Red velikosti (energija)

**Seznam redov velikosti za energijo**
Red velikosti	SI predpona	Vrednost	Zgled
10⁻³³		2×10⁻³³ J	povprečna kinetična energija tranlacijskega gibanja molekule pri temperaturi 100 pikokelvinov
10⁻²⁸		6.6×10⁻²⁸ J	energija AM radio fotona (1 MHz) (4×10⁻⁹ eV)^[1]
10⁻²⁴	jokto- (yJ)	1.6×10⁻²⁴ J	energija fotona mikrovalovne pečice (2.45 GHz) (1×10⁻⁵ eV)^[2]^[3]
10⁻²³		2×10⁻²³ J	povprečna kinetična energija translacijskega gibanja molekule v Boomerang Nebula, najhladnejšega prostora izven laboratorija, 1 kelvin^[4]^[5]
10⁻²²		2-3000×10⁻²² J	energija IR infrardečega fotona
10⁻²¹	zepto- (zJ)	1.7×10⁻²¹ J	1 kJ/mol, preveddno v energijo molekule^[6]
		2.1×10⁻²¹ J	Toplotna energija v vsaki prostostni stopnji molekule pri 25 °C (ekviparticijski izrek) (0.01 eV)^[7]
		2.856×10⁻²¹ J	Po Landauerjevem principu, najmanjša potrebna energija pri 25 °C za spremembno enega bita informacije
		3–7×10⁻²¹ J	energija van der Waalsove sile med atomi (0.02–0.04 eV)^[8]^[9]
10⁻¹⁹		1.6×10⁻¹⁹ J	≈1 elektronvolt (eV)^[10]
		3–5×10⁻¹⁹ J	energija fotonov vidne svetlobe^[11]^[12]
		3–14×10⁻¹⁹ J	energija kovalentne vezi (2–9 eV)^[8]^[13]
		5–200×10⁻¹⁹ J	energija fotonov ultravijolične svetlobe^[14]
10⁻¹⁸	ato- (aJ)
10⁻¹⁷		2-2000×10⁻¹⁷ J	energija fotonov rentgenskih žarkov^[14]
10⁻¹⁶
10⁻¹⁵	Femto- (fJ)
10⁻¹⁴		> 2×10⁻¹⁴ J	energija fotonov gama žarkov^[14]
10⁻¹⁴		8.2×10⁻¹⁴ J	masa/energija elektrona (rest mass-energy) v mirovanju ^[15]
10⁻¹²	Piko- (pJ)	2.3×10⁻¹² J	kinetična energija nevtrina proizvedenega v D-T fuziji; uporabna za zagon fisije (14.1 MeV)^[16]^[17]
10⁻¹¹		3.4×10⁻¹¹ J	povprečna celotna energija jedrske fisije enega U-235 atoma (215 MeV)^[18]^[19]
10⁻¹⁰		1.5030×10⁻¹⁰ J	masa/energija (rest mass-energy) protona v mirovanju ^[20]
		1.505×10⁻¹⁰ J	masa/energija (rest mass-energy) nevtrona v mirovanju^[21]
		1.6×10⁻¹⁰ J	1 gigaelektronvolt (GeV)^[22]
		3.0×10⁻¹⁰ J	masa/energija (rest mass-energy) devterona v mirovanju^[23]
		6.0×10⁻¹⁰ J	masa/energija (rest mass-energy) alfa delca v mirovanju^[24]
10⁻⁹	nano- (nJ)	1.6×10⁻⁹ J	10 GeV^[25]
10⁻⁹	nano- (nJ)	8×10⁻⁹ J	začetna operativna energija za CERN Large Electron Positron Collider leta 1989 (50 GeV)^[26]^[27]
10⁻⁸		1.3×10⁻⁸ J	masa/energija (mass-energy) W bozona (80.4 GeV)^[28]^[29]
		1.5×10⁻⁸ J	masa/energija (mass-energy) Z bozona (91.2 GeV)^[30]^[31]
		1.6×10⁻⁸ J	100 GeV^[32]
		2×10⁻⁸ J	masa/energija (mass-energy) Higgsovega bozona (125-127 GeV)^[33]
		6.4×10⁻⁸ J	operativna energija protona aceleratorja CERN Super Proton Synchrotron leta 1976^[34]^[35]
10⁻⁷		1×10⁻⁷ J	≡ 1 erg^[36]
		1.6×10⁻⁷ J	1 TeV (teraelektronvolt)
		5.6×10⁻⁷ J	energija protona CERN Large Hadron Collider leta 2011 (3.5 TeV)^[37]^[38]
10⁻⁶	mikro- (µJ)
10⁻³	mili- (mJ)
10⁻²	centi- (cJ)
10⁻¹	deci- (dJ)	1.1×10⁻¹ J	energija padajočega 50 centovega kovanca ameriškega dolarja z višine 1 meter^[39]^[40]
10⁰	J	1 J	kinetična energija majhnega jabolka (~100 gramov)^[41], ki na Zemlji pade z višine 1 metra^[42]
		1 J	potrebna energija za segrevanje 1 grama suhega, hladnega zraka za 1 stopinjo Celzija^[43]
		1.4 J	≈ 1 ft•lbf (čevelj-funt-sila)
		4.184 J	≡ 1 kalorija
		4.1868 J	≡ 1 International (Para) kalorija^[44]
		8 J	Greisen-Zatsepin-Kuzmin limit, teoretični zgornji limit energije kozmičnega žarka iz oddaljenega izvora^[45]^[46]
10¹	deka- (daJ)	5×10¹ J	Najbolj energetični kozmični žarek kdajkoli detektiran, leta 1991^[47]
10²	hekto- (hJ)	1×10² J	energija kondenzatorja bliskavice žepnega fotoaparata (100–400 µF pri 330 V)^[48]^[49]
		3×10² J	energija smrtne doze rentgenskih žarkov^[50]
		3×10² J	kinetčina energija povprečnega človeka, ki skoči kolikor more^[51]^[52]^[53]
		3.3×10² J	entalpija taljenja 1 g ledu^[54]
		> 3.6×10² J	kinetična energija kopja (800 g) s hitrostjo 30 m/s^[55]^[56]
		5–20×10² J	energija bliskavice fotoaprata v fotografskem studiju^[57]
		6.0×10² J	kinetična energija diska (2 kg) ^[58] s hitrostjo 24,4 m/s
		6×10² J	energija 10 W svetilke v eni minuti
		7.5×10² J	energija ene konjske sile v eni sekundi
10³	kilo- (kJ)	1.1×10³ J	≈ 1 (British thermal unit) (BTU), odvisno od temperature^[36]
		1.4×10³ J	celotna energija sončnega sevavanja na en kvadratni meter v eni sekundi
		1.8×10³ J	kinetična energija krogle puške M16 (5.56x45mm NATO, 4,1 g pri hitrosti 930 m/s)
		2.3×10³ J	entalpija za uparjenje 1 g vode v paro
		3.6×10³ J	≡ 1 W•h^[36]
		4.2×10³ J	sproščena energija pri eksploziji 1 grama TNT
		4.2×10³ J	≈ 1 Kilokalorija (pri hrani)
		9×10³ J	energija ene alkalne AA baterije
10⁴		1.7×10⁴ J	sproščena energija pri metabolizmu 1 grama karbohidratov ^[59] ali proteinov^[60]
		3.8×10⁴ J	sproščena energija pri metabolizmu 1 grama maščobe ^[61]
		4–5×10⁴ J	sproščena energija pri zgorevanju 1 grama bencina^[62]
		5×10⁴ J	kinetična energija 1 grama snovi hitrosti 10 km/s^[63]
10⁵		5×10⁵ J	kinetična energija 1 grama meteorja pri trku z Zemljo
10⁶	mega- (MJ)	1×10⁶ J	kinetična energija 2 tonskega avtomobila hitrosti 32 m/s
10⁶	mega- (MJ)	3.6×10⁶ J	= 1 kWh kilovatna ura elektrike
10⁷		1.1×10⁷ J	predlagana kalorična vrednost hrane za srednje aktivnega moškega (2600 Kcal)^[64]^[65]
		3.7×10⁷ J	$1 dolar elektrike pri ceni $0.10/kWh ^[66]^[67]^[68]
		4×10⁷ J	sproščena energija pri zgorevanje 1 m³ zemeljskega plina^[69]
		4.2×10⁷ J	kalorična vrednost hrane plavalca Michael Phelpsa v enem dnevu med treningom^[70]
		6.3×10⁷ J	teoretično najmanjša energija potrebna za pospešek 1 kg snovi do izhodne hitrosti (brez upoštavanja zračnega upora)^[71]
10⁸		1×10⁸ J	kinetična energija 55 tonskega letala pri pristajalni hitrosti (59 m/s ali 115 vozlov)
		1.1×10⁸ J	≈ 1 therm,
		1.1×10⁸ J	≈ 1 poraba energije kolesarja na Tour de France
		7.3×10⁸ J	≈ sproščena energija pri zgorevanju 16 kg nafte
10⁹	giga- (GJ)	1 .. 10×10⁹ J	povprečna sproščena energija pri udarcu strele
		1.4x10⁹ J	teoretično najmanjša energija za staljenje tone jekla (380 kW•h)^[72]^[73]
		2.0x10⁹ J	energija v 61 litrskem tanku bencina
		2.0×10⁹ J	Planckova energija
		3.3×10⁹ J	povprečna porabljena energija za bitje srca v 80-ih letih življenja
		4.5×10⁹ J	povprečna poraba električne energije hladilnika v enem letu^[74]^[75]
		6.1×10⁹ J	≈ energija enega sodčka nafte
10¹⁰		2.3×10¹⁰ J	kinetična energija Airbus A380a pri potovalni hitrosti
		4.2×10¹⁰ J	≈ energija ene tone nafte
		5×10¹⁰ J	energija bombe Massive Ordnance Air Blast druga najmočnejša nejedrska bomba^[76]^[77]
		7.3×10¹⁰ J	porabljena energija povprečnega ameriškega avtomobila v enem letu^[78]^[79]^[80]
		8.6×10¹⁰ J	≈ 1 MW•d (megavat-dan)^[81]
		8.8×10¹⁰ J	sproščena energija pri cepitvi enega kilograma urana-235^[18]^[19]^[82]
10¹²	tera- (TJ)	3.4×10¹² J	energija goriva v letalu Airbus A330-300 (97.530 litrov)^[83]^[84]
		3.6×10¹² J	1 GW•h (gigavat-ura)^[85]
		4×10¹² J	električna energija iz enega gorivnega elementa 20-kg CANDU
		6.4×10¹² J	energija goriva v letalu Boeing 747-100B (183.380 litrov)^[86]^[87]
10¹³		1.1×10¹³ J	energija goriva v letalu Airbus A380 (320.000 litrov)^[88]^[89]
		1.2×10¹³ J	orbitalna kinetična energija mednarodne vesoljske postaje (417 ton)^[90] s hitrostjo 7.7 km/s^[91]^[92]
		8.8×10¹³ J	energija atomske bombe Debeluh (21 kiloton)^[93]^[94]
		9.0×10¹³ J	teoretična totalna energija 1 grama snovi^[95]
10¹⁴		6×10¹⁴ J	sproščena energija orkana v eni sekundi^[96]
10¹⁵	peta- (PJ)	> 10¹⁵ J	sproščena energija v hudi nevihit^[97]
10¹⁵	peta- (PJ)	4.2×10¹⁵ J	sproščena energija pri 1 Megatoni TNT^[98]
10¹⁶		1.1×10¹⁶ J	letna poraba električne energije v Mongoliji
10¹⁶		9.0×10¹⁶ J	masa/energija 1 kg materija (antimaterije)^[99]
10¹⁷		1.7×10¹⁷ J	celotna energija sončnega sevanja ki doseže zemljo vsako sekundo
		2.1×10¹⁷ J	energija največje testirane atomske bombe - Car bomba 50 Megaton^[100]^[101]
		4.2×10¹⁷ J	letna poraba električne energije na Norveškem^[102]^[103]
		8×10¹⁷ J	sproščena energija 1883 erupcije vulkana Krakatoa
10¹⁸	eksa- (EJ)	1.4×10¹⁸ J
10¹⁹		1.4×10¹⁹J	letna proizvodnja elektrike v ZDA leta 2009
10¹⁹		6.4×10¹⁹ J	letna poraba električne energije v svetu
10²⁰		5.0x10²⁰ J	celotna poraba vseh virov energije v svetu leta 2010 ^[104]^[105]
10²⁰		8.0×10²⁰ J	ocenjene rezerve urana za generiranje elektrike leta 2005^[106]^[107]^[108]^[109]
10²¹	zeta- (ZJ)	6.9×10²¹ J	ocenjena energija rezerv zemeljskega plina na svetu leta 2010^[104]^[110]
10²¹	zeta- (ZJ)	7.9×10²¹ J	ocenjena energija rezerv nafte na svetu leta 2010^[104]^[111]
10²²		1.5×10²²J	celotna energija sončnega sevanja na Zemljo v enem dnevu^[112]
		2.4×10²² J	ocenjena energija rezerv premoga na svetu leta 2010^[104]^[113]
		2.9×10²² J	ocenjena potencialna energija pri cepitvi rezerv urana-238 z uporabo hitrih reaktorjev
		3.9×10²² J	ocenjena energija rezerv vseh fosilnih goriv 2010^[104]^[114]
		4×10²² J	ocenjena energija potresa magnitude 9.1–9.3 leta 2004 v Indiji^[115]
10²³		2.2×10²³ J	totalna energija pri cepitvi rezerv urana-238 z uporabo hitrih reaktorjev
10²⁴	jota- (YJ)	5.5×10²⁴ J	totalna energija sončnega sevanja, ki zadane Zemljo v enem letu^[116]^[117]
10²⁶		3.8×10²⁶ J	totalne energija oddanegega sončnega sevanja v eni sekundi^[118]
10²⁸		3.8×10²⁸ J	kinetična energija Lune ^[119]^[120]
10²⁹		2.1×10²⁹ J	rotacijska energija Zemlje^[121]^[122]^[123]
10³¹		3.3×10³¹ J	totalna energija Sonca v enem dnveu^[118]^[124]
10³³		2.7×10³³ J	kinetična energija Zemlje v svoji orbiti ^[125]
10³⁴		1.2×10³⁴ J	totalna energija Sonca v enem letu^[118]^[126]
10³⁹		6.6×10³⁹ J	teoretična masa/energija Lune
10⁴¹		5.4×10⁴¹ J	teoretična masa/energija Zemlje^[127]^[128]
10⁴⁴		1–2×10⁴⁴ J	ocenjena sproščena energija v supernovi^[129]
10⁴⁶		1×10⁴⁶ J	ocenjena sproščena energija v hipernovi^[130]
10⁴⁷		1.8×10⁴⁷ J	teoretična masa/energija Zemlje Sonca^[131]^[132]
10⁴⁷		8.8×10⁴⁷ J	GRB 080916C - najbolj močan zaznan izbruh žarkov gamna^[133]
10⁵⁸		4×10⁵⁸ J	vidna masa/energija v naši galaksiji^[134]^[135]
10⁵⁹		1×10⁵⁹ J	totalna masa/energija naše galaksije vključno s temno energijo in temno snovjo.^[136]^[137]
10⁶²		1–2×10⁶² J	totalna masa/energija superklustra Virgo vključno s temno snovjo^[138]
10⁶⁹		4×10⁶⁹ J	ocenjena masa/energija materije v vidnem vesolju^[139]

↑ Calculated: E_photon = hv = 6.626e-34 J-s * 1e6 Hz = 6.6e-28 J. In eV: 6.6e-28 J / 1.6e-19 J/eV = 4.1e-9 eV.
↑ »Frequency of a Microwave Oven«. The Physics Factbook. Pridobljeno 15. novembra 2011.
↑ Calculated: E_photon = hv = 6.626e-34 J-s * 2.45e8 Hz = 1.62e-24 J. In eV: 1.62e-24 J / 1.6e-19 J/eV = 1.0e-5 eV.
↑ »Boomerang Nebula boasts the coolest spot in the Universe«. JPL. Arhivirano iz prvotnega spletišča dne 27. avgusta 2009. Pridobljeno 13. novembra 2011.
↑ Calculated: KE_avg ≈ (3/2) * T * 1.38E-23 = (3/2) * 1 * 1.38E-23 ≈ 2.07E-23 J
↑ Calculated: 1e3 J / 6.022e23 entities per mole = 1.7e-21 J per entity
↑ Calculated: 1.381e-23 J/K * 298.15 K / 2 = 2.1e-21 J
↑ ^8,0 ^8,1 »Bond Lengths and Energies«. Chem 125 notes. UCLA. Arhivirano iz prvotnega spletišča dne 23. avgusta 2011. Pridobljeno 13. novembra 2011.
↑ Calculated: 2 to 4 kJ/mol = 2e3 J / 6.022e23 molecules/mol = 3.3e-21 J. In eV: 3.3e-21 J / 1.6e-19 J/eV = 0.02 eV. 4e3 J / 6.022e23 molecules/mol = 6.7e-21 J. In eV: 6.7e-21 J / 1.6e-19 J/eV = 0.04 eV.
↑ »CODATA Value: electron volt«. NIST. Pridobljeno 4. novembra 2011.
↑ »BASIC LAB KNOWLEDGE AND SKILLS«. Arhivirano iz prvotnega spletišča dne 15. maja 2013. Pridobljeno 5. novembra 2011. Visible wavelengths are roughly from 390 nm to 780 nm
↑ Calculated: E = h * c / lambda. E_780_nm = 6.6e-34 kg-m^2/s * 3e8 m/s / (780e-9 m) = 2.5e-19 J. E_390 _nm = 6.6e-34 kg-m^2/s * 3e8 m/s / (390e-9 m) = 5.1e-19 J
↑ Calculated: 50 kcal/mol * 4.184 J/calorie / 6.0e22e23 molecules/mol = 3.47e-19 J. (3.47e-19 J / 1.60e-19 eV/J = 2.2 eV.) and 200 kcal/mol * 4.184 J/calorie / 6.0e22e23 molecules/mol = 1.389e-18 J. (7.64e-19 J / 1.60e-19 eV/J = 8.68 eV.)
↑ ^14,0 ^14,1 ^14,2 »Wavelength, Frequency, and Energy«. Imagine the Universe. NASA. Pridobljeno 15. novembra 2011.
↑ »electron mass energy equivalent«. NIST. Pridobljeno 4. novembra 2011.
↑ Muller, Richard A. (2002). »The Sun, Hydrogen Bombs, and the physics of fusion«. Pridobljeno 5. novembra 2011. The neutron comes out with high energy of 14.1 MeV
↑ »Conversion from eV to J«. NIST. Pridobljeno 4. novembra 2011.
↑ ^18,0 ^18,1 »Energy From Uranium Fission«. HyperPhysics. Pridobljeno 8. novembra 2011.
↑ ^19,0 ^19,1 »Conversion from eV to J«. NIST. Pridobljeno 4. novembra 2011.
↑ »proton mass energy equivalent«. NIST. Pridobljeno 4. novembra 2011.
↑ »neutron mass energy equivalent«. NIST. Pridobljeno 4. novembra 2011.
↑ »Conversion from eV to J«. NIST. Pridobljeno 4. novembra 2011.
↑ »deuteron mass energy equivalent«. NIST. Pridobljeno 4. novembra 2011.
↑ »alpha particle mass energy equivalent«. NIST. Pridobljeno 4. novembra 2011.
↑ »Conversion from eV to J«. NIST. Pridobljeno 4. novembra 2011.
↑ Myers, Stephen. »The LEP Collider«. CERN. Arhivirano iz prvotnega spletišča dne 18. junija 2014. Pridobljeno 14. novembra 2011. the LEP machine energy is about 50 GeV per beam
↑ Calculated: 50e9 eV * 1.6e-19 J/eV = 8e-9 J
↑ »W«. PDG Live. Particle Data Group. Arhivirano iz prvotnega spletišča dne 17. julija 2012. Pridobljeno 4. novembra 2011.
↑ »Conversion from eV to J«. NIST. Pridobljeno 4. novembra 2011.
↑ DOI: 10.1016/j.physletb.2008.07.018
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↑ »Conversion from eV to J«. NIST. Pridobljeno 4. novembra 2011.
↑ »Conversion from eV to J«. NIST. Pridobljeno 4. novembra 2011.
↑ »New results indicate that new particle is a Higgs boson«. CERN. Pridobljeno 9. junija 2013.
↑ Adams, John. »400 GeV Proton Synchrotron«. Excertp from the CERN Annual Report 1976. CERN. Arhivirano iz prvotnega spletišča dne 26. oktobra 2011. Pridobljeno 14. novembra 2011. A circulating proton beam of 400 GeV energy was first achieved in the SPS on 17 June 1976
↑ Calculated: 400e9 eV * 1.6e-19 J/eV = 6.4e-8 J
↑ ^36,0 ^36,1 ^36,2 »Appendix B8—Factors for Units Listed Alphabetically«. NIST Guide for the Use of the International System of Units (SI). NIST. Pridobljeno 4. novembra 2011. 1.355818
↑ »LHC will run at 7 TeV in 2012«. Physics World. Arhivirano iz prvotnega spletišča dne 13. novembra 2011. Pridobljeno 12. novembra 2011. 3.5 TeV per proton beam
↑ Calculated: 3.5e12 eV per beam * 1.6e-19 J/eV = 5.6e-7 J
↑ »Coin specifications«. United States Mint. Arhivirano iz prvotnega spletišča dne 18. februarja 2015. Pridobljeno 2. novembra 2011. 11.340 g
↑ Calculated: m*g*h = 11.34e-3 kg * 9.8 m/s^2 * 1 m = 1.1e-1 J
↑ »Apples, raw, with skin (NDB No. 09003)«. USDA Nutrient Database. USDA. Arhivirano iz prvotnega spletišča dne 3. marca 2015. Pridobljeno 8. decembra 2011.
↑ Calculated: m*g*h = 1e-1 kg * 9.8 m/s^2 * 1 m = 1 J
↑ »Specific Heat of Dry Air«. Engineering Toolbox. Pridobljeno 2. novembra 2011.
↑ »Footnotes«. NIST Guide to the SI. NIST. Pridobljeno 4. novembra 2011.
↑ »Physical Motivations«. ULTRA Home Page (EUSO project). Dipartimento di Fisica di Torino. Pridobljeno 12. novembra 2011.
↑ Calculated: 5e19 eV * 1.6e-19 J/ev = 8 J
↑ »The Fly's Eye (1981–1993)«. HiRes. Arhivirano iz prvotnega spletišča dne 15. avgusta 2009. Pridobljeno 14. novembra 2011.
↑ »Notes on the Troubleshooting and Repair of Electronic Flash Units and Strobe Lights and Design Guidelines, Useful Circuits, and Schematics«. Pridobljeno 8. decembra 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. Arhivirano iz prvotnega spletišča dne 1. avgusta 2013. Pridobljeno 6. junija 2013.
↑ »Ionizing Radiation«. General Chemistry Topic Review: Nuclear Chemistry. Bodner Research Web. Arhivirano iz prvotnega spletišča dne 9. januarja 2012. Pridobljeno 5. novembra 2011.
↑ »Vertical Jump Test«. Topend Sports. Pridobljeno 12. decembra 2011. 41–50 cm (males) 31–40 cm (females)
↑ »Mass of an Adult«. The Physics Factbook. Pridobljeno 13. decembra 2011. 70 kg
↑ Kinetic energy at start of jump = potential energy at high point of jump. Using a mass of 70 kg and a high point of 40 cm => energy = m*g*h = 70 kg * 9.8 m/s^2 * 40e-2 m = 274 J
↑ »Latent Heat of Melting of some common Materials«. Engineering Toolbox. Pridobljeno 10. junija 2013. 334 kJ/kg
↑ Young, Michael. »Developing Event Specific Strength for the Javelin Throw« (PDF). Arhivirano (PDF) iz spletišča dne 13. avgusta 2011. Pridobljeno 13. decembra 2011. For elite athletes, the velocity of a javelin release has been measured in excess of 30m/s
↑ Calculated: 1/2 * 0.8 kg * (30 m/s)^2 = 360 J
↑ Greenspun, Philip. »Studio Photography«. Pridobljeno 13. decembra 2011. Most serious studio photographers start with about 2000 watts-seconds
↑ »Discus Throw – Introduction«. IAAF. Pridobljeno 12. decembra 2011.
↑ »Energy Density of Carbohydrates«. The Physics Factbook. Pridobljeno 5. novembra 2011.
↑ »Energy Density of Protein«. The Physics Factbook. Pridobljeno 5. novembra 2011.
↑ »Energy Density of Fats«. The Physics Factbook. Pridobljeno 5. novembra 2011.
↑ »Energy Density of Gasoline«. The Physics Factbook. Pridobljeno 5. novembra 2011.
↑ Calculated: E = 1/2 m*v^2 = 1/2 * (1e-3 kg) * (1e4 m/s)^2 = 5e4 J.
↑ »How to Balance the Food You Eat and Your Physical Activity and Prevent Obesity«. Healthy Weight Basics. National Heart Lung and Blood Institutde. Pridobljeno 14. novembra 2011.
↑ Calculated: 2600 food calories = 2.6e6 cal * 4.184 J/cal = 1.1e7 J
↑ »Table 3.3 Consumer Price Estimates for Energy by Source, 1970–2009«. Annual Energy Review. US Energy Information Administration. 19. oktober 2011. Pridobljeno 17. decembra 2011. $28.90 per million BTU
↑ Calculated J per dollar: 1 million BTU/$28.90 = 1e6 BTU / 28.90 dollars * 1.055e3 J/BTU = 3.65e7 J/dollar
↑ Calculated cost per kWh: 1 kWh * 3.60e6 J/kWh / 3.65e7 J/dollar = 0.0986 dollar/kWh
↑ »Energy in a Cubic Meter of Natural Gas«. The Physics Factbook. Pridobljeno 15. decembra 2011.
↑ »The Olympic Diet of Michael Phelps«. WebMD. Pridobljeno 28. decembra 2011.
↑ Cline, James E. D. »Energy to Space«. Pridobljeno 13. novembra 2011. 6.27E7 Joules / Kg
↑ »ITP Metal Casting: Melting Efficiency Improvement« (PDF). ITP Metal Casting. U.S. Department of Energy. Pridobljeno 14. novembra 2011. 377 kWh/mt
↑ Calculated: 380 kW-h * 3.6e6 J/kW-h = 1.37e9 J
↑ »U.S. Household Electricity Uses: A/C, Heating, Appliances«. U.S. HOUSEHOLD ELECTRICITY REPORT. EIA. Pridobljeno 13. decembra 2011. For refrigerators in 2001, the average UEC was 1,239 kWh
↑ Calculated: 1239 kWh * 3.6e6 J/kWh = 4.5e9 J
↑ »Top 10 Biggest Explosions«. Listverse. Pridobljeno 10. decembra 2011. a yield of 11 tons of TNT
↑ Calculated: 11 tons of TNT-equivalent * 4.184e9 J/ton of TNT-equivalent = 4.6e10 J
↑ »Emission Facts: Average Annual Emissions and Fuel Consumption for Passenger Cars and Light Trucks«. EPA. Pridobljeno 12. decembra 2011. 581 gallons of gasoline
↑ »200 Mile-Per-Gallon Cars?«. Arhivirano iz prvotnega spletišča dne 19. decembra 2011. Pridobljeno 12. decembra 2011. a gallon of gas ... 125 million joules of energy
↑ Calculated: 581 gallons * 125e6 J/gal = 7.26e10 J
↑ Calculated: 1e6 Watts * 86400 seconds/day = 8.6e10 J
↑ Calculated: 3.44e-10 J/U-235-fission * 1e-3 kg / (235 amu per U-235-fission * 1.66e-27 amu/kg) = 8.82e-10 J
↑ »A330-300 Dimensions & key data«. Airbus. Arhivirano iz prvotnega spletišča dne 16. januarja 2013. Pridobljeno 12. decembra 2011. 97530 litres
↑ Calculated: 97530 liters * 0.804 kg/L * 43.15 MJ/kg = 3.38e12 J
↑ Calculated: 1e9 Watts * 3600 seconds/hour
↑ »747 Classics Technical Specs«. Boeing. Pridobljeno 12. decembra 2011. 183,380 L
↑ Calculated: 183380 liters * 0.804 kg/L * 43.15 MJ/kg = 6.36e12 J
↑ »A380-800 Dimensions & key data«. Airbus. Arhivirano iz prvotnega spletišča dne 8. julija 2012. Pridobljeno 12. decembra 2011. 320,000 L
↑ Calculated: 320,000 l * 0.804 kg/L * 43.15 MJ/kg = 11.1e12 J
↑ »International Space Station: The ISS to Date«. NASA. Arhivirano iz prvotnega spletišča dne 11. junija 2015. Pridobljeno 23. avgusta 2011.
↑ »The wizards of orbits«. European Space Agency. Pridobljeno 10. decembra 2011. The International Space Station, for example, flies at 7.7 km/s in one of the lowest practicable orbits
↑ Calculated: E = 1/2 m.v² = 1/2 * 417000 kg * (7700m/s)² = 1.2e13 J
↑ »What was the yield of the Hiroshima bomb?«. Warbird's Forum. Pridobljeno 4. novembra 2011. 21 kt
↑ Calculated: 21 kt = 21e9 grams of TNT-equivalent * 4.2e3 J/gram TNT-equivalent = 8.8e13 J
↑ »Conversion from kg to J«. NIST. Pridobljeno 4. novembra 2011.
↑ »How much energy does a hurricane release?«. FAQ : HURRICANES, TYPHOONS, AND TROPICAL CYCLONES. NOAA. Pridobljeno 12. novembra 2011.
↑ »The Gathering Storms«. COSMOS. Pridobljeno 10. decembra 2011.
↑ Calculated: 4.2e9 J/ton of TNT-equivalent * 1e6 tons/megaton = 4.2e15 J/megaton of TNT-equivalent
↑ Calculated: E = mc^2 = 1 kg * (2.998e8 m/s)^2 = 8.99e16 J
↑ »The Soviet Weapons Program – The Tsar Bomba«. The Nuclear Weapon Archive. Pridobljeno 4. novembra 2011.
↑ Calculated: 50e6 tons TNT-equivalent * 4.2e9 J/ton TNT-equivalent = 2.1e17 J
↑ »Country Comparison :: Electricity – consumption«. The World Factbook. CIA. Arhivirano iz prvotnega spletišča dne 28. januarja 2012. Pridobljeno 11. decembra 2011.
↑ Izračunano: 115.6e9 kWh * 3,60e6 J/kWh = 4,16e17 J
↑ ^104,0 ^104,1 ^104,2 ^104,3 ^104,4 »Statistical Review of World Energy 2011« (PDF). BP. Arhivirano (PDF) iz spletišča dne 23. junija 2011. Pridobljeno 9. decembra 2011.
↑ Calculated: 12002.4e6 tonnes of oil equivalent * 42e9 J/tonne of oil equivalent = 5.0e20 J
↑ Global Uranium Resource
↑ »U.S. Energy Information Administration, International Energy Generation«. Arhivirano iz spletišča dne 17. avgusta 2000. Pridobljeno 25. januarja 2014.
↑ U.S. EIA International Energy Outlook 2007.
↑ Final number is computed. Energy Outlook 2007 shows 15.9% of world energy is nuclear. IAEA estimates conventional uranium stock, at today's prices is sufficient for 85 years. Convert billion kilowatt-hours to joules then: 6.25×10¹⁹×0.159×85 = 8.01×10²⁰.
↑ Calculated: "6608.9 trillion cubic feet" => 6608.9e3 billion cubic feet * 0.025 million tonnes of oil equivalent/billion cubic feet * 1e6 tonnes of oil equivalent/million tonnes of oil equivalent * 42e9 J/tonne of oil equivalent = 6.9e21 J
↑ Calculated: "188.8 thousand million tonnes" => 188.8e9 tonnes of oil * 42e9 J/tonne of oil = 7.9e21 J
↑ Calculated: 1.27e14 m^2 * 1370 W/m^2 * 86400 s/day = 1.5e22 J
↑ Calculated: 860938 million tonnes of coal => 860938e6 tonnes of coal * (1/1.5 tonne of oil equivalent / tonne of coal) * 42e9 J/tonne of oil equivalent = 2.4e22 J
↑ Calculated: natural gas + petroleum + coal = 6.9e21 J + 7.9e21 J + 2.4e22 J = 3.9e22 J
↑ »USGS, Harvard Moment Tensor Solution«. National Earthquake Information Center, US Geological Survey. 26. december 2004. Arhivirano iz prvotnega spletišča dne 17. januarja 2010. Pridobljeno 9. decembra 2011.
↑ Zemlja ima presek 1,274×10¹⁴ kvadratnih metrov in Sončna konstanta je 1361 vatov na kvadratni meter.
↑ Calculated: 1.27e14 m^2 * 1370 W/m^2 * 86400 s/day = 5.5e24 J
↑ ^118,0 ^118,1 ^118,2 »Ask Us: Sun: Amount of Energy the Earth Gets from the Sun«. Cosmicopia. NASA. Arhivirano iz prvotnega spletišča dne 6. novembra 2011. Pridobljeno 4. novembra 2011.
↑ »Moon Fact Sheet«. NASA. Pridobljeno 16. decembra 2011.
↑ Calculated: KE = 1/2 * m * v^2. v = 1.023e3 m/s. m = 7.349e22 kg. KE = 1/2 * (7.349e22 kg) * (1.023e3 m/s)^2 = 3.845e28 J.
↑ »Moment of Inertia—Earth«. Eric Weisstein's World of Physics. Pridobljeno 5. novembra 2011.
↑ Allain, Rhett. »Rotational energy of the Earth as an energy source«. .dotphysics. Science Blogs. Arhivirano iz prvotnega spletišča dne 17. novembra 2011. Pridobljeno 5. novembra 2011. the Earth takes 23.9345 hours to rotate
↑ Calculated: E_rotational = 1/2 * I * w^2 = 1/2 * (8.0e37 kg m^2) * (2*pi/(23.9345 hour period * 3600 seconds/hour))^2 = 2.1e29 J
↑ Calculated: 3.8e26 J/s * 86400 s/day = 3.3e31 J
↑ »arhivska kopija«. Arhivirano iz prvotnega spletišča dne 22. avgusta 2017. Pridobljeno 25. januarja 2014.
↑ Calculated: 3.8e26 J/s * 86400 s/day * 365.25 days/year = 1.2e34 J
↑ »Earth: Facts & Figures«. Solar System Exploration. NASA. Arhivirano iz prvotnega spletišča dne 13. novembra 2015. Pridobljeno 29. septembra 2011.
↑ »Conversion from kg to J«. NIST. Pridobljeno 4. novembra 2011.
↑ Khokhlov, A.; Mueller, E.; Hoeflich, P. (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.
↑ »A Hypernova: The Super-charged Supernova and its link to Gamma-Ray Bursts«. Imagine the Universe!. NASA. Pridobljeno 9. decembra 2011. With a power about 100 times that of the already astonishingly powerful "typical" supernova
↑ »Sun Fact Sheet«. NASA. Pridobljeno 15. oktobra 2011.
↑ »Conversion from kg to J«. NIST. Pridobljeno 4. novembra 2011.
↑ »Fermi's record breaking gamma-ray burst«. AstronomyNow. 20. februar 2009. Arhivirano iz prvotnega spletišča dne 21. oktobra 2017. Pridobljeno 25. januarja 2014.
↑ Jim Brau. »The Milky Way Galaxy«. Arhivirano iz prvotnega spletišča dne 18. junija 2013. Pridobljeno 4. novembra 2011.
↑ »Conversion from kg to J«. NIST. Pridobljeno 4. novembra 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. DOI: 10.1007/s10511-006-0002-6.
↑ »Conversion from kg to J«. NIST. Pridobljeno 4. novembra 2011.
↑ Einasto, M.; in sod. (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.{{navedi časopis}}: Vzdrževanje CS1: samodejni prevod datuma (povezava)
↑ http://imagine.gsfc.nasa.gov/docs/ask_astro/answers/980211b.html

[1] Calculated: E_photon = hv = 6.626e-34 J-s * 1e6 Hz = 6.6e-28 J. In eV: 6.6e-28 J / 1.6e-19 J/eV = 4.1e-9 eV.

[2] »Frequency of a Microwave Oven«. The Physics Factbook. Pridobljeno 15. novembra 2011.

[3] Calculated: E_photon = hv = 6.626e-34 J-s * 2.45e8 Hz = 1.62e-24 J. In eV: 1.62e-24 J / 1.6e-19 J/eV = 1.0e-5 eV.

[4] »Boomerang Nebula boasts the coolest spot in the Universe«. JPL. Arhivirano iz prvotnega spletišča dne 27. avgusta 2009. Pridobljeno 13. novembra 2011.

[5] Calculated: KE_avg ≈ (3/2) * T * 1.38E-23 = (3/2) * 1 * 1.38E-23 ≈ 2.07E-23 J

[6] Calculated: 1e3 J / 6.022e23 entities per mole = 1.7e-21 J per entity

[7] Calculated: 1.381e-23 J/K * 298.15 K / 2 = 2.1e-21 J

[ucla_chem125-8] 8,0 ^8,1 »Bond Lengths and Energies«. Chem 125 notes. UCLA. Arhivirano iz prvotnega spletišča dne 23. avgusta 2011. Pridobljeno 13. novembra 2011.

[9] Calculated: 2 to 4 kJ/mol = 2e3 J / 6.022e23 molecules/mol = 3.3e-21 J. In eV: 3.3e-21 J / 1.6e-19 J/eV = 0.02 eV. 4e3 J / 6.022e23 molecules/mol = 6.7e-21 J. In eV: 6.7e-21 J / 1.6e-19 J/eV = 0.04 eV.

[10] »CODATA Value: electron volt«. NIST. Pridobljeno 4. novembra 2011.

[11] »BASIC LAB KNOWLEDGE AND SKILLS«. Arhivirano iz prvotnega spletišča dne 15. maja 2013. Pridobljeno 5. novembra 2011. Visible wavelengths are roughly from 390 nm to 780 nm

[12] Calculated: E = h * c / lambda. E_780_nm = 6.6e-34 kg-m^2/s * 3e8 m/s / (780e-9 m) = 2.5e-19 J. E_390 _nm = 6.6e-34 kg-m^2/s * 3e8 m/s / (390e-9 m) = 5.1e-19 J

[13] Calculated: 50 kcal/mol * 4.184 J/calorie / 6.0e22e23 molecules/mol = 3.47e-19 J. (3.47e-19 J / 1.60e-19 eV/J = 2.2 eV.) and 200 kcal/mol * 4.184 J/calorie / 6.0e22e23 molecules/mol = 1.389e-18 J. (7.64e-19 J / 1.60e-19 eV/J = 8.68 eV.)

[NASA_spectrum-14] 14,0 ^14,1 ^14,2 »Wavelength, Frequency, and Energy«. Imagine the Universe. NASA. Pridobljeno 15. novembra 2011.

[15] »electron mass energy equivalent«. NIST. Pridobljeno 4. novembra 2011.

[16] Muller, Richard A. (2002). »The Sun, Hydrogen Bombs, and the physics of fusion«. Pridobljeno 5. novembra 2011. The neutron comes out with high energy of 14.1 MeV

[17] »Conversion from eV to J«. NIST. Pridobljeno 4. novembra 2011.

[Energy_From_Uranium_Fission-18] 18,0 ^18,1 »Energy From Uranium Fission«. HyperPhysics. Pridobljeno 8. novembra 2011.

[Conversion_from_eV_to_J-19] 19,0 ^19,1 »Conversion from eV to J«. NIST. Pridobljeno 4. novembra 2011.

[20] »proton mass energy equivalent«. NIST. Pridobljeno 4. novembra 2011.

[21] »neutron mass energy equivalent«. NIST. Pridobljeno 4. novembra 2011.

[22] »Conversion from eV to J«. NIST. Pridobljeno 4. novembra 2011.

[23] »deuteron mass energy equivalent«. NIST. Pridobljeno 4. novembra 2011.

[24] »alpha particle mass energy equivalent«. NIST. Pridobljeno 4. novembra 2011.

[25] »Conversion from eV to J«. NIST. Pridobljeno 4. novembra 2011.

[26] Myers, Stephen. »The LEP Collider«. CERN. Arhivirano iz prvotnega spletišča dne 18. junija 2014. Pridobljeno 14. novembra 2011. the LEP machine energy is about 50 GeV per beam

[27] Calculated: 50e9 eV * 1.6e-19 J/eV = 8e-9 J

[28] »W«. PDG Live. Particle Data Group. Arhivirano iz prvotnega spletišča dne 17. julija 2012. Pridobljeno 4. novembra 2011.

[29] »Conversion from eV to J«. NIST. Pridobljeno 4. novembra 2011.

[Amsler2008-30] DOI: 10.1016/j.physletb.2008.07.018
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[31] »Conversion from eV to J«. NIST. Pridobljeno 4. novembra 2011.

[32] »Conversion from eV to J«. NIST. Pridobljeno 4. novembra 2011.

[33] »New results indicate that new particle is a Higgs boson«. CERN. Pridobljeno 9. junija 2013.

[34] Adams, John. »400 GeV Proton Synchrotron«. Excertp from the CERN Annual Report 1976. CERN. Arhivirano iz prvotnega spletišča dne 26. oktobra 2011. Pridobljeno 14. novembra 2011. A circulating proton beam of 400 GeV energy was first achieved in the SPS on 17 June 1976

[35] Calculated: 400e9 eV * 1.6e-19 J/eV = 6.4e-8 J

[NIST_SI_units-36] 36,0 ^36,1 ^36,2 »Appendix B8—Factors for Units Listed Alphabetically«. NIST Guide for the Use of the International System of Units (SI). NIST. Pridobljeno 4. novembra 2011. 1.355818

[37] »LHC will run at 7 TeV in 2012«. Physics World. Arhivirano iz prvotnega spletišča dne 13. novembra 2011. Pridobljeno 12. novembra 2011. 3.5 TeV per proton beam

[38] Calculated: 3.5e12 eV per beam * 1.6e-19 J/eV = 5.6e-7 J

[39] »Coin specifications«. United States Mint. Arhivirano iz prvotnega spletišča dne 18. februarja 2015. Pridobljeno 2. novembra 2011. 11.340 g

[40] Calculated: m*g*h = 11.34e-3 kg * 9.8 m/s^2 * 1 m = 1.1e-1 J

[41] »Apples, raw, with skin (NDB No. 09003)«. USDA Nutrient Database. USDA. Arhivirano iz prvotnega spletišča dne 3. marca 2015. Pridobljeno 8. decembra 2011.

[42] Calculated: m*g*h = 1e-1 kg * 9.8 m/s^2 * 1 m = 1 J

[43] »Specific Heat of Dry Air«. Engineering Toolbox. Pridobljeno 2. novembra 2011.

[44] »Footnotes«. NIST Guide to the SI. NIST. Pridobljeno 4. novembra 2011.

[45] »Physical Motivations«. ULTRA Home Page (EUSO project). Dipartimento di Fisica di Torino. Pridobljeno 12. novembra 2011.

[46] Calculated: 5e19 eV * 1.6e-19 J/ev = 8 J

[47] »The Fly's Eye (1981–1993)«. HiRes. Arhivirano iz prvotnega spletišča dne 15. avgusta 2009. Pridobljeno 14. novembra 2011.

[48] »Notes on the Troubleshooting and Repair of Electronic Flash Units and Strobe Lights and Design Guidelines, Useful Circuits, and Schematics«. Pridobljeno 8. decembra 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.

[ev_pwrsh-49] »Teardown: Digital Camera Canon PowerShot |«. electroelvis.com. 2. september 2012. Arhivirano iz prvotnega spletišča dne 1. avgusta 2013. Pridobljeno 6. junija 2013.

[50] »Ionizing Radiation«. General Chemistry Topic Review: Nuclear Chemistry. Bodner Research Web. Arhivirano iz prvotnega spletišča dne 9. januarja 2012. Pridobljeno 5. novembra 2011.

[51] »Vertical Jump Test«. Topend Sports. Pridobljeno 12. decembra 2011. 41–50 cm (males) 31–40 cm (females)

[52] »Mass of an Adult«. The Physics Factbook. Pridobljeno 13. decembra 2011. 70 kg

[53] Kinetic energy at start of jump = potential energy at high point of jump. Using a mass of 70 kg and a high point of 40 cm => energy = m*g*h = 70 kg * 9.8 m/s^2 * 40e-2 m = 274 J

[54] »Latent Heat of Melting of some common Materials«. Engineering Toolbox. Pridobljeno 10. junija 2013. 334 kJ/kg

[55] Young, Michael. »Developing Event Specific Strength for the Javelin Throw« (PDF). Arhivirano (PDF) iz spletišča dne 13. avgusta 2011. Pridobljeno 13. decembra 2011. For elite athletes, the velocity of a javelin release has been measured in excess of 30m/s

[56] Calculated: 1/2 * 0.8 kg * (30 m/s)^2 = 360 J

[57] Greenspun, Philip. »Studio Photography«. Pridobljeno 13. decembra 2011. Most serious studio photographers start with about 2000 watts-seconds

[58] »Discus Throw – Introduction«. IAAF. Pridobljeno 12. decembra 2011.

[59] »Energy Density of Carbohydrates«. The Physics Factbook. Pridobljeno 5. novembra 2011.

[60] »Energy Density of Protein«. The Physics Factbook. Pridobljeno 5. novembra 2011.

[61] »Energy Density of Fats«. The Physics Factbook. Pridobljeno 5. novembra 2011.

[gascomb-62] »Energy Density of Gasoline«. The Physics Factbook. Pridobljeno 5. novembra 2011.

[63] Calculated: E = 1/2 m*v^2 = 1/2 * (1e-3 kg) * (1e4 m/s)^2 = 5e4 J.

[nih_balance-64] »How to Balance the Food You Eat and Your Physical Activity and Prevent Obesity«. Healthy Weight Basics. National Heart Lung and Blood Institutde. Pridobljeno 14. novembra 2011.

[65] Calculated: 2600 food calories = 2.6e6 cal * 4.184 J/cal = 1.1e7 J

[66] »Table 3.3 Consumer Price Estimates for Energy by Source, 1970–2009«. Annual Energy Review. US Energy Information Administration. 19. oktober 2011. Pridobljeno 17. decembra 2011. $28.90 per million BTU

[67] Calculated J per dollar: 1 million BTU/$28.90 = 1e6 BTU / 28.90 dollars * 1.055e3 J/BTU = 3.65e7 J/dollar

[68] Calculated cost per kWh: 1 kWh * 3.60e6 J/kWh / 3.65e7 J/dollar = 0.0986 dollar/kWh

[69] »Energy in a Cubic Meter of Natural Gas«. The Physics Factbook. Pridobljeno 15. decembra 2011.

[70] »The Olympic Diet of Michael Phelps«. WebMD. Pridobljeno 28. decembra 2011.

[71] Cline, James E. D. »Energy to Space«. Pridobljeno 13. novembra 2011. 6.27E7 Joules / Kg

[72] »ITP Metal Casting: Melting Efficiency Improvement« (PDF). ITP Metal Casting. U.S. Department of Energy. Pridobljeno 14. novembra 2011. 377 kWh/mt

[73] Calculated: 380 kW-h * 3.6e6 J/kW-h = 1.37e9 J

[74] »U.S. Household Electricity Uses: A/C, Heating, Appliances«. U.S. HOUSEHOLD ELECTRICITY REPORT. EIA. Pridobljeno 13. decembra 2011. For refrigerators in 2001, the average UEC was 1,239 kWh

[75] Calculated: 1239 kWh * 3.6e6 J/kWh = 4.5e9 J

[76] »Top 10 Biggest Explosions«. Listverse. Pridobljeno 10. decembra 2011. a yield of 11 tons of TNT

[77] Calculated: 11 tons of TNT-equivalent * 4.184e9 J/ton of TNT-equivalent = 4.6e10 J

[78] »Emission Facts: Average Annual Emissions and Fuel Consumption for Passenger Cars and Light Trucks«. EPA. Pridobljeno 12. decembra 2011. 581 gallons of gasoline

[79] »200 Mile-Per-Gallon Cars?«. Arhivirano iz prvotnega spletišča dne 19. decembra 2011. Pridobljeno 12. decembra 2011. a gallon of gas ... 125 million joules of energy

[80] Calculated: 581 gallons * 125e6 J/gal = 7.26e10 J

[81] Calculated: 1e6 Watts * 86400 seconds/day = 8.6e10 J

[82] Calculated: 3.44e-10 J/U-235-fission * 1e-3 kg / (235 amu per U-235-fission * 1.66e-27 amu/kg) = 8.82e-10 J

[83] »A330-300 Dimensions & key data«. Airbus. Arhivirano iz prvotnega spletišča dne 16. januarja 2013. Pridobljeno 12. decembra 2011. 97530 litres

[84] Calculated: 97530 liters * 0.804 kg/L * 43.15 MJ/kg = 3.38e12 J

[85] Calculated: 1e9 Watts * 3600 seconds/hour

[86] »747 Classics Technical Specs«. Boeing. Pridobljeno 12. decembra 2011. 183,380 L

[87] Calculated: 183380 liters * 0.804 kg/L * 43.15 MJ/kg = 6.36e12 J

[88] »A380-800 Dimensions & key data«. Airbus. Arhivirano iz prvotnega spletišča dne 8. julija 2012. Pridobljeno 12. decembra 2011. 320,000 L

[89] Calculated: 320,000 l * 0.804 kg/L * 43.15 MJ/kg = 11.1e12 J

[90] »International Space Station: The ISS to Date«. NASA. Arhivirano iz prvotnega spletišča dne 11. junija 2015. Pridobljeno 23. avgusta 2011.

[91] »The wizards of orbits«. European Space Agency. Pridobljeno 10. decembra 2011. The International Space Station, for example, flies at 7.7 km/s in one of the lowest practicable orbits

[92] Calculated: E = 1/2 m.v² = 1/2 * 417000 kg * (7700m/s)² = 1.2e13 J

[93] »What was the yield of the Hiroshima bomb?«. Warbird's Forum. Pridobljeno 4. novembra 2011. 21 kt

[94] Calculated: 21 kt = 21e9 grams of TNT-equivalent * 4.2e3 J/gram TNT-equivalent = 8.8e13 J

[95] »Conversion from kg to J«. NIST. Pridobljeno 4. novembra 2011.

[noaa-96] »How much energy does a hurricane release?«. FAQ : HURRICANES, TYPHOONS, AND TROPICAL CYCLONES. NOAA. Pridobljeno 12. novembra 2011.

[97] »The Gathering Storms«. COSMOS. Pridobljeno 10. decembra 2011.

[98] Calculated: 4.2e9 J/ton of TNT-equivalent * 1e6 tons/megaton = 4.2e15 J/megaton of TNT-equivalent

[99] Calculated: E = mc^2 = 1 kg * (2.998e8 m/s)^2 = 8.99e16 J

[100] »The Soviet Weapons Program – The Tsar Bomba«. The Nuclear Weapon Archive. Pridobljeno 4. novembra 2011.

[101] Calculated: 50e6 tons TNT-equivalent * 4.2e9 J/ton TNT-equivalent = 2.1e17 J

[CIA_electricity_consumption-102] »Country Comparison :: Electricity – consumption«. The World Factbook. CIA. Arhivirano iz prvotnega spletišča dne 28. januarja 2012. Pridobljeno 11. decembra 2011.

[103] Izračunano: 115.6e9 kWh * 3,60e6 J/kWh = 4,16e17 J

[BP_Statistical_Review_2011-104] 104,0 ^104,1 ^104,2 ^104,3 ^104,4 »Statistical Review of World Energy 2011« (PDF). BP. Arhivirano (PDF) iz spletišča dne 23. junija 2011. Pridobljeno 9. decembra 2011.

[105] Calculated: 12002.4e6 tonnes of oil equivalent * 42e9 J/tonne of oil equivalent = 5.0e20 J

[iaea-106] Global Uranium Resource

[107] »U.S. Energy Information Administration, International Energy Generation«. Arhivirano iz spletišča dne 17. avgusta 2000. Pridobljeno 25. januarja 2014.

[108] U.S. EIA International Energy Outlook 2007.

[109] Final number is computed. Energy Outlook 2007 shows 15.9% of world energy is nuclear. IAEA estimates conventional uranium stock, at today's prices is sufficient for 85 years. Convert billion kilowatt-hours to joules then: 6.25×10¹⁹×0.159×85 = 8.01×10²⁰.

[110] Calculated: "6608.9 trillion cubic feet" => 6608.9e3 billion cubic feet * 0.025 million tonnes of oil equivalent/billion cubic feet * 1e6 tonnes of oil equivalent/million tonnes of oil equivalent * 42e9 J/tonne of oil equivalent = 6.9e21 J

[111] Calculated: "188.8 thousand million tonnes" => 188.8e9 tonnes of oil * 42e9 J/tonne of oil = 7.9e21 J

[112] Calculated: 1.27e14 m^2 * 1370 W/m^2 * 86400 s/day = 1.5e22 J

[113] Calculated: 860938 million tonnes of coal => 860938e6 tonnes of coal * (1/1.5 tonne of oil equivalent / tonne of coal) * 42e9 J/tonne of oil equivalent = 2.4e22 J

[114] Calculated: natural gas + petroleum + coal = 6.9e21 J + 7.9e21 J + 2.4e22 J = 3.9e22 J

[115] »USGS, Harvard Moment Tensor Solution«. National Earthquake Information Center, US Geological Survey. 26. december 2004. Arhivirano iz prvotnega spletišča dne 17. januarja 2010. Pridobljeno 9. decembra 2011.

[sun1-116] Zemlja ima presek 1,274×10¹⁴ kvadratnih metrov in Sončna konstanta je 1361 vatov na kvadratni meter.

[117] Calculated: 1.27e14 m^2 * 1370 W/m^2 * 86400 s/day = 5.5e24 J

[sun2-118] 118,0 ^118,1 ^118,2 »Ask Us: Sun: Amount of Energy the Earth Gets from the Sun«. Cosmicopia. NASA. Arhivirano iz prvotnega spletišča dne 6. novembra 2011. Pridobljeno 4. novembra 2011.

[119] »Moon Fact Sheet«. NASA. Pridobljeno 16. decembra 2011.

[120] Calculated: KE = 1/2 * m * v^2. v = 1.023e3 m/s. m = 7.349e22 kg. KE = 1/2 * (7.349e22 kg) * (1.023e3 m/s)^2 = 3.845e28 J.

[121] »Moment of Inertia—Earth«. Eric Weisstein's World of Physics. Pridobljeno 5. novembra 2011.

[122] Allain, Rhett. »Rotational energy of the Earth as an energy source«. .dotphysics. Science Blogs. Arhivirano iz prvotnega spletišča dne 17. novembra 2011. Pridobljeno 5. novembra 2011. the Earth takes 23.9345 hours to rotate

[123] Calculated: E_rotational = 1/2 * I * w^2 = 1/2 * (8.0e37 kg m^2) * (2*pi/(23.9345 hour period * 3600 seconds/hour))^2 = 2.1e29 J

[124] Calculated: 3.8e26 J/s * 86400 s/day = 3.3e31 J

[125] »arhivska kopija«. Arhivirano iz prvotnega spletišča dne 22. avgusta 2017. Pridobljeno 25. januarja 2014.

[126] Calculated: 3.8e26 J/s * 86400 s/day * 365.25 days/year = 1.2e34 J

[127] »Earth: Facts & Figures«. Solar System Exploration. NASA. Arhivirano iz prvotnega spletišča dne 13. novembra 2015. Pridobljeno 29. septembra 2011.

[128] »Conversion from kg to J«. NIST. Pridobljeno 4. novembra 2011.

[129] Khokhlov, A.; Mueller, E.; Hoeflich, P. (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.

[130] »A Hypernova: The Super-charged Supernova and its link to Gamma-Ray Bursts«. Imagine the Universe!. NASA. Pridobljeno 9. decembra 2011. With a power about 100 times that of the already astonishingly powerful "typical" supernova

[131] »Sun Fact Sheet«. NASA. Pridobljeno 15. oktobra 2011.

[132] »Conversion from kg to J«. NIST. Pridobljeno 4. novembra 2011.

[133] »Fermi's record breaking gamma-ray burst«. AstronomyNow. 20. februar 2009. Arhivirano iz prvotnega spletišča dne 21. oktobra 2017. Pridobljeno 25. januarja 2014.

[134] Jim Brau. »The Milky Way Galaxy«. Arhivirano iz prvotnega spletišča dne 18. junija 2013. Pridobljeno 4. novembra 2011.

[135] »Conversion from kg to J«. NIST. Pridobljeno 4. novembra 2011.

[Karachentsev2006-136] 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. DOI: 10.1007/s10511-006-0002-6.

[137] »Conversion from kg to J«. NIST. Pridobljeno 4. novembra 2011.

[ein07-138] Einasto, M.; in sod. (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.{{navedi časopis}}: Vzdrževanje CS1: samodejni prevod datuma (povezava)

[139] ttp://imagine.gsfc.nasa.gov/docs/ask_astro/answers/980211b.html

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