Universe! . NASA. Archived from the original on 19 October 2011. Retrieved 9 December 2011 . With a power about 100 times that of the already astonishingly powerful "typical" supernova ^ 총 에너지의 1%(10^44 J)만이 운동 에너지 이므로, 거의 전체 에너지는 중성미자 에 의해 전달된다. ^ Kasen, Daniel; Woosley, S. E.; Heger, Alexander (2011). "Pair Instability Supernovae: Light Curves, Spectra, and Shock Breakout" . The Astrophysical Journal . 734 (2): 102. arXiv :1101.3336 Bibcode :2011ApJ...734..102K . doi :10.1088/0004-637X/734/2/102 . S2CID 118508934 . ^ "Quark-Nova Astronomy & Astrophysics (A&A)" .^ Ruffini, R.; Salmonson, J. D.; Wilson, J. R.; Xue, S. -S. (1 October 1999). "On the pair electromagnetic pulse of a black hole with electromagnetic structure" . Astronomy and Astrophysics . 350 : 334–343. arXiv :astro-ph/9907030 Bibcode :1999A&A...350..334R . ISSN 0004-6361 . ^ Ruffini, R.; Salmonson, J. D.; Wilson, J. R.; Xue, S. -S. (1 July 2000). "On the pair-electromagnetic pulse from an electromagnetic black hole surrounded by a baryonic remnant" . Astronomy and Astrophysics . 359 : 855–864. arXiv :astro-ph/0004257 Bibcode :2000A&A...359..855R . ISSN 0004-6361 . ^ De Colle, Fabio; Lu, Wenbin (September 2020). "Jets from Tidal Disruption Events" . New Astronomy Reviews . 89 : 101538. arXiv :1911.01442 doi :10.1016/j.newar.2020.101538 . S2CID 207870076 . ^ "Sun Fact Sheet" . NASA. Retrieved 15 October 2011 .^ "Conversion from kg to J" . NIST. Retrieved 4 November 2011 .^ Abbott, B.; et al. (2016). "Observation of Gravitational Waves from a Binary Black Hole Merger". Physical Review Letters . 116 (6): 061102. arXiv :1602.03837 Bibcode :2016PhRvL.116f1102A . doi :10.1103/PhysRevLett.116.061102 . PMID 26918975 . S2CID 124959784 . ^ 만약 GW190521이 보손성 병합이라면, 현재의 것이 가장 큰 것으로 남습니다.주 [246][247] 참조 ^ "Fermi's record breaking gamma-ray burst" .^ 전통적인 모델인 "파이어볼 모델"에서 빔을 위한 에너지 감소가 기대된다는 것을 명시하는 것이 중요합니다; 다른 주요 모델들은 "유도 중력 붕괴", "이진 구동 하이퍼노베"와 같이 이진 시스템을 가진 긴 GRB와 짧은 GRB 모두 를 설명합니다. "Fireshell"은 10J 이상의47 에너지를 설명할 수 있는 항성 블랙홀의 회전 에너지와 전자장에서의 진공 편광에 의해 빔이 가정되지 않고 등방성 에너지가 에너지의 실제 값이다. ^ Whalen, Daniel J.; Johnson, Jarrett L.; Smidt, Joseph; Meiksin, Avery; Heger, Alexander; Even, Wesley; Fryer, Chris L. (August 2013). "The Supernova That Destroyed a Protogalaxy: Prompt Chemical Enrichment and Supermassive Black Hole Growth" . The Astrophysical Journal . 774 (1): 64. arXiv :1305.6966 Bibcode :2013ApJ...774...64W . doi :10.1088/0004-637X/774/1/64 . ISSN 0004-637X . S2CID 59289675 . ^ Chen, Ke-Jung; Heger, Alexander; Woosley, Stan; Almgren, Ann; Whalen, Daniel J.; Johnson, Jarrett L. (July 2014). "The General Relativistic Instability Supernova of a Supermassive Population III Star" . The Astrophysical Journal . 790 (2): 162. arXiv :1402.4777 Bibcode :2014ApJ...790..162C . doi :10.1088/0004-637X/790/2/162 . ISSN 0004-637X . S2CID 119269181 . ^ 물체의 질량에 대한 불확실성을 가정할 때, LIGO 데이터의 값이 고려된다. 그래서 우리는 약 142 태양 질량의 신생 블랙홀과 약 7 태양 질량의 중력파에서의 변환이 있다. ^ Abbott, R.; Abbott, T. D.; Abraham, S.; Acernese, F.; Ackley, K.; Adams, C.; Adhikari, R. X.; Adya, V. B.; Affeldt, C.; Agathos, M.; Agatsuma, K. (2 September 2020). "Properties and Astrophysical Implications of the 150 M ⊙ Binary Black Hole Merger GW190521" . The Astrophysical Journal . 900 (1): L13. arXiv :2009.01190 Bibcode :2020ApJ...900L..13A . doi :10.3847/2041-8213/aba493 . ISSN 2041-8213 . S2CID 221447444 . ^ LIGO Scientific Collaboration and Virgo Collaboration; Abbott, R.; Abbott, T. D.; Abraham, S.; Acernese, F.; Ackley, K.; Adams, C.; Adhikari, R. X.; Adya, V. B.; Affeldt, C.; Agathos, M. (2 September 2020). "GW190521: A Binary Black Hole Merger with a Total Mass of $150\text{ }\text{ }{M}_{\ensuremath{\bigodot}}$" . Physical Review Letters . 125 (10): 101102. doi :10.1103/PhysRevLett.125.101102 . PMID 32955328 . S2CID 221447506 . ^ 한 연구에 따르면 이것은 대신 에 블랙홀의 경우보다 약 8배 더 높은 확률로 합쳐지는 보손별 이라고 합니다. 만약 그렇다면, 보손별의 존재와 충돌이 함께 확인될 것입니다. 게다가, 에너지가 방출되고 거리가 줄어들 것이다. [3] 연구의 링크에 대해서는 다음 메모를 참조한다. ^ Bustillo, Juan Calderón; Sanchis-Gual, Nicolas; Torres-Forné, Alejandro; Font, José A.; Vajpeyi, Avi; Smith, Rory; Herdeiro, Carlos; Radu, Eugen; Leong, Samson H. W. (24 February 2021). "GW190521 as a Merger of Proca Stars: A Potential New Vector Boson of $8.7\ifmmode\times\else\texttimes\fi{}{10}^{\ensuremath{-}13}\text{ }\mathrm{eV}$" . Physical Review Letters . 126 (8): 081101. doi :10.1103/PhysRevLett.126.081101 . hdl :10773/31565 . PMID 33709746 . S2CID 231719224 . ^ Toma, Kenji; Sakamoto, Takanori; Mészáros, Peter (April 2011). "Population III Gamma-Ray Burst Afterglows: Constraints on Stellar Masses and External Medium Densities" . The Astrophysical Journal . 731 (2): 127. arXiv :1008.1269 Bibcode :2011ApJ...731..127T . doi :10.1088/0004-637X/731/2/127 . ISSN 0004-637X . S2CID 119288325 . ^ Garner, Rob (18 March 2020). "Quasar Tsunamis Rip Across Galaxies" . NASA . Retrieved 28 March 2022 . ^ 이 값을 결정하기 위해 감마선 버트의 최대 에너지 10J를47 고려한 다음, 이전 메모의 Nahum Arav 성명에 따르면 퀘이사 쓰나미가 100만 번 이상 GRBs 에너지학을 초과하는 시간 범위인 1000만 년과 동일한 규모 6을 더한다. ^ Cavagnolo, K. W; McNamara, B. R; Wise, M. W; Nulsen, P. E. J; Brüggen, M; Gitti, M; Rafferty, D. A (2011). "A Powerful AGN Outburst in RBS 797". The Astrophysical Journal . 732 (2): 71. arXiv :1103.0630 Bibcode :2011ApJ...732...71C . doi :10.1088/0004-637X/732/2/71 . S2CID 73653317 . ^ url = http://iopscience .iop.org/1538-4357/625/1/L9/fulltext/19121.text.html ^ Li, Shuang-Liang; Cao, Xinwu (June 2012). "CONSTRAINTS ON JET FORMATION MECHANISMS WITH THE MOST ENERGETIC GIANT OUTBURSTS IN MS 0735$\mathplus$7421" . The Astrophysical Journal . 753 (1): 24. arXiv :1204.2327 doi :10.1088/0004-637X/753/1/24 . ISSN 0004-637X . S2CID 119236058 . ^ Giacintucci, S.; Markevitch, M.; Johnston-Hollitt, M.; Wik, D. R.; Wang, Q. H. S.; Clarke, T. E. (February 2020). "Discovery of a Giant Radio Fossil in the Ophiuchus Galaxy Cluster" . The Astrophysical Journal . 891 (1): 1. arXiv :2002.01291 Bibcode :2020ApJ...891....1G . doi :10.3847/1538-4357/ab6a9d . ISSN 0004-637X . S2CID 211020555 . ^ Siegel, Ethan. "Merging Supermassive Black Holes Will Become The Most Energetic Events Of All" . Forbes . Retrieved 21 March 2022 . ^ Siegel, Ethan (10 March 2020). "Merging Supermassive Black Holes Are The Universe's Most Energetic Events Of All" . Starts With A Bang! . Retrieved 21 March 2022 . ^ Diodati, Michele (11 April 2020). "Rotating Black Holes, the Most Powerful Energy Generators in the Universe" . Amazing Science . Retrieved 28 March 2022 . ^ Tamburini, Fabrizio; Thidé, Bo; Della Valle, Massimo (2020). "Measurement of the spin of the M87 black hole from its observed twisted light" . Monthly Notices of the Royal Astronomical Society: Letters . 492 : L22–L27. doi :10.1093/mnrasl/slz176 . ISSN 0035-8711 . ^ Tucker, W.; Blanco, P.; Rappoport, S.; David, L.; Fabricant, D.; Falco, E. E.; Forman, W.; Dressler, A.; Ramella, M. (2 March 1998). "1E 0657–56: A Contender for the Hottest Known Cluster of Galaxies" . The Astrophysical Journal . 496 (1): L5. arXiv :astro-ph/9801120 Bibcode :1998ApJ...496L...5T . doi :10.1086/311234 . ISSN 0004-637X . S2CID 16140198 . ^ Markevitch, Maxim; Vikhlinin, Alexey (May 2007). "Shocks and cold fronts in galaxy clusters" . Physics Reports . 443 (1): 1–53. arXiv :astro-ph/0701821 Bibcode :2007PhR...443....1M . doi :10.1016/j.physrep.2007.01.001 . S2CID 119326224 . ^ Jim Brau . "The Milky Way Galaxy" . Retrieved 4 November 2011 .^ "Conversion from kg to J" . NIST. Retrieved 4 November 2011 .^ Karachentsev, I. D.; Kashibadze, O. G. (2006). "Masses of the local group and of the M81 group estimated from distortions in the local velocity field". Astrophysics . 49 (1): 3–18. Bibcode :2006Ap.....49....3K . doi :10.1007/s10511-006-0002-6 . S2CID 120973010 . ^ "Conversion from kg to J" . NIST. Retrieved 4 November 2011 .^ Einasto, M.; et al. (December 2007). "The richest superclusters. I. Morphology". Astronomy and Astrophysics . 476 (2): 697–711. arXiv :0706.1122 Bibcode :2007A&A...476..697E . doi :10.1051/0004-6361:20078037 . S2CID 15004251 . ^ "Big Bang Energy" . Archived from the original on 19 August 2014. Retrieved 26 December 2016 .{{cite web }}: CS1 maint: bot: 원래 URL 상태를 알 수 없습니다(링크 ).
