The definition of a mechanical wave is a wave that is able to be transmitted into solids, liquids, and gases. Transverse mechanical waves are able to be transmitted into solids and liquids. An example of transverse waves are the secondary waves of an earthquake.
yes it can if the hrts are up to 2000hrts a sec
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Pardon? What are "hrts a sec"? Yes, sound can travel though elastic ("springy") solids such as metal, crystalline rocks and ceramics, but the material will affect the bandwidth it can pass..
Transverse mechanical waves will pass through any mechanical medium. That included solids and fluids, the latter, the fluids, will included liquids and gases. A mechanical wave transfers its energy into the medium through which it is going to travel. An easy-to-see example is a classic one, so let's look at that. A stone tossed into a still pond creates transverse waves on the surface that radiate from the point where the rock hit the water. The waves moves out while the water moves up and down to carry the energy of the wave. The medium, the water, moves up and down, which is across the path of travel of the wave. The wave is moving out away from the stone's point of impact, and the water moves in a transverse way, moves up and down, or across an arrow pointing in the direction the wave's energy is moving. The secondary or S wave of an earthquake is also a transverse wave, and it causes the ground to move up and down. The gases can be made to move transversely to carry the energy of a wave, too. It's harder to see with them, but let's give it a shot. Imagine standing in a large empty room with "fog" on the floor from lots of dry ice. The "white gas" you see is still for this experiment, and you have in your hand a pillow. If you lower the pillow so it just goes into the top of the "mist" layer and then move the pillow up and down slowly, you'll get the same effect as if you were moving the pillow up and down on the surface of a calm pond. In the case of the gas, the white "mist" will behave just like a liquid, and there will be ripples moving slowly out away from the pillow across the room.
Secondary waves travel through solids, but not liquids.
Yes, in both.
No, faster through solids.
Yes
Mechanical waves involve the physical transfer of vibration from one particle to another within the medium. Denser materials (solids and liquids), have closer particles so this transfer of energy occurs more quickly. :)
Solids to Liquids (Melting) Liquids turning back into a Solid (Freezing) ((SCF))
Sound travel faster in solids than in liquids, and faster in liquids than in gases. Sound travels faster in water than in the air but in solids it travels about eight times faster. Sound travels at the fastest speed in steel. In solids it travel faster in a hot surface, the particles move faster if the solid is cold its slower the movement.
Through solids because the particles are closer than gas particles.
Both. Liquids become combined in a solution and solids form a mechanical mixture until after time breaks down everything.
Mechanical waves involve the physical transfer of vibration from one particle to another within the medium. Denser materials (solids and liquids), have closer particles so this transfer of energy occurs more quickly. :)
Yes, and faster through solids than liquids.
solids, liquids, gasses
no
sound
Mechanical waves involve the physical transfer of vibration from one particle to another within the medium. Denser materials (solids and liquids), have closer particles so this transfer of energy occurs more quickly. :)
Sound waves, being longitudinal in nature, travels faster in liquids and solids.
yes solids freeze faster than liquids
Yes, liquids heat up faster than solids.
bounces of glass
Through solids fastest, then liquids, then a gas.
Yes, sound actually travels faster through solids then liquids or gases.