the transfer of energy via the vibrating molecules of solids
k12? LOL solid & liquid particles are arranged closer together ;) ---> ur welcome! :P
yes, it is, and i am a biology/science teacher and it is true that sound energy is reflected through a solid
Sound energy that pass through a solid is said to be reflected because as sound waves pass from air to a solid, some of the energy is reflected back into the air. Some of the energy will be absorbed by the new medium.
Sound, which is mechanical energy, travels through a solid by setting up a mechanical compression wave in that solid. When the compression wave of the sound in air strikes the solid, it compresses the solid. It isn't much, but the energy delivered by the air is transferred into the solid. Waves of compression and rarefaction move through the solid as they did in air, but move much faster in a solid.
The bad thing about sound energy is that it doesn't travel as well through air as it does through a solid such as wood, or water.
yup
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k12? LOL solid & liquid particles are arranged closer together ;) ---> ur welcome! :P
This element is sulfur.
Coal is an organic, non-metallic, solid.
yes, it is, and i am a biology/science teacher and it is true that sound energy is reflected through a solid
Heat energy transferral - the heat energy of the soup is conducted through the liquid and the solid bowl to your hands, as porcelain/plastic bowls are not highly insulated.
Do you mean "sulfur?" If so, it's nonmetallic, but takes the form of a crystalline solid.
Sound energy that pass through a solid is said to be reflected because as sound waves pass from air to a solid, some of the energy is reflected back into the air. Some of the energy will be absorbed by the new medium.
Sound, which is mechanical energy, travels through a solid by setting up a mechanical compression wave in that solid. When the compression wave of the sound in air strikes the solid, it compresses the solid. It isn't much, but the energy delivered by the air is transferred into the solid. Waves of compression and rarefaction move through the solid as they did in air, but move much faster in a solid.
Sound, which is mechanical energy, travels through a solid by setting up a mechanical compression wave in that solid. When the compression wave of the sound in air strikes the solid, it compresses the solid. It isn't much, but the energy delivered by the air is transferred into the solid. Waves of compression and rarefaction move through the solid as they did in air, but move much faster in a solid.
depends on what type of solid depends on what type of solid