1. It has more gravitational force exerted on other objects
2. It holds more energy than smaller objects
Low density. Density = mass/volume.
it can tell you about the size, shape and color of the object.
A hot air balloon.
There's no connection. A truck can travel either faster OR slower than a turtle.
a sponge will have more matter packed in the same space
No. Mass and density are two different measures. An object can have more mass and less density. One pound of water in a gallon space has more mass than 1/2 pound of water in a quart space. The the quart space will be more dense 1/2 pound per quart however than the 1 pound per 4 quarts in the gallon.
it can tell you about the size, shape and color of the object.
A hot air balloon.
No, it's not.Gravity is the force of attraction between objects having mass, where the force on an object is given by the product of the gravitational acceleration and the object's mass. Gravitational acceleration has the units of length per time squared.The density of an object or material is the mass of the object divided by its volume, e.g., water has a density of 1 g per mL. Density has the units of mass per volume.
A black hole, a neutron star, or a white dwarf.
There's no connection. A truck can travel either faster OR slower than a turtle.
"Practically not at all" is essentially the best answer. High mass/relatively low volume objects (like, say, planets) tend to be approximately spherical.
a sponge will have more matter packed in the same space
To a certain extent, the more material you have (the greater the mass) the larger the volume will be.But there is no absolute relationship as some low density materials will have a great volume but very little mass while some high density things can have very great mass with very little volume.
Density has nothing to do with size. A given material will have the same density regardless of its size. A small object of a material with a high density can weigh as much as or more than a large object of a material with a low density.
High mass.
They are correlated by volume weight/volume = density. For example, in a metal coin, the weight might not be much, but the volume is also very low, so it turns out that the density is high. Gases have almost no weight in a lot of volume, so their density is low.
No, Density is directly proportional to mass; Density increases as the mass increases, density decreases when mass decreases. Density is inversely proportional to volume; Density decreases when volume increases, density increases when volume decreases.