The unit of measure here would probably be l, for liters.
kg. is a unit of mass, cubic cm. is a unit of volume. You can convert in the case of specific substances, if you know the density. For example, water has a density of 1000 kg. per cubic meter, or 1 gram per cubic centimeter; that is equivalent to 0.001 kg. for every cubic cm. For other substances, multiply this value with the density (in gram / cubic centimeter); for example, since the density of gold is about 19, each cubic cm. will have a mass of about 0.019 kg.kg. is a unit of mass, cubic cm. is a unit of volume. You can convert in the case of specific substances, if you know the density. For example, water has a density of 1000 kg. per cubic meter, or 1 gram per cubic centimeter; that is equivalent to 0.001 kg. for every cubic cm. For other substances, multiply this value with the density (in gram / cubic centimeter); for example, since the density of gold is about 19, each cubic cm. will have a mass of about 0.019 kg.kg. is a unit of mass, cubic cm. is a unit of volume. You can convert in the case of specific substances, if you know the density. For example, water has a density of 1000 kg. per cubic meter, or 1 gram per cubic centimeter; that is equivalent to 0.001 kg. for every cubic cm. For other substances, multiply this value with the density (in gram / cubic centimeter); for example, since the density of gold is about 19, each cubic cm. will have a mass of about 0.019 kg.kg. is a unit of mass, cubic cm. is a unit of volume. You can convert in the case of specific substances, if you know the density. For example, water has a density of 1000 kg. per cubic meter, or 1 gram per cubic centimeter; that is equivalent to 0.001 kg. for every cubic cm. For other substances, multiply this value with the density (in gram / cubic centimeter); for example, since the density of gold is about 19, each cubic cm. will have a mass of about 0.019 kg.
Units are so important in working word problems because they matter the most. Units matter more than the numbers of the answers itself. For an example: 11 Kg + 13 kg = 24 Kg. Notice the unit is Kg. According to human error, the answer could be 24 dm or 24 cm. It's wrong because the unit is wrong. Therefore, units matter the most.
The object's density is about 2.3 kg/cm3
A kilogram cannot be converted into psi since they are units of different natures. Psi is a unit of pressure and can be expressed as kg/cm^2 in metric. One kg/cm^2 is equal to 14.223 psi.
This makes no sense, they are not the same type of units.
24.0 kg of water
No.
On average a cow will consume 2% of her body weight in dry matter per day. Grass is usually 85% water (hence 15% dry matter). Thus, the calculations are as follows: 400 kg x 0.02 = 8 kg DM 8 kg DM / 0.15 DM in grass = 53.33 kg of grass as-fed per day. Thus you can estimate a 400 kg cow may eat around 53 kg of grass per day.
it depends on the size
Park Bom=166 cm 47 kg Minji=164 cm 44 kg Dara=162 cm 40 kg CL=163 cm 45 kg
A cubic metre of pure water at 3.98 °C and at standard atmospheric pressure weighs 1000 kg. However, at 0 °C, it weighs only 999.972 kilograms. So this must mean Kg weight is based on water right?
that is not a mathematical question, you have to know what its made of.
7.85 kg/dm^3
I don't think any metal will float on water, so some lateral thinking is required here. Mercury is a metal, but it is a liquid at room temperature, and its density is 13.5 kilograms per cubic decimetre (kg dm-3). Compare that with 1.0 kg dm-3 for water, or 7.9 kg dm-3 for iron. Since the solid iron is less dense than the liquid mercury, this means that iron cannonballs will float in mercury, and this is an example of metal floating in a liquid. See the YouTube video for a demonstration.
Saturn, with a density of 0.7 kg cm-3
Ten meter water column is expressed as a column of water of 1,000 cm high with a section of 1 x 1 cm. This equals 1 dm3 of water which has a mass of 1 kg. As such 10 meter water column exerts a pressure of 1 kg/cm2. 1 kg/cm2 = 0.980665 bar Therefore: 1 m WC = 0.1 kg/cm2 = 0.0980665 bar 0.980665 bar = 1 kg/cm2 = 10 m WC 1 bar = 1.0197162 kg/cm2 = 10.197162 m WC
If the water is pure and the atmospheric conditions are standard,then 120 cm of water has a mass of 120 grams.120 grams = 0.12 kg.