Neutronium is quite difficult to compress, but Black Holes are even more compressive.
In the laboratory, most solids fit the bill.
Hi! Maleable means it can be hammered into shape that's sort of similar to squashed
We can't say that liquids cannot be compressed we can compress them but very little . To know why we have to understand the concept of intermolecular attraction and interparticle space . ¤Intermolecular Attraction - It is attraction force between molecules of different elements that bound the molecules together . *Interparticle Space - It is the space between the atoms , molecules and particles of different elements . The lipuids cannot be compressed much because io liquid intermolecular attration is quite high due to which interparticle space is less due to which it can't be compressed much .
gas is a state of matter that can be squashed.
No you more inertia in outer space than anywhere else.
Mass is the amount of matter in an object. You cannot have mass-less matter. If you have matter, than it contains some amount of mass.
Liquids in general are incompressable. Also stone.
cause the particles have alot of space
A gas. It has no definite volume or shape.
gases because of the space between the particles
A solid grain of sand cannot be squashed because it is made up of tightly packed silica particles that have a fixed arrangement. The strong intermolecular forces between these particles prevent them from being easily compressed or deformed.
When an object pushes against an object that cannot be squashed, we get an increase in pressure. This increased pressure can lead to a reaction force that pushes back on the object, causing it to either move or stay in place, depending on the forces involved.
No. The strength of gravity on Mars is less than half of that on Earth.
She squashed the tomato.
No, but if some of the pieces go flying, it would be less.
Squash is a verb. The past tense is squashed. Squashed is also an adjective. The forms of squash are: squash squashes squashed squashing
squashed
When a balloon is squashed, the air particles inside it are compressed together within a smaller space. This compression increases the air pressure inside the balloon, causing it to resist the squashing force applied from the outside. The air particles do not get squashed individually, but rather experience increased pressure collectively.