parellel
A wave in a rope is a transverse wave because the motion of the particles is perpendicular to the direction of energy transfer. Sound waves, on the other hand, are longitudinal waves because particles move parallel to the direction of energy transfer.
No, sound waves transfer energy by compressing and expanding the medium they are traveling through, rather than by physically moving the medium parallel to the wave's motion. This creates a series of compressions and rarefactions that propagate through the medium.
A transverse sound wave moves perpendicular to the direction of energy transfer, with particles vibrating up and down. It has properties like amplitude, frequency, wavelength, and speed, and can be represented by a sine wave.
A sound wave is not a transverse wave. Instead, it is a longitudinal wave. Longitudinal waves travel through their mediums via compressions and rarefactions. For example, sound travels in this fashion by compressing the air molecules in the surrounding area. Transverse waves, on the other hand, oscillate perpendicular to the direction of energy transfer.
Transverse waves propagate perpendicular to the direction of the wave's energy transfer, while longitudinal waves propagate parallel to the direction of energy transfer. Both types of waves transmit energy through a medium by creating oscillations or disturbances in the medium. Common examples of transverse waves include light and water ripples, while examples of longitudinal waves include sound waves.
A wave in a rope is a transverse wave because the motion of the particles is perpendicular to the direction of energy transfer. Sound waves, on the other hand, are longitudinal waves because particles move parallel to the direction of energy transfer.
No, sound waves transfer energy by compressing and expanding the medium they are traveling through, rather than by physically moving the medium parallel to the wave's motion. This creates a series of compressions and rarefactions that propagate through the medium.
Sound is a compression wave. Waves are basically movements in the medium through which energy travels. Compression waves cause the medium to move parallel to the energy movement. Electromagnetic waves, although they do not require a medium, move parallel to the transfer of energy.
no
they transfer energy through sound water and air.
A transverse sound wave moves perpendicular to the direction of energy transfer, with particles vibrating up and down. It has properties like amplitude, frequency, wavelength, and speed, and can be represented by a sine wave.
A sound wave is not a transverse wave. Instead, it is a longitudinal wave. Longitudinal waves travel through their mediums via compressions and rarefactions. For example, sound travels in this fashion by compressing the air molecules in the surrounding area. Transverse waves, on the other hand, oscillate perpendicular to the direction of energy transfer.
Yes they do
Transverse waves propagate perpendicular to the direction of the wave's energy transfer, while longitudinal waves propagate parallel to the direction of energy transfer. Both types of waves transmit energy through a medium by creating oscillations or disturbances in the medium. Common examples of transverse waves include light and water ripples, while examples of longitudinal waves include sound waves.
Sound vibrations are made of mechanical waves known as longitudinal waves. In these waves, the particles in the medium vibrate parallel to the direction of the wave propagation. This vibration causes a transfer of energy that our ears perceive as sound.
A sound wave is a longitudinal wave.thus the vibratoins and energy transfer go in the same direction
The three main things that transfer energy through sound are mechanical waves, vibrations, and particles. Sound energy is carried through a medium by creating vibrations in the particles of that medium, which in turn propagate as mechanical waves that transfer energy from one point to another.