Earthquake waves, like other types of waves, carry energy and propagate through a medium. They can be described in terms of wavelength, frequency, and amplitude. Additionally, earthquake waves can undergo reflection, refraction, and diffraction just like other waves.
The common name for electromagnetic waves is just that: "electromagnetic waves". There is no other commonly used term. Specific parts of the spectrum have common names, for example light (or visible light), radio waves, x-rays, etc. - but none of this means exactly the same as "electromagnetic waves". Visible light, for instance, is just one type (or frequency range) of electromagnetic waves.
The common source of wave motion is energy transfer through a medium. When energy is transferred through a medium, it causes particles in the medium to oscillate and propagate energy in the form of waves. These waves can be seen in various forms like sound waves, water waves, and electromagnetic waves.
The most common types of waves found in the electromagnetic spectrum are radio waves, microwaves, infrared waves, visible light, ultraviolet waves, X-rays, and gamma rays.
Transverse waves can be polarized. This includes electromagnetic waves such as light, as well as other types of waves like water waves and seismic waves. Longitudinal waves, on the other hand, cannot be polarized.
There are basically two types of waves;mechanical and electromagnetic waves.Mechanical waves are waves that require a material medium for their peopagation e.g sound waves, water waves e.t.c.On the other hand, electromagnetic waves are waves that do not require a material medium for its propagation e.g light waves, gamma rays.As indicated from the above definitions, the main difference between mechanical waves and other waves(electromagnetic waves) is is that sound waves require a material for its propagation while the latter does not.
They have the same wavelength and harmony. Sometimes the amplitude.
Earthquake waves, like other waves, transfer energy through a medium. They travel in a wave-like pattern, with characteristics such as amplitude, frequency, and wavelength. Additionally, earthquake waves can be reflected, refracted, and diffracted similar to other types of waves.
The common name for electromagnetic waves is just that: "electromagnetic waves". There is no other commonly used term. Specific parts of the spectrum have common names, for example light (or visible light), radio waves, x-rays, etc. - but none of this means exactly the same as "electromagnetic waves". Visible light, for instance, is just one type (or frequency range) of electromagnetic waves.
They have the same wavelength and harmony. Sometimes the amplitude.
The common source of wave motion is energy transfer through a medium. When energy is transferred through a medium, it causes particles in the medium to oscillate and propagate energy in the form of waves. These waves can be seen in various forms like sound waves, water waves, and electromagnetic waves.
The most common types of waves found in the electromagnetic spectrum are radio waves, microwaves, infrared waves, visible light, ultraviolet waves, X-rays, and gamma rays.
Wavelength, Amplitude, and Frequency.
they both transfer energy
All waves have a wavelength.
Waves can interact in different ways depending on their type and properties. Some waves, like electromagnetic waves, can pass through each other without interacting. Other types of waves, like water waves, can reflect off each other when they collide.
Transverse waves can be polarized. This includes electromagnetic waves such as light, as well as other types of waves like water waves and seismic waves. Longitudinal waves, on the other hand, cannot be polarized.
The most common type of wave is the transverse wave, where the oscillations of the wave are perpendicular to the direction of energy transfer. Sound waves, electromagnetic waves, and ocean waves are examples of transverse waves.