1 g/m3 = 0.001 kg/m3
⇒ 13.6 g/m3 = 0.0136 kg/m3
The better value for money is 2 kg of grapes for 3.50. With this option, you are paying 1.75 per kilogram of grapes. On the other hand, with 1 kg for 1.80, you are paying 1.80 per kilogram, which is a higher price.
To convert milligrams per kilogram (mg/kg) to milligrams (mg), you would multiply the value in mg/kg by the weight in kilograms. For example, if you have a value of 5 mg/kg and a weight of 10 kg, the calculation would be 5 mg/kg x 10 kg = 50 mg.
4.5 kg for $5 = 5/4.5 = 1.11 $ per kilogram 3.0 kg for $3 = 3/3.0 = 1.00 $ per kilogram
The calorific value of diesel is around 42.7 Mega Joules per kilogram.
kg/L The international system (SI) unit for density is kg/m3 - but for you that would entail converting the number of Litres to m3 in the first place. kg/L is acceptable (but kind of unusual). It has the same numeric value as the considerably more common grams per cubic centimeter.
Solid gypsum density is 2312 to 2322 kg/cubic meter or 2.312 to 2.322 g/cc. These are "as measured" values indicating some variation in the gypsum crystals. By the molecular formula, calcium sulfate with two water molecules should weigh 2.308 gm/cc. If not solid, then broken gypsum density ranges from 1290 to 1600 kg/m3.
Use any chart that converts kilograms to pounds. Then take the price per lb, look it up in the kilogram side and the value in the pound side is the price per kg. eg £3.25 per lb: Convert 3.25 kg to lb: 3.25 kg ≈ 7.17 lb → £3.25 per lb is (approx) £7.17 per kg
To convert pressure from pounds per square inch (psi) to kilograms per square centimeter (kg/cm²), you can use the following conversion factor: 1 psi = 0.070307 kg/cm² Simply multiply the pressure in psi by 0.070307 to get the equivalent value in kg/cm².
The value of 60 kg of gold in euros would depend on the current market price of gold. As of now, if we assume an approximate price of 50,000 euros per kilogram of gold, the value of 60 kg of gold would be around 3,000,000 euros.
If one kilogram has a value of 2, then 1.25 kg has a value of 2.5 (2 x 1.25)
ANTIMATERY anti matery 50 mld $ per 1g gramm ... it is in nanograms made ... per year !
1 (kg / liters) per second = 3600 (kg / liters) per hour. So, multiply kg/l per second by 3,600 to get kg/l per hour.