100 grams isn't really heavy, in fact many chocolate bars weigh in at 100 grams. So anything that has a greater mass than a chocolate bar should also have a mass greater than 100 grams
So, a can of soda, a large sandwich, a book.
0.5 kg = (0.5) x 1000 = 500g which is greater than 100g
The mass is less than 1 kg.
10 kg is greater than 6 kg. kg is the unit of mass. Hence feather has more mass than lead in this case.
Many things is more than two, more than a few, and more than some. But it is less than endless or infinite things. So many things is the amount that means "many" to you.
There is no such thing as a holly mass. If you mean a mass of holly, then the word peace is used in it exactly 0 times, because a mass of holly is made of matter, not words. The Catholic Church does not have a mass specifically for masses of holly, unless Vatican II has changed things more than I thought.
gold is more very hevy for its size so silver has a larger mass to waigt ratio 100g of siver is larger than 100g of gold
no
In a 100g of dried coconut, there are 650 calories while dried potato has only 354 calories in 100g.
10 grams/ cc. That is 10 times more dense than water.
Everyday pencils are less than 100g in weight. (Some of the ridiculously large "souvenir" pencils may be over 100g.)
Yes, oats contain more calories than salmon. There are about 208 calories in 100g of salmon and 398 calories in 100g of oats.
BECAUSE OF THERE MASS/WEIGHT
Not necessarily, gravitational pull is dependant upon the mass of an object. A smaller object can have more mass than a bigger object (An extremely dense 1x1x1 cube has more gravitational pull than a less dense 3x3x3 cube that has less mass). Size has absolutely NOTHING to do with gravitational pull.
Because is mass is more accurate than weight.
Helium has more mass than hydrogen.
10kg is 100 times bigger than 100g1kg = 1,000g
0.5 kg = (0.5) x 1000 = 500g which is greater than 100g