Sure they can. It is the transverse waves (s waves) that can't travel through liquids.
Transverse waves do not pass through the liquid outer core of the Earth. These waves vibrate perpendicular to the direction of wave propagation, making it unable to pass through the liquid outer core due to its fluid nature.
solid and liquid sections
S-waves, or shear waves, do not pass through Earth's liquid outer core. Unlike P-waves (primary waves), which are compressional and can travel through both solids and liquids, S-waves can only move through solids. This inability to traverse the liquid outer core provides crucial evidence for the Earth's internal structure.
Scientists determined that the Earth's outer core is liquid through the analysis of seismic waves generated by earthquakes. When these waves travel through the Earth, they behave differently depending on the state of the material they encounter. Primary waves (P-waves) can pass through both solid and liquid, while secondary waves (S-waves) cannot pass through liquids. The absence of S-waves in specific regions indicated that the outer core is liquid, as they did not travel through that part of the Earth.
S-waves do not pass through Earth's liquid outer core because liquids cannot support the shear stress needed for these waves to propagate. This property helps scientists to understand the composition of Earth's layers by observing which seismic waves are transmitted or blocked.
s waves cant travel through it
Transverse waves do not pass through the liquid outer core of the Earth. These waves vibrate perpendicular to the direction of wave propagation, making it unable to pass through the liquid outer core due to its fluid nature.
S waves (secondary waves) cannot pass through Earth's inner core because it is liquid. S waves travel by shearing the rock, which is not possible in a liquid medium. Only P waves (primary waves) can pass through the inner core because they can travel through both solid and liquid material.
solid and liquid sections
Sound can pass through liquid by creating pressure waves that travel through the liquid molecules. These pressure waves cause the molecules to vibrate, transmitting the sound energy. The speed at which sound travels through liquid is faster than through gases but slower than through solids.
S-waves, or shear waves, do not pass through Earth's liquid outer core. Unlike P-waves (primary waves), which are compressional and can travel through both solids and liquids, S-waves can only move through solids. This inability to traverse the liquid outer core provides crucial evidence for the Earth's internal structure.
There is no seismic wave that can only pass through the Earth's mantle. However S-waves can not travel through earth's outer core because it is a liquid.
Scientists determined that the Earth's outer core is liquid through the analysis of seismic waves generated by earthquakes. When these waves travel through the Earth, they behave differently depending on the state of the material they encounter. Primary waves (P-waves) can pass through both solid and liquid, while secondary waves (S-waves) cannot pass through liquids. The absence of S-waves in specific regions indicated that the outer core is liquid, as they did not travel through that part of the Earth.
Primary (P) waves can pass through the solid inner core of the Earth. P-waves are the fastest seismic waves and can travel through solid, liquid, and gaseous materials.
Yes. Primary waves are compression or longitudinal waves can pass through solids, liquids and gasses.
S-waves can ONLY move through solid rock.
No, because to reach the center of the Earth, they need to pass through the outer core. Secondary waves, or S-waves, can't pass through liquids, such as the liquid outer core, so they can't thus even reach the center of the Earth.