Do they hold their shape?
Not exactly. Most if not all are free to flex, bend, vibrate as much as they please and yet would be undeniably solid. For some (metals), deformation is also possible under large stresses without fluid or gaseous properties being exhibited.
Solids DO, however, resist change to their shape, and some will return elastically to their previous shape.
A solid has a definite shape and volume. (but the volume may change with temperature)A liquid has a definite volume but not a definite shape, and a gas has no definite volume or shape.
A solid is another state of liquid. Usually, water is frozen into a solid (ice).
It has a definite volume but no definite shape it change based on the container it's in.
That is a very vague question with tons of possible answers, but here goes. 1) They are both composed of atoms. (obviously) 2) Neither has the ability to fill the container regardless of the amount placed, unlike a gas, which fills its container regardless of total mass. 3) Both usually cause sound to pass through faster than in natural air. And on and on we go... Specify a little bit and I'll be able to help further if this isn't what you're looking for.
The property of a substance that does not change regardless of its state or shape is its density, which is defined as its mass per unit volume. Density is a fundamental characteristic of a material and can be used to identify substances or determine their purity.
A solid has a definite shape and volume. (but the volume may change with temperature)A liquid has a definite volume but not a definite shape, and a gas has no definite volume or shape.
Solids have a fixed shape because the particles are packed closely together in a tightly packed, ordered arrangement. This structure prevents the particles from moving freely past each other, which helps maintain the solid's shape. Additionally, the strong intermolecular forces in solids help hold the particles in place.
A solid is another state of liquid. Usually, water is frozen into a solid (ice).
Particle arrangement of SOLID particles are tightly close to each other, while LIQUID are less closer and with GAS are very far from each other. If you try to check that out in a microscope you will identify each particle and see what I meant. Except for GAS, you may not be able to do so of course. From the word GAS itself.
Yes, particles in a solid are attracted to each other through intermolecular forces, which help to hold the particles close together in a fixed position. This is why solids have a definite shape and volume.
In a solid, the particles are closely packed together in a regular structure by means of strong forces of attraction. They can only vibrate but cannot move freely. This is why a solid has a definite shape and volume.~ It has definite shape because.. Picture a solid, like a mug, on a table. Is it constantly changing shape? This means that the solid has definite shape. Unless, of course, a steamroller goes over it, but definite shape means with no extra forces. It has definite volume because.. If you think about it, the amount of space a solid takes up will always be the same, or definite. Even if say, a sponge, was crushed, the volume will be the same. Only the air inside the solid will change.
Density is the characteristic used in the identification of solids that involves measuring mass and volume. Density is calculated by dividing an object's mass by its volume, providing a unique value that can help identify different types of solids.
Solids are important because they have a definite shape and volume, making them easier to handle and transport. They also have strong intermolecular forces that help maintain their structure and stability. Solids play a crucial role in various everyday applications, such as construction, manufacturing, and food production.
Because its particles are free to move, a liquid has no definite shape. However, it does have a definite volume.
They dont
The particles of a liquid move from one place to another although they are close together. Because of this, a liquid changes shape depending on the container they are put in. It does not have a fixed shape. The volume of a liquid is fixed; it can be measured.
The physical state of a substance in relation to its properties and behavior at room temperature and standard atmospheric pressure will simply be the lowest energy state for the substance. This is the state that the substance can't help but go back to, unless energy is put in to do otherwise.