If you're doing it on earth, it takes 2.205 pounds. (rounded)
If you're doing it on the moon, it takes 4.32 ounces. (rounded)
But the same volume of displaced water will provide the required
buoyancy in both places.
1 kilogram = 1000000 milligrams. You now have all the information required to work out, for yourself, the answer to this and similar questions.
it is 400 grams or one fourth of a kilogram
I think substances can float in very salty water, because salty water (example the dead sea)is much more denser than other any other non-salty water, so things will float much more easier.
That depends on the substance that the kilogram is made of. A kilogram of air has a large volume. A kilogram of water has a medium volume. A kilogram of lead or stones has a small volume.
4kg x $1.70/kg = $6.80
You can determine if an object will float by comparing its weight to the weight of the fluid it will be placed in. If the object weighs less than the weight of the fluid it displaces, it will float. This can be calculated using Archimedes' principle.
The energy usage per kilogram varies depending on the specific energy source or process in question. For example, the energy required to produce a kilogram of steel is different from the energy used to produce a kilogram of rice. It is important to consider the specific context or application when calculating energy usage per kilogram.
1 kilogram = 1000 grams. You now have all the information required to work out, for yourself, the answer to this and similar questions.
question makes no sense.....
1 kilogram = 1000000 milligrams. You now have all the information required to work out, for yourself, the answer to this and similar questions.
1 kilogram = 35.3 ounces.
One kilogram of gold weighs exactly one kilogram. It is a standard unit of measure for the weight of gold.
A kilogram of anything is 1000 grams.
* 50 grams of salt
No 1 kilogram = 35.27 ounces 1 ounce = 0.02 kilogram
One kilogram equates to 35.274 ounces.
1 kilogram = 2.20462262 pounds, or 1,000 grams