The mass of a regular size marble is 1.27 grams.
Not all marble blocks are the same size.
What do you want to measure about the marble? Its diameter, radius, circumference, volume, mass, density...?
About the size of a marble
Grams
You are supposed to divide the mass by the volume.
What size marble? And is it made of marble or glass?
1.27 grams
Because the Basketball weighs more than the marble ------------------------------------------------------------------------------------------ Most regular size, glass marbles weigh less about 0.16 ounces. A basketball weight about 22 ounces. When you throw something you have to accelerate its weight (mass) out of your hand, and a property of matter called "inertia" resists you. The size of the inertial resistance is directly dependent on the mass of the object, the bigger the inertia (mass) the bigger the resistance. Because of this it takes more effort (energy) to accelerate the heavier basketball compared to the lighter marble.
It would vary because marbles come in several different sizes. They also come in a variety of materials like glass, agate, flint, etc. The denser the material the more mass it would have. Therefor, a 3/4" marble of flint would have more mass than one the same size made of glass.
I'm pretty sure a marble has less mass
Not all marble blocks are the same size.
A marble has more mass than a piece of popcorn having a similar size, because the material in the marble is denser than popcorn.The atoms in the marble's elements are more closely structured, whereas the popcorn is an expanded carbohydrate starch with a substantial amount of liquid (water) and gas (air) inside. The marble was also already more dense than the unpopped kernel.
A white marble used as a shooter. it is more valuble than a regular marble.
What do you want to measure about the marble? Its diameter, radius, circumference, volume, mass, density...?
Depends on the marshmallow and the marble... a 2g marble will have the same mass as a 2g marshmallow........
The density of the marble is about 4.94 g/cm3
higher inertial mass