Considering that grams are a unit of mass, their mass would still be 100g. If you used a unit of weight, such as pounds, the relative weight of an object would change from planet to planet. On Mercury, a person who weighed 100 lbs normally would instead weigh 38 lbs.
The mass of an object is unvarying. It's weight varies according to the gravitational force on the object. Weight = mass x gravity For a mass of 100 gms, which is 0.1 kg then its weight at the Earth's surface would be 0.1 x 9.78 Kg = 0.978 Newtons Its weight on the Moon would be a lot less and its weight in outer space would be virtually nil.
There is no standard conversion of weight units to volume units (or volume to weight, for that matter), because all ingredients have different densities. This would mean that any standard conversion would be inaccurate for many substances. For example, a cup of lead (Pb) will weigh more than a cup of chocolate mousse will. Likewise, 100g of lead will require fewer cups/tablespoons/teaspoon than 100g of feathers will require. The different densities of the ingredients mean that there is no standardised conversion for ANY weight (ounces/grams/kg/micrograms) units to ANY (cups/tbl/tsp) volume units. Please state which substance you wish to convert, in order to get an accurate conversion.
The value of a Mercury silver dime varies depending on the year and condition. At a bare minimum they start at close to $1.85 each.
No. The reason is that low molecular weight compounds tend to have high molarity. As an example NaF is 42.5 molecular weight. So 42.5g dissolved in 1 liter of water would only be 4.25% but be 1 molar. Proteins tend to have every high molecular weight. So if a protein was say 1000 molecular weight, a 10% solution would contain 100g but only be 0.1 molar.
This cannot be sensibly answered. Milliliters (mL or ml) is a measure of volume, grams is a measure of weight or mass.
A newborn Panda is the size and weight of a stick of butter.
The mass of an object is unvarying. It's weight varies according to the gravitational force on the object. Weight = mass x gravity For a mass of 100 gms, which is 0.1 kg then its weight at the Earth's surface would be 0.1 x 9.78 Kg = 0.978 Newtons Its weight on the Moon would be a lot less and its weight in outer space would be virtually nil.
100g
You would weigh an apple in grams, not kilograms.
Calibration weights are used to weigh things. They come in masses such as a 100g or 500 weight. They are used to exactly and accurately measure objects. They are placed on a scale and are then used to weigh the object.
100 grams is a 100 grams no matter what the material, they weigh the same.
100g
The element Mercury costs about $1.74 per 100g.
No, it is not anywhere near.
Iron. same weight but the iron is more dense. I think
About 100g
100g