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No, the vibrations depend on how much energy the particles have. If a solid is heated from the left side, the particles on the left will vibrate more than the particles on the right. Solid particles vibrate as each individual particle, not as a group or around a fixed point.
No, they can move in any direction.
Conduction refers to heat transfer through solids. It is due to conduction that if we heat one side of a rod and place our hand on the other side, we feel the heat.What, basically, happens is that at the point that you have heated the rod, the particles gain more energy. As the particles in a solid are fixed in their position - and can only vibrate - due to the increase in eneery, the particles vibrate faster about their equilibrium positions. When they vibrate faster, they cause the particles around them to also vibrate faster, increasing their temperature. When these particles also start vibrating faster, the cycle is repeated and they cause the particles around them to also vibrate faster, increasing their temperature as well. In this way, the disturbance is spread all over the rod, which is why you feel the heat on the other side of the rod, even though that side is not in direct contact with the heat.
there is this process called conduction: if you get a metal stick, and heat one end of the stick, you will soon notice that the other side of the stick gets warm, and then hot. This is because the particles start vibrating because there is so much heat, and start pushing around each other, making the vibrations pass on to other particles, finally getting to your hand and warming it (your particles in the hand vibrate to!).This process only happens in solid things, but there is also convection, a similar process that happens in liquids and gases which also transfers heat around.
The eardrums are like an omnidirectional microphone. The sound pressure vibrates the membrane (diaphragm) of the eardrum and the microphone only from one side.
No, the vibrations depend on how much energy the particles have. If a solid is heated from the left side, the particles on the left will vibrate more than the particles on the right. Solid particles vibrate as each individual particle, not as a group or around a fixed point.
No, they can move in any direction.
In a solid, the atoms or molecules are packed closely together in a regular pattern. They are held in their fixed position by strong attractive forces. The particles only vibrate from side to side and spin around in their fixed positions, but cannot move past one another. This is why a solid has adefinite shape and volume. If a solid is heated, the particles gain energy.
In a solid, the atoms or molecules are packed closely together in a regular pattern. They are held in their fixed position by strong attractive forces. The particles only vibrate from side to side and spin around in their fixed positions, but cannot move past one another. This is why a solid has adefinite shape and volume. If a solid is heated, the particles gain energy.
Conduction refers to heat transfer through solids. It is due to conduction that if we heat one side of a rod and place our hand on the other side, we feel the heat.What, basically, happens is that at the point that you have heated the rod, the particles gain more energy. As the particles in a solid are fixed in their position - and can only vibrate - due to the increase in eneery, the particles vibrate faster about their equilibrium positions. When they vibrate faster, they cause the particles around them to also vibrate faster, increasing their temperature. When these particles also start vibrating faster, the cycle is repeated and they cause the particles around them to also vibrate faster, increasing their temperature as well. In this way, the disturbance is spread all over the rod, which is why you feel the heat on the other side of the rod, even though that side is not in direct contact with the heat.
The particles in copper are close together because it is a type of solid. Solids have a definite shape and mass. Copper is a type of metal, which is a great conductor. Any item with hardness is a solid, for copper is a solid
Go onto the app store and install vibrate massage.
there is this process called conduction: if you get a metal stick, and heat one end of the stick, you will soon notice that the other side of the stick gets warm, and then hot. This is because the particles start vibrating because there is so much heat, and start pushing around each other, making the vibrations pass on to other particles, finally getting to your hand and warming it (your particles in the hand vibrate to!).This process only happens in solid things, but there is also convection, a similar process that happens in liquids and gases which also transfers heat around.
you go to the left side of the phone and push the arrows on the side to make the sound louder or on vibrate or silent.(:
The heat the side walk absorbs is energy. It makes the atoms in the side walk vibrate as they vibrate more they push away from each other . The more heat(energy). The more they vibrate. the more the side walk expands.
Longitudinal waves consist particles in a medium (ex of a medium= air) vibrate back and forth in a parallel direction to the direction of the wave is traveling. Example of a longitudinal wave are sound waves. Boom! Opposite of longitudinal waves would be a transverse wave where instead of particles moving in a parallel direction, transverse waves vibrate in a medium, side by side perpendicular to the direction the wave travels to. Example of a transverse wave is a light wave. Hope this helped =]
Modelling clay is solid is because it's particles are packed together