Table - Density of air ρ vs. temperature °C
Effect of temperature
°C ..... ρ in kg/m3
−10 ..... 1.342
.− 5 ..... 1.317
....0 ..... 1.292
.+ 5 ..... 1.269
+10 ..... 1.247
+15 ..... 1.225
+20 ..... 1.204
+25 ..... 1.184
+30 ..... 1.165 Air at 0 degrees Celsius has a density of 1.292 kg/m3 = 1.292 g/L = 0.001292 kg/dm3 = 0.00001292 kg/L = 0.00001292 g/cm3 = 0.00001292 g/mL.
The density of water, for example is the mass divided by the volume. So if a litre of water weighs a kilogram and the volume is a litre, then the density one kilogram per litre. This is the same as saying 1000 grams per litre, or 1000 grams per 1000 millilitres, or one gram per millilitre since 1000 grams = one kilogram, and 1000 millilitres = 1 litre
The density of water is always 1 gram per cm cubed.
You are comparing apples and oranges here. ml stands for mili-litre, that is a volume like a gallon. Pound however is a weight. This can only be compared if you look at a certain substance (like water), of which you know the density (how much weight per volumen there is). In the case of water, the density is 1 kilogram per litre, that is 1 kilogram per 1000 Mili-litre (mili just means one in a thousand). Now, you talk about 3528 ml which is 3.528 litres and consequently 3.828 kilograms of water. This is about 7.76 pounds.
it is the density as density is defined as mass per unit volume.
An increase in air density will mean a decrease in the absorption and radiation of energy. An increase of air density causes temperature and pressure to rise.
The density of water, for example is the mass divided by the volume. So if a litre of water weighs a kilogram and the volume is a litre, then the density one kilogram per litre. This is the same as saying 1000 grams per litre, or 1000 grams per 1000 millilitres, or one gram per millilitre since 1000 grams = one kilogram, and 1000 millilitres = 1 litre
Yes, much lighter. The density of hydrogen is 0.08988 grams per litre, at standard temperature and pressure at sea level. The density of air is 1.22521 grams per litre, at the same temperature and pressure.
1.29 grams/litre
The answer will depend on the units used. A density of 1 gram per litre is pretty light (less than the density of air at STP) whereas a density of 1 kilogram per ml is seriously dense.
Density is the mass (weight) of a standard volume. So if you had one litre of air and one litre of lead the lead would have the higher density
kilograms per litre.
The density of petroleum diesel fuel is about 0.85 kilograms per litre (7.09 pounds per gallon).
Density of lead is about 11grams per cubic cm. 1000 cubic cm per litre so about 11kg per litre.
You need liquid density ( kg per litre ) > Some example densities ( kg per litre) Water = 1.0 Petrol = 0.737 Beer = 1.01 Kerosene = 0.82 Paraffin = 0.8 > 1 US gallon = 3.7854 litres, then * density of liquid ( kg per litre ) = kgs or: 1 UK gallon = 4.5461 litres, then * density of liquid ( kg per litre ) = kgs
Grams per cm3 (or mL) or kg per litre.
Around 0.8 kg per litre or 0.8 grams per cubic centimeter (where water is 1 kg per litre or 1 gram per cubic centimetre).
Around 0.8 kg per litre or 0.8 grams per cubic centimeter (where water is 1 kg per litre or 1 gram per cubic centimetre).