It’s actually a pretty messy concept, so don’t feel bad at fumbling for an explanation!

“Mass” can mean a number of different things depending on the context, and it just so happens we believe that they are all the same.

**Inertial mass** is one of the two most common intuitive definitions. This is “how hard something is to move” – namely, if you push on it with a certain force, how fast does it go? As with anything else in physics your experience on Earth is somewhat complicated by other factors, but a decent proxy would be imagining putting your object on a cart on a level surface and trying to pull it. Something with more inertial mass is harder to pull.

**Gravitational mass** is the other common one. This is basically “weight”. If you need to get into *weight* versus *mass*, the only real difference is relative to your current gravitational field. An object might weigh less on the Moon, but if one ball is twice as massive as the other, it will be twice as heavy on any planet, even if the absolute weight (gravitational force) varies. In short, gravitation mass is “how hard does gravity pull on this thing”.

Wikipedia [has more to say](https://en.wikipedia.org/wiki/Mass#Definitions) here, too.

It’s actually a very interesting quirk of physics that, as far as we know, these two quantities are the same! There is no obvious reason that this should be true, but it seems to be so. Objects are yanked on by gravity *exactly* in proportion to how hard they are to move, resulting in every object moving (accelerating) equally quickly when pulled on by gravity. (This was the original breakthrough that Galileo and Newton are known for.)