3.96 pounds 1 litre of sand weighs 1.8kg so times that by 2.2= 3.96 and that is in pounds
If 1 litre is equal to 910 grams, than 1 kilogram will equal to how much litre?
EDTA has a molecular weigh of 292.24g/mol. So if you want to make 1 litre for example of 0.5M EDTA, you'd weigh out 292.24*0.5 or 146.12g of EDTA and dissolve and fill to 1 litre with solvent
The volume of 1 litre is 1000 cubic centimetres. For a metal it is much better to use cubic centimetres. For liquids like milk or oil you use litres. The density of gold is 19.3 grams per cubic centimetre. So, 1000 cubic centimetres of lead weigh 1000 times 19.3 = 19300 grams or 19.3 kilograms.
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1 litre of water = 1 kg
A litre is a measure of volume not mass. What substance you have a litre of would determine its mass.
A "litre" can weigh different amounts depending on what the litre is comprised of. For example, a litre of water will weigh more than a litre of chocolate mousse (more air in the mousse, but I admit the example's odd)... If you then dissolve a lot of sugar in the litre of water, it will weigh more than it did previously (the volume will also increase a little, some will have to be poured out to retain "1 litre", but it will not weigh what it did originally). So it is not possible to know how much of a litre weighs a gram without knowing what substance the litre is comprised of.
0.475 kg because 1 litre weighs 1kg
seems someone cant spell the word LITRE
I litre of water weighs one kilogram on year and would weigh 0.1 kilograms.
i think 1 litre of milk = 0.97kg of milk
1 litre of water has 1 kg of mass. So, on Earth, it weighs 9.8 newtons (2.205 pounds).
1 litre of sand weighs 1.8kg so multiply by 75 = 135 kg
3.96 pounds 1 litre of sand weighs 1.8kg so times that by 2.2= 3.96 and that is in pounds
Every metre cube of mercury would weigh 13600 kg. Each m3 would have 1000 x 1000 cm3 Each 1000 cm3 is named as 1000 cc or one litre. Hence 1 m3 will be equal to 1000 litre. Now 1000 litre weighs 13600 kg So one litre would weigh 13.6 kg.
1 litre is 1 litre anywhere.