100 dag = 1 kg so 13 dak = 13/100 kg = 0.13 kg. Simple!100 dag = 1 kg so 13 dak = 13/100 kg = 0.13 kg. Simple!100 dag = 1 kg so 13 dak = 13/100 kg = 0.13 kg. Simple!100 dag = 1 kg so 13 dak = 13/100 kg = 0.13 kg. Simple!
The kilo- prefix means 1000 → 1 kg = 1000 g → to convert g to kg divide by 1000 → 100 g = 100 ÷ 1000 kg = 0.1 kg
100 kg/200cm3 = 0.5 kg/cm3 or 500 g/cm3. That would be very unusual wood since most woods are around 0.65 g/cm3. This particular wood is more than 300 times the normal density!
Density (kg/m3) = mass(kg)/volume(m3)= 0.386/20x10-3 = 19.333333....kg/m3
No.
The density is 10 kg/mL
Density = Mass/Volume = 100/50 kg/cc = 2 kg/cc
To convert 100 kg to cc, you need to know the density of the substance you are working with. The formula for converting mass to volume involves multiplying the mass (in kg) by the reciprocal of the substance's density (in kg/cc). This will give you the volume in cubic centimeters (cc).
Percent by mass refers to the concentration of a solute in a solution based on its mass, while percent by volume refers to the concentration based on the volume of the solution. Percent by mass is calculated as (mass of solute / mass of solution) x 100%, while percent by volume is calculated as (volume of solute / volume of solution) x 100%.
4.56 kg of what? 4.56 kg of hydrogen has a different volume than 4.56 kg of lead.
100 dag = 1 kg so 13 dak = 13/100 kg = 0.13 kg. Simple!100 dag = 1 kg so 13 dak = 13/100 kg = 0.13 kg. Simple!100 dag = 1 kg so 13 dak = 13/100 kg = 0.13 kg. Simple!100 dag = 1 kg so 13 dak = 13/100 kg = 0.13 kg. Simple!
100 ml / kg.
To convert 100 kg of 20 mm aggregate to cubic meters, you need to know the density of the aggregate. The density of aggregate can vary, but a commonly used value is around 1.5 tonnes per cubic meter. So, you would divide the weight (100 kg) by the density (1.5 tonnes/m³ = 1500 kg/m³) to get the volume in cubic meters. In this case, 100 kg / 1500 kg/m³ = 0.067 cubic meters.
Assume that you have a 25wt% solution of EG. That means you have 25 kg for every 100 kg of solution. Assuming that the EG is dissolved in water means that the solution would contain 25 kg of EG and 75 kg of water. To find the volume % you need to convert each component to a volume by using their densities. The density of water is 1000 kg/m3 and EG is 1113 kg/m3. Using this data we can figure out the volume of each component of solution. For water: 75 kg / (1000 kg/m3) = 0.075 m3 For EG: 25 kg/(1113 kg/m3) = 0.0225 m3 %Vol = 0.0225 m3 / (0.0225 + 0.075 m3) = 0.231 or 23.1% vol
No, 100 grams is not the same as 10 kg. 100 grams is equal to 0.1 kg.
Assuming average density of person @ 1 kg per litre then: volume (litres) = mass (kg)
Take the density of water as 1 gram per cubic centimeter. With 1 meter = 100 cm, then a 1 meter tall column of water with cross sectional area of 1 cm2 has a volume of (1 cm2)x(100 cm) = 100 cm3. So this column of water has a mass of 100 grams. 1 kg = 1000 grams, so 100 grams = 0.1 kg. Therefore it is 0.1 kg per cm2.