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∙ 11y agoWhen a solid, liquid or gas is heated the particles in the substance speed up and gets less dense. The particles also spreads out.
Colby Leffler
The particle theory suggests that when solids are heated, the particles vibrate more vigorously but do not move around. In liquids, the particles move more freely and slide past each other when heated. In gases, the particles move rapidly and become more widely spaced apart when heated.
The particle theory suggests that when solids, liquids, and gases are heated, the particles within them gain kinetic energy and move faster. In solids, the particles vibrate more vigorously but remain in fixed positions. In liquids, the particles move more freely but are still close together. In gases, the particles move rapidly and are spaced far apart.
Yes, when heated, the particles within a solid gain energy and vibrate more, causing the spaces between them to increase. This expansion leads to the solid particle itself expanding in size.
it is not the heat particle that expand it is the intermolecular space between them increases by particles moving further apart and all particles move apart by gaining kinetic energy but not at the same time.
In the particle theory, heat conduction is explained by the transfer of kinetic energy between particles. When a material is heated, its particles gain energy and vibrate more rapidly. These particles then collide with neighboring particles, transferring some of their energy and causing them to vibrate faster. This process continues throughout the material, leading to the overall transfer of heat.
conduction. In conduction, heat is transferred from one particle to another within a material without any overall displacement of the particles. This process occurs mainly in solids.
The particle theory suggests that when solids, liquids, and gases are heated, the particles within them gain kinetic energy and move faster. In solids, the particles vibrate more vigorously but remain in fixed positions. In liquids, the particles move more freely but are still close together. In gases, the particles move rapidly and are spaced far apart.
As temperature increases, particle motion increases proportionally.
Yes, when heated, the particles within a solid gain energy and vibrate more, causing the spaces between them to increase. This expansion leads to the solid particle itself expanding in size.
When a liquid is heated, its particles gain energy and move faster, causing the inter-particle spaces to increase. This results in the liquid expanding and becoming less dense.
im not telling u
When a liquid is heated, the particles gain kinetic energy and move faster, causing the interparticle spaces to increase. This expansion leads to a decrease in the liquid's density as the particles spread out more.
The particle theory is a good theory that's sort of simple to understand. The particle theory consists of five parts. 1) All matter is made up of small particles 2) The particles are attracted to each other. 3) Particles are always moving. 4)When heated, particles move faster and move farther apart. 5) There are spaces between each particle.
it is not the heat particle that expand it is the intermolecular space between them increases by particles moving further apart and all particles move apart by gaining kinetic energy but not at the same time.
When an object is heated, the particles within the object gain energy and move faster. This increased movement leads to expansion of the object as the particles spread out.
The particles are bonded together with some force when heat is supplied the then force between particles decreases and the start to move away from each other or we can say that the particles get that energy and become energetic and movement starts in individual particle and the force between the particles decrease. This is why when water is heated the particles detach from each other become steam.
In the particle theory, heat conduction is explained by the transfer of kinetic energy between particles. When a material is heated, its particles gain energy and vibrate more rapidly. These particles then collide with neighboring particles, transferring some of their energy and causing them to vibrate faster. This process continues throughout the material, leading to the overall transfer of heat.
conduction. In conduction, heat is transferred from one particle to another within a material without any overall displacement of the particles. This process occurs mainly in solids.