if tention icrease trasverse will increase
Examples of longitudinal waves include sound waves, seismic waves, and sound waves in solids (such as ultrasound waves). These waves propagate by compressing and rarefying the medium in the direction of wave motion.
Answer #1:Sound waves=====================Answer #2:Angular motion, sound waves, and rotation all refer to something that's moving.Gravity is the only one on that list that produces force.
An ultrasonic motion sensor is a device that uses high-frequency sound waves to detect movement within its range. When an object moves in the vicinity of the sensor, it reflects the sound waves back to the sensor, which triggers a response or alerts the system to the motion. Ultrasonic motion sensors are commonly used in security systems, automatic doors, and occupancy detection systems.
Vibrational motion causes sound. When an object vibrates, it creates pressure waves in the air that our ears perceive as sound.
Longitudinal waves have a particle motion that is parallel to the wave motion. In these waves, particles oscillate back and forth in the same direction that the wave is traveling. Sound waves are a common example of longitudinal waves.
Examples of longitudinal waves include sound waves, seismic waves, and sound waves in solids (such as ultrasound waves). These waves propagate by compressing and rarefying the medium in the direction of wave motion.
Answer #1:Sound waves=====================Answer #2:Angular motion, sound waves, and rotation all refer to something that's moving.Gravity is the only one on that list that produces force.
Two main ways. First water waves are essentially two dimensional, i.e. on the surface of water, and sound waves are three dimensional - they (generally) spread out in all directions from the source of the sound. Second water waves are up and down undulations in the water, and are therefore at right angles to the direction of motion (transverse waves). Sound waves are compressions and rarefactions in the same direction as the direction of motion (longitudinal waves).
An ultrasonic motion sensor is a device that uses high-frequency sound waves to detect movement within its range. When an object moves in the vicinity of the sensor, it reflects the sound waves back to the sensor, which triggers a response or alerts the system to the motion. Ultrasonic motion sensors are commonly used in security systems, automatic doors, and occupancy detection systems.
Vibrational motion causes sound. When an object vibrates, it creates pressure waves in the air that our ears perceive as sound.
Longitudinal waves have a particle motion that is parallel to the wave motion. In these waves, particles oscillate back and forth in the same direction that the wave is traveling. Sound waves are a common example of longitudinal waves.
Sound is set in motion by vibrations in a medium, such as air, water, or solids. When an object vibrates, it causes the surrounding particles in the medium to also vibrate, transmitting energy in the form of sound waves. These sound waves then travel through the medium until they reach our ears and are interpreted as sound.
Both. The Doppler effect occurs when there is relative motion between the sound source and the listener. If either the source or the listener is in motion, it will cause a shift in the frequency of the sound waves that are perceived.
The term for the recurrence of motion or sound is "vibration." It refers to the back and forth movement of an object or medium, producing sound waves that repeat in a regular pattern.
Vibrations are the back-and-forth motion of particles, which create sound waves when traveling through a medium like air. These sound waves carry energy that our ears perceive as sound. The pitch and volume of a sound are determined by the frequency and amplitude of the vibrations.
Sound waves are the result of vibrations traveling through a medium, like air or water. Vibrations refer to the rapid back-and-forth motion of particles or objects producing the sound. In summary, vibrations are the cause, while sound waves are the effect.
Sound waves propagate through a medium by causing particles in the medium to vibrate back and forth in the direction of the wave. Sound waves are classified as longitudinal waves, meaning the particles move parallel to the direction of the wave. Unlike transverse waves, where particles move perpendicular to the wave direction, sound waves exhibit a compressional and rarefactional motion as they travel through a medium.