Table of Contents
- 1 Which state of matter Cannot be compressed but changes shape to that of the container?
- 2 Which materials have no shape and can be compresses in a container?
- 3 Which among the states of matter Cannot be compressed?
- 4 Which substance can be compressed?
- 5 Which of the following substances does not take the shape of the container?
- 6 Which among the matter can be compressed?
- 7 Can a fluid be both a gas and a liquid?
- 8 What is the difference between rigidity and compressibility?
Which state of matter Cannot be compressed but changes shape to that of the container?
Solids: have a fixed volume and a fixed shape. cannot be compressed , because their particles are close together and have no space to move into.
What substances Cannot be compressed?
have a fixed shape and cannot flow, because their particles cannot move from place to place. cannot be compressed (squashed), because their particles are close together and have no space to move into.
Which materials have no shape and can be compresses in a container?
Because of this, gases don’t have a definite shape or volume and fill any container. Because there is lots of free space between particles, gases can easily be compressed.
What is it called when a substance takes the shape of its container?
Key Terms. liquid: A substance that flows and keeps no definite shape because its molecules are loosely packed and constantly moving. It takes the shape of its container but maintains constant volume.
Which among the states of matter Cannot be compressed?
Solid: A solid occurs when the atoms forming an object are packed together in a stable, definite position and just vibrate in place. Solids can’t be compressed.
Why liquids can flow but are not compressible?
Explanation: Because the particles can move, liquids don’t have a definite shape, and they can flow. Because the particles are still packed close together, liquids can’t easily be compressed and keep the same volume.
Which substance can be compressed?
Gas. In gases, the atoms are much more spread out than in solids or liquids, and the atoms collide randomly with one another. Agas will fill any container, but if the container is not sealed, the gas will escape. Gas can be compressed much more easily than a liquid orsolid.
Why liquids take the shape of the container?
The particles in a liquid are close together, but they are not bound to fixed positions; they can slide past and around each other. This enables liquids to take the shape of their container and to flow when they are poured.
Which of the following substances does not take the shape of the container?
Gases have the following characteristics: no definite shape (takes the shape of its container) no definite volume.
Why liquid takes the shape of a container?
Which among the matter can be compressed?
Particles can move about within a liquid, but they are packed densely enough that volume is maintained. Gaseous matter is composed of particles packed so loosely that it has neither a defined shape nor a defined volume. A gas can be compressed.
What is a substance that cannot be compressed?
There is no substance that cannot be compressed. Period. Every substance has either an elastic modulus or a bulk modulus, which is a measure of how much a substance changes dimensions under pressure.
Can a fluid be both a gas and a liquid?
Takes the shape of the container means the substance is a fluid. So,as you know fluid may be a liquid or gas,so it can be both. But again another condition given that A can not be compressed. Gases can be compressed up to a limit. But liquids can not be compressed so easily.
What is the difference between rigidity and fluidity of a substance?
Fluidity: We have seen that rigidity is maximum in the solid state and fluidity or particle motion is negligible. In the liquid state of a substance, both these characters are different. The liquids are less rigid than the solids and the molecular motion is also comparatively more.
What is the difference between rigidity and compressibility?
Rigidity: Solids are known for their hardness and rigid nature. Compressibility: Actually, the constituent particles are so closely packed in a solid that they either do not come closer or do so only slightly when a high pressure is applied.