no
Sound travels through particles by creating a series of compressions and rarefactions as the sound wave moves through the medium. In a diagram, you would see particles close together during compression, where the pressure is higher, and particles further apart during rarefaction, where the pressure is lower. This movement of particles transmitting energy from one particle to the next allows sound to propagate through a medium.
When sound particles are close together, it is called compression. This occurs during the peaks of a sound wave, where air molecules are densely packed together.
The movement of particles decreases during condensation. As a substance changes from a gas to a liquid during condensation, the particles come closer together and lose some of their kinetic energy, resulting in a slower overall movement.
Yes, during a change of state such as from a gas to a liquid or a liquid to a solid, cooling causes particles to come closer together and form more ordered structures. In a gas, the particles are more spread out and have higher kinetic energy compared to a liquid or solid where particles are closer together and have lower kinetic energy.
Particles release thermal energy during condensation as they transform from a gaseous state to a liquid state. This release of energy helps the particles to slow down and come closer together, forming a more ordered arrangement in the liquid phase.
false
Sound travels through particles by creating a series of compressions and rarefactions as the sound wave moves through the medium. In a diagram, you would see particles close together during compression, where the pressure is higher, and particles further apart during rarefaction, where the pressure is lower. This movement of particles transmitting energy from one particle to the next allows sound to propagate through a medium.
When sound particles are close together, it is called compression. This occurs during the peaks of a sound wave, where air molecules are densely packed together.
The particles in the sediments are cemented as pressure squeezes out water. The dissolved minerals in the water, usually silica or calcite, then become solid (crystallize), tying the particles together.
The movement of particles decreases during condensation. As a substance changes from a gas to a liquid during condensation, the particles come closer together and lose some of their kinetic energy, resulting in a slower overall movement.
Floc particles are formed during the process of flocculation, where suspended solids in water come together to create larger, heavier particles. These particles can then settle out of the water more easily, aiding in the clarification and purification of the water.
Yes, during a change of state such as from a gas to a liquid or a liquid to a solid, cooling causes particles to come closer together and form more ordered structures. In a gas, the particles are more spread out and have higher kinetic energy compared to a liquid or solid where particles are closer together and have lower kinetic energy.
It is the process of cementation that occurs during the lithification process.
Particles release thermal energy during condensation as they transform from a gaseous state to a liquid state. This release of energy helps the particles to slow down and come closer together, forming a more ordered arrangement in the liquid phase.
When something is heated the particles inside it begin to move faster and faster and that causes the heat, when something is frozen the opposite occurs the particles inside it move slower and slower and probably stop moving all together
As particles are heated during convection, they gain energy and their kinetic energy increases. This causes the particles to move faster and spread out, leading to decreased density and rising. As they cool down, they lose energy and their kinetic energy decreases, causing the particles to move slower, come closer together, and sink.
There are actually 4 processes in which a sedimentary rock forms. 1) Erosion. A process in which old rock wear away and become sediment. 2) Deposition. When the sediment is deposited somewhere and are loosely packed. 3) Compaction. A process in which the sediment particles are squeezed under great pressure. 4) Cementation. When the particles are "glued" together forming 1 rock.