Freezing and melting points are the same because they represent the temperature at which a substance transitions between solid and liquid states. At this temperature, the substance reaches equilibrium between the kinetic energy of its particles and the attractive forces holding them together. This balance results in the substance existing in both solid and liquid forms simultaneously.
Heating a solid at its melting point provides energy to the particles, causing them to vibrate faster and with more force. As a result, the particles move farther apart, increasing the inter-particle space and ultimately breaking the solid structure, leading to the transition from a solid to a liquid state.
First of all ask your teacher and second of all it is melting. For example an ice cube is a solid and when it melts it changes to a liquid form called "water'.
well.. a chemical weathering process is acid rain, so you could do a particle diagram for fizzing- reaction with acid rain. or. a physical weathering process is melting, so you could do a particle diagram for melting. hope this has helped :).
melting
Particle motion and thermal heat energy should both be increasing
no.the particle never disappear,the water just change its properties of particles when melting to ice
It is not possible; filtration as a separating method is based on the difference between boiling points.
Particle movement is directly related to thermal energy. As thermal energy increases, particles gain kinetic energy and begin to move faster and more erratically. This increased movement contributes to the overall temperature of a system and can lead to changes in state, such as melting or boiling.
Freezing and melting points are the same because they represent the temperature at which a substance transitions between solid and liquid states. At this temperature, the substance reaches equilibrium between the kinetic energy of its particles and the attractive forces holding them together. This balance results in the substance existing in both solid and liquid forms simultaneously.
Heating a solid at its melting point provides energy to the particles, causing them to vibrate faster and with more force. As a result, the particles move farther apart, increasing the inter-particle space and ultimately breaking the solid structure, leading to the transition from a solid to a liquid state.
Water. When water seeps into caves and then into the cracks of rocks, crystallization is formed. Particle Energy. When the particles within matter slow down, the object gets colder
They pass from particle to particle by vibrating the particle. When the particle touches another particle, it transfers the sound energy to that particle. Hence the Sound Wave.
They pass from particle to particle by vibrating the particle. When the particle touches another particle, it transfers the sound energy to that particle. Hence the Sound Wave.
First of all ask your teacher and second of all it is melting. For example an ice cube is a solid and when it melts it changes to a liquid form called "water'.
This particle is called electron.
Particle Man, Particle Man, doing the things a particle can.