in an earthquake, movement along the fault move and break, releasing energy as________
A seismograph is the graph that shows vibrations caused by an earthquake. It records the movement of the ground in a vertical direction as the seismic waves pass through the Earth's crust.
Yes, a seismic wave is a wave of energy that travels through the Earth's crust as a result of an earthquake. It is produced when the stored elastic strain in rocks is released, causing vibrations that propagate through the Earth in the form of waves.
Intense vibrations felt throughout Earth's crust during an earthquake are called seismic waves. These waves are responsible for shaking and transmitting energy through the Earth's layers, leading to the ground motion experienced during an earthquake.
Yes, a seismic wave is the energy that is released by a rock moving along a fault. This energy travels through the Earth in the form of waves, causing vibrations that we feel as an earthquake.
Yes, a seismic wave is caused by the energy released when rocks along a fault move and break. This movement generates waves that travel through the Earth, causing vibrations that we feel as an earthquake.
A specific type of mechanical wave known as a seismic wave.
Seismic waves are vibrations that travel through the Earth's layers, carrying the energy released during an earthquake. These waves can be classified into two main types: body waves that travel through the Earth's interior and surface waves that travel along the Earth's surface. Seismometers are used to detect and record these waves.
Seismic waves
These are known as seismic waves - of which there are 4 types; P-waves, S-waves and Love and Rayleigh waves.
A seismograph is the graph that shows vibrations caused by an earthquake. It records the movement of the ground in a vertical direction as the seismic waves pass through the Earth's crust.
Earthquakes can be felt in the air as well as through ground vibrations. The air can carry sound waves generated by the earthquake, which can be heard as a rumbling noise. However, the ground vibrations are typically the primary way that earthquakes are detected and felt by people.
Yes, a seismic wave is a wave of energy that travels through the Earth's crust as a result of an earthquake. It is produced when the stored elastic strain in rocks is released, causing vibrations that propagate through the Earth in the form of waves.
Earthquake waves are vibrations that travel through the Earth's crust when an earthquake occurs. There are three main types of earthquake waves: primary (P) waves, secondary (S) waves, and surface waves. These waves can cause the ground to shake and can be detected by seismographs.
Intense vibrations felt throughout Earth's crust during an earthquake are called seismic waves. These waves are responsible for shaking and transmitting energy through the Earth's layers, leading to the ground motion experienced during an earthquake.
A medium carrying sound waves experiences vibrations caused by the pressure fluctuations of the sound waves passing through it. These vibrations travel through the medium, causing the particles in the medium to oscillate back and forth in the direction of the wave propagation, which results in the transmission of sound.
Vibrations in the Earth caused by sudden movements of rock are called earthquakes. These movements typically occur along geological faults, where stress builds up until it is released, resulting in seismic waves that propagate through the Earth. The intensity and duration of these vibrations can vary, depending on the magnitude of the earthquake and the geological conditions.
the final step of an earhquake is tge energy takes the form of vibrations that move through earths crust