4 kWh 14,400,000 J 14,400 kJ 14.4 MJ 0.0144 GJ 3,441,683 cal 3,442 kcal 3.441683 Mcal 4,000 Wh 0.004 MWh 14,400,000 Ws 13,649 BTU 0.013649 MMBTU 0.136486 0.000000000013649 89,878,000,000,000,006,413,090,816 eV 89,878,000,000,000,006,815,744 keV 89,878,000,000,000,000,...
1 Ws 1 J 0.001 kJ 0.000001 MJ 0.000000001 GJ 0.239006 cal 0.000239 kcal 0.00000023901 Mcal 0.000278 Wh 0.00000027778 kWh 0.00000000027778 MWh 0.000948 BTU 0.00000000094782 MMBTU 0.0000000094782 0.00000000000000000094782 6,241,500,000,000,000,000 eV 6,241,500,000,000,000 keV 6,241,509,343,260 MeV...
18. Entropy (kJ/kg.K, BTU/hr.R) By default, the app provides the conversion factor for units listed above. However, users can enter in any data and then convert its value in the chosen unit from the picker. In addition app generates a conversion table for the chosen unit. The followi...
These results give ΔG‡ values of 107.8 kJ mol−1, 108.4 kJ mol−1 and 107.9 kJ mol−1 and, therefore, an average of 108.0 kJ mol−1 or 25.8 kcal mol−1. Stacked spectra and conversion tables can be found in ‘NMR spectra’ section of ...
(ΔHr=+53.3 kJ mol−1) and thus requires harsher conditions (Supplementary Note 1). Formaldehyde has been intensively studied due to its importance in the atmosphere, interstellar space and combustion chemistry22and plays a key role in the metabolism of living cells23, acting as a ...
Using the same nutrient definitions, differences between general and specific Atwater factors accounted for 50–320 kJ/capita/day (10–75 kcal/capita/day) and for 290–1500 kJ/capita/day (70–360 kcal/capita/day) between GE and metabolizable energy supply calculations. Protein definitions have a...
For the formation of PX from IM5_Zr, the ΔEe≠ for this step is 20.2 kcal·mol−1 on the Brönsted acid site whereas it is 36.1 kcal·mol−1 without the help of the Brönsted acid site. It can be seen that both the Lewis and Brönsted acid sites are important for the ...
formaldehyde, to hydrogen gas, catalysed by platinumcopper chromite, has been carried out in the temperature range 2060掳C, at a solution pH of 12.The production of hydrogen was favoured by intermediate temperatures (4050掳C) and an activation energy of 22.2 kJ mol1 (5.3 kcal mol1) was ...
8 MWh28,800,000,000 J28,800,000 kJ28,800 MJ28.8 GJ6,883,365,201 cal6,883,365 kcal6,883 Mcal8,000,000 Wh8,000 kWh28,800,000,000 Ws27,297,133 BTU27.297133 MMBTU272.9713310.000000027297179,759,999,999,999,986,753,515,552,768 eV179,760,000,000,000,015,065,939,968 keV179,759,...
The average vibrational energy transfer at 300 K changes from − 0.73 to − 2.33 kJ mol− 1 when the initial energy increases from 48 to 287 kJ mol− 1 in excess of zero-point energy. Importantly, the magnitude of the average down energy transfer is much larger and changes more ...