they are different by the way they behave and the way it is different is one behaves like they should and the other one behaves bad.
Sound waves are longitudinal waves; they travel from side to side, not up and down like transverse waves.
No, Sound is a pressure wave not a linear wave, the waves radiate spherically from their point of origin. Also as a pressure wave, it travels in a medium and if that medium is moving the sound wave propagation can be modified by that movement (bent). They also behave like sea waves impinging on a headland and can be bent round objects in their path in complex ways.
Sound waves are longitudinal waves that travel through mediums such as air, while seismic waves are a combination of both longitudinal (P-waves) and transverse (S-waves) waves that travel through the Earth’s interior. Seismic waves are typically caused by geological events like earthquakes, while sound waves are produced by vibrating sources like speakers or instruments.
Ocean waves have a distinct sound that soothes a lot of people and can help people sleep. They make a sort of whooshing sound and almost sounds like the wind mixed with water.
No, the funnel for sound waves in the ear is actually the outer ear. The outer ear acts like a funnel, directing sound waves into the ear canal towards the eardrum, which vibrates in response to the sound waves.
Sound travels in waves, which are vibrations that propagate through a medium like air, water, or solids. These waves have properties such as frequency (pitch), amplitude (loudness), and wavelength. When sound waves propagate, they compress and rarefy the medium they are traveling through, creating areas of high and low pressure, resulting in the perception of sound.
Light waves are waves but behave like a particle. They are also mass less.
Sonar technology relies on sound waves traveling through a medium, usually water. In air, sound waves behave differently and are affected by factors like temperature, humidity, and pressure. This makes sonar ineffective in the air as the waves would not travel reliably and accurately.
No. Vibrating air IS sound waves. With no atmosphere (no air, like in space), there are no sound waves.
Electromagnetic waves can behave like particles known as photons. Photons are the quanta of light and exhibit both particle-like and wave-like properties.
Sound waves are longitudinal waves; they travel from side to side, not up and down like transverse waves.
Sound waves are longitudinal waves, which means they oscillate in the same direction as their propagation. Therefore, sound waves do not exhibit polarization like transverse waves, such as light waves.
No, Sound is a pressure wave not a linear wave, the waves radiate spherically from their point of origin. Also as a pressure wave, it travels in a medium and if that medium is moving the sound wave propagation can be modified by that movement (bent). They also behave like sea waves impinging on a headland and can be bent round objects in their path in complex ways.
No, Sound is a pressure wave not a linear wave, the waves radiate spherically from their point of origin. Also as a pressure wave, it travels in a medium and if that medium is moving the sound wave propagation can be modified by that movement (bent). They also behave like sea waves impinging on a headland and can be bent round objects in their path in complex ways.
Sound wave theory is important in understanding how sound travels through different materials because it helps explain how sound waves move and interact with the medium they are traveling through. This theory helps us understand factors like speed, frequency, and amplitude of sound waves, which are crucial in predicting how sound will behave in different environments.
Sound waves produce sound. These are longitudinal waves that travel through a medium, like air, and are produced by vibrations of a source, like a speaker or vocal cords. Sound waves have frequency and amplitude properties that determine the pitch and volume of the sound.
No, you cannot see sound waves. Sound waves move more quickly than we can process with our eyes. Technically, sound waves are invisible.