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The state of matter that is held tightly in place is in the form of a solid. Gas particles are not tightly packed, unless they are being pressurized, same with water.
Yes, the particles are held compactly and tightly in place.
the particle model of matter states: 1. All matter is made up of very small particles. The particles are much too small to observe with the naked eye or with a light microscope. 2. There are spaces between the particles. The amount of space between the particles is different for different states of matter. For example, gases have much more space between particles than solids do. 3. The particles are attracted to each other. The strength of the attraction depends on the type of material. Extra Information: Solid: Particles are packed together tightly. This means that a solid will hold a definite shape. They particles are constantly vibrating in place. Liquid: Particles are in contract with each other, but can slip and slide past one anther. This means that a liquid takes shape of the container. Gas:Particles have large spacing. Can move freely in all directions. Takes the shape of the container.
The particle model of matter states: 1. All matter is made up of very small particles. The particles are much too small to observe with the naked eye or with a light microscope. 2. There are spaces between the particles. The amount of space between the particles is different for different states of matter. For example, gases have much more space between particles than solids do. 3. The particles are attracted to each other. The strength of the attraction depends on the type of material. Extra Information:- Solid: Particles are packed together tightly. This means that a solid will hold a definite shape. They particles are constantly vibrating in place. Liquid:Particles are in contract with each other, but can slip and slide past one anther. This means that a liquid takes shape of the container. Gas: Particles have large spacing. Can move freely in all directions. Takes the shape of the container.
The particles slip and slide past one another and lock in place tightly so that they are only able to vibrate, in other words they freeze and become solids.
The state of matter that is held tightly in place is in the form of a solid. Gas particles are not tightly packed, unless they are being pressurized, same with water.
Yes, the particles are held compactly and tightly in place.
The solid state of matter is the phase in which particles vibrate in space. Because particles in a solid are so tightly packed together, they can vibrate but not move to any significant extent. However, in liquids and gases, the molecules are free to vibrate was well as move around.
a solid
Solid
Moving particles dancing in space, Atomic structures forming in place, Tiny components of all things matter, Tightly bound by forces we can't shatter, Energies and forces, swirling matter.
the particle model of matter states: 1. All matter is made up of very small particles. The particles are much too small to observe with the naked eye or with a light microscope. 2. There are spaces between the particles. The amount of space between the particles is different for different states of matter. For example, gases have much more space between particles than solids do. 3. The particles are attracted to each other. The strength of the attraction depends on the type of material. Extra Information: Solid: Particles are packed together tightly. This means that a solid will hold a definite shape. They particles are constantly vibrating in place. Liquid: Particles are in contract with each other, but can slip and slide past one anther. This means that a liquid takes shape of the container. Gas:Particles have large spacing. Can move freely in all directions. Takes the shape of the container.
the particle model of matter states: 1. All matter is made up of very small particles. The particles are much too small to observe with the naked eye or with a light microscope. 2. There are spaces between the particles. The amount of space between the particles is different for different states of matter. For example, gases have much more space between particles than solids do. 3. The particles are attracted to each other. The strength of the attraction depends on the type of material. Extra Information: Solid: Particles are packed together tightly. This means that a solid will hold a definite shape. They particles are constantly vibrating in place. Liquid: Particles are in contract with each other, but can slip and slide past one anther. This means that a liquid takes shape of the container. Gas:Particles have large spacing. Can move freely in all directions. Takes the shape of the container.
The particle model of matter states: 1. All matter is made up of very small particles. The particles are much too small to observe with the naked eye or with a light microscope. 2. There are spaces between the particles. The amount of space between the particles is different for different states of matter. For example, gases have much more space between particles than solids do. 3. The particles are attracted to each other. The strength of the attraction depends on the type of material. Extra Information:- Solid: Particles are packed together tightly. This means that a solid will hold a definite shape. They particles are constantly vibrating in place. Liquid:Particles are in contract with each other, but can slip and slide past one anther. This means that a liquid takes shape of the container. Gas: Particles have large spacing. Can move freely in all directions. Takes the shape of the container.
The particles slip and slide past one another and lock in place tightly so that they are only able to vibrate, in other words they freeze and become solids.
Particles and solid matter are locked into place and have very little free room between them. Particles in a liquid do not have much free space between them, but can easily move around each other. As for particles in gases, they can move freely amongst each other, and also have a lot of free space between them.
All states of matter have vibrating particles, but solids' particles vibrate only.