It depends on what you mean by stronger. Transverse waves aren't able to go through liquids.
Both transverse and longitudinal waves are mathematically described by the wave equation. They both have periods, frequencies, wavelengths, amplitudes, phases, and velocities.
Upon close inspection and precise measurement, it will be noted that
longitudinal waves ... in at least 16 out of every 19 instances ... tend
to be longitudinal waves.
longitudinal are stronger
I'm not sure.
Longitudinal waves are the result of earthquakes, and are also known as Primary, or P-Waves. Longitudinal waves are faster than Transverse (Secondary) Waves. A diagram of a Longitudinal wave is a straight line, with a denser area where the wave itself is travelling.
Longitudinal waves are the result of earthquakes, and are also known as Primary, or P-Waves. Longitudinal waves are faster than Transverse (Secondary) Waves. A diagram of a Longitudinal wave is a straight line, with a denser area where the wave itself is travelling.
pressure waves longitudinal waves
This is a longitudinal wave or a P-wave (primary wave), called so because it travels faster than a transverse wave, which moves at right angles to the direction the wave travels.
The movement of particles in a sound vibration is only along one axis, along the line of travel. Although they are called waves, the motion is not the same as the traditional meaning of 'wave'. Subscribe to BU1BASAUR on youtube
Answer #1:Yes==========Answer #2:No
Yes sound waves are longitudinal, rather than transverse, the oscillate parallel to the direction of travel
Longitudinal waves, the result of earthquakes, also known as Primary, or P-Waves, are faster than Transverse (Secondary) Waves.
Longitudinal waves are the result of earthquakes, and are also known as Primary, or P-Waves. Longitudinal waves are faster than Transverse (Secondary) Waves. A diagram of a Longitudinal wave is a straight line, with a denser area where the wave itself is travelling.
Longitudinal waves are the result of earthquakes, and are also known as Primary, or P-Waves. Longitudinal waves are faster than Transverse (Secondary) Waves. A diagram of a Longitudinal wave is a straight line, with a denser area where the wave itself is travelling.
transverse and longitudinal Well, it depends on what your teacher explained. However earthquakes can be: 1) tectonic, 2) volcanic or can be 1) natural, 2) induced (that is induced by human activity, such as mines and reservoirs). Any scientific site like that of the USGS could be a useful source of information.
Transverse, longitudinal, love, and Rayleigh - just to name a few (there's more than three...)
pressure waves longitudinal waves
Longitudinal waves that are produced by earthquake are called primary waves because they are detected by seismometers before the other types of seismic waves due to their higher velocity which means they travel from the epicentre of an earthquake to the seismic station more quickly than the other types of seismic waves.
The Transverse waves show up second in time, they are slower than the Primary Waves.
This is a longitudinal wave or a P-wave (primary wave), called so because it travels faster than a transverse wave, which moves at right angles to the direction the wave travels.
Okay so you have a transverse wave, which is a wave (a transfer of energy) that transfers energy perpendicular to the direction that the energy is being transferred. For example: if you are playing with a slinky, and your friend is holding the other end of the slinky, and you shake the slinky, you are creating a transverse wave. Now you have a longitudinal wave, which transfers energy parallel to the direction that the energy is being transferred. The best example I can give to you is a sound wave, that is transferring kinetic energy in the same direction that the energy is headed, and that is why there is a "speed of sound" because sound travels in the same direction that the energy is headed, or parallel to it. And a surface wave is a mechanical wave (a wave that travels across a medium, a medium being, well, anything that is not a vacuum) that changes medium while traveling. The best example I can give you is ocean waves. When you see a typical wave in the sea, that is a surface wave.