Sound travels much less in a gas compared to a liquid, because liquids are more dense, giving the sound waves more to reverberate through.
Yes, sound can travel through lead, but it does so very poorly compared to other materials. Lead is a dense and heavy metal, which hinders the transmission of sound waves through it.
Sounds travel better through denser objects and since water is denser than wood, sound travels through it better.
Yes, sound can travel through oxygen. Sound waves are able to travel through any medium that has molecules, including gases like oxygen. However, sound travels faster through solids and liquids compared to gases.
Yes, sound can travel through different materials such as solids, liquids, and gases. The speed of sound varies depending on the material, with sound traveling faster through solids compared to liquids and gases due to the closer arrangement of particles in solids.
Yes, both light and sound can travel through glass. Glass is transparent to light, allowing it to pass through without significant absorption or scattering. Sound can also travel through glass, but with some attenuation due to its denser nature compared to air.
That completely depends on what "slowly" means to you.Sound propagating through iron is quite slow compared to the speed of lightin vacuum, but is substantially faster than the same sound in air.
Sound travels faster in solids compared to liquids and gases. This is because the molecules in solids are closely packed together, allowing sound waves to travel more efficiently through them. In general, the denser the substance, the faster sound will travel through it.
sound can travel through air , water and lots more
Yes, sound can travel through cotton wool, but it will be dampened or muffled due to the fibers absorbing and dispersing the sound waves. Cotton wool is not a good conductor of sound compared to air or solid materials.
An hot air balloon i think.
Sound travels slowest through gas, as molecules are farther apart compared to liquids and solids, leading to decreased speed of sound waves passing through.
Sound travels faster through solids and other materials because it has more mass to vibrate, compared to air.