Yes, because sound is the result of the vibration of molecules. Liquids have molecules so the sound can travel through it. Next time you're in a pool, scream as loud as you can under water while somebody else is in the water at the other end.
Sound waves can pass through solids, liquids, and gases. The speed and efficiency of sound transmission can vary between different substances, with solids generally transmitting sound waves more effectively than liquids or gases.
Different liquids can affect sound in various ways depending on their density and properties. Liquids like water and oil can absorb sound waves and dampen vibrations, resulting in a muffled or distorted sound. Thicker liquids with higher viscosity can slow down sound waves as they pass through, changing the pitch or frequency of the sound. Additionally, some liquids may resonate at specific frequencies, amplifying certain tones or frequencies.
Never. Sound propagates as longitudinal waves which are a kind of mechanical waves. These waves require a medium for them to pass. The medium can be either solid, liquid or gaseous. Thus, in empty space i.e. vacuum, sound can never pass.
S waves, also known as secondary waves, can only pass through solid materials such as rocks and metals. They cannot travel through liquids or gases.
Transparent materials like glass and water allow light waves to pass through, while air and other gases let sound waves pass through. Materials that are opaque, like wood and metal, block both light and sound waves.
Sound waves can pass through solids, liquids, and gases. The speed and efficiency of sound transmission can vary between different substances, with solids generally transmitting sound waves more effectively than liquids or gases.
Sound waves will travel through gases, liquids, and solids. Sound waves cannot pass through a vacuum.
Secondary waves are transverse or shear waves which are able to pass through solids, but are not able to pass through liquids.
Different liquids can affect sound in various ways depending on their density and properties. Liquids like water and oil can absorb sound waves and dampen vibrations, resulting in a muffled or distorted sound. Thicker liquids with higher viscosity can slow down sound waves as they pass through, changing the pitch or frequency of the sound. Additionally, some liquids may resonate at specific frequencies, amplifying certain tones or frequencies.
P-waves are faster than s-waves. Both can pass through solid rock, but only p-waves can pass through gases and liquids === ===
P-waves cannot pass through liquid because liquids are not able to support the shear stress that P-waves generate. P-waves travel by compressing and expanding the material they pass through, and liquids do not have the ability to transmit these compressional forces. This causes the P-waves to be absorbed or converted into S-waves upon encountering a liquid medium.
Sound can pass through any state of matter.
no, it's a mechanism for transmitting sound. and sound isn't limited to gas either. It can pass through solids (you can listen through a wall or a door) and through liquids (you can still hear when your ears are submerged in a bath or a pool)
P-waves can pass through liquids,solids,and gases. A P-wave is a type of body wave that has an up and down motion. Another type of body wave is the S-wave. S-waves CAN'T pass through liquids but they can pass through solids and gases. I hope that answered your question. =)
P-waves are faster than s-waves. Both can pass through solid rock, but only p-waves can pass through gases and liquids === ===
Secondary waves, or S-waves, are transverse waves that require a solid medium to propagate because they rely on shear stress to move. Liquids and gases do not support shear stress, so S-waves cannot travel through them. Instead, only P-waves, or primary waves, can pass through fluids and gases because they are compressional waves.
Never. Sound propagates as longitudinal waves which are a kind of mechanical waves. These waves require a medium for them to pass. The medium can be either solid, liquid or gaseous. Thus, in empty space i.e. vacuum, sound can never pass.