11 kg = 1 m3 = 1 L
1 m3 x 1000000 cm3/1 m3 x 2.75g/cm3 x 1 kg/1000g = 2750 kg
there are 1.0000 kg in 1 cubic meter I do not know why, but i searched that up on a unit converter. It depends what you are reffering to; for example 1 m3 meter of water =1,000 kg = 1 metric ton
m3 kg-1 s-2.
Das variiert je nach Zementmischung. In der Regel hat Zement eine Dichte von 900 - 1900 kg/m3. Für den Durchschnittswert von 1400 kg/m3 beträgt das Gewicht also 1.4 Tonnen.
1MMBTU=? m3
It all depends upon the density of the substance. For 1 Kg of Mercury, with a density of 13534 Kg/m3 it will occupy a volume of about 0.0000739 m3. For 1 Kg of Hydrogen with a density of 0.0899 kg/m3 it will occupy a volume of about 11.12 m3.
11 kg = 1 m3 = 1 L
volume = mass ÷ density. 1 tonne = 1000 kg The volume depends upon the density of the clay which will vary with how wet it is. Dry clay has a density of 1600 kg/m3 → volume = 1000 kg ÷ 1600 kg/m3 = 0.625 m3 Wet clay has a density of 1760 kg/m3 → volume = 1000 kg ÷ 1760 kg/m3 ≈ 0.568 m3 Which means the volume of 1 tonne of clay will be in the range of approx 0.568 m3 to 0.625 m3
1 g/m3 = 0.001 kg/m3 ⇒ 13.6 g/m3 = 0.0136 kg/m3
1 kg of Lng of that particular quality will have say ' X ' k.cal per kg of calorific value from the data of LNG producer. Then 1 Ton of LNG will have 1000X when converted to B.T.U it will be 3967 multiplied by 1000 X What "particular quality" is referred to above??? Generally speaking 1 tonne (1000Kg) of LNG is considered to have a caloric value of 48 MMBtu
1 m3 x 1000000 cm3/1 m3 x 2.75g/cm3 x 1 kg/1000g = 2750 kg
To convert 1.55 kg/m³ to g/L, you can multiply by 1000 since there are 1000 grams in a kilogram and 1000 liters in a cubic meter. So, 1.55 kg/m³ is equal to 1550 g/L.
Liquified natural gas has about 1/600th of the volume of natural gas at standard temperature and pressure, so 1 m3 of natural gas would be about 0.001666 m3, or 1.67 liters, of LNG.
Typically, 0.2 kg of binding wire is needed per cubic meter of concrete for binding purpose.
10 mmBTU = kg formula LNG
One kilogram of ice is equivalent to one liter in volume, as the density of ice is close to 1 g/cm³ or 1 kg/L.