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Shear waves, also known as S-waves, are seismic waves that cannot travel through liquids. This is because S-waves oscillate perpendicular to the direction of travel, and liquids do not have the necessary rigidity to transmit this type of wave. As a result, S-waves are stopped or absorbed when they encounter liquid layers within the Earth.
The outer core is the layer through which P waves travel slowly and S waves cannot travel at all. This is due to the outer core being composed of molten iron and nickel, which hinders the transmission of S waves.
S waves (secondary waves) cannot travel through the core of the Earth because they are stopped by the liquid outer core. This is due to the lack of rigidity in the liquid outer core, which prevents S waves from propagating through it.
S-waves, or secondary waves, cannot travel through water because they oscillate perpendicular to the direction of wave propagation. Water lacks the necessary material properties (shear strength) to transmit these waves.
No, secondary waves (S-waves) cannot travel through the Earth's surface. They are a type of seismic wave that move through the Earth's interior and cannot propagate in liquids or gases, making them unable to travel through the surface.
S waves cannot travel through liquid. The Earth's core is liquid.
S-waves cannot travel through liquids, but they can travel through solids and gases. P-waves can travel through solids, liquids and gases. Hope this helped! :D
Shear waves, also known as S-waves, are seismic waves that cannot travel through liquids. This is because S-waves oscillate perpendicular to the direction of travel, and liquids do not have the necessary rigidity to transmit this type of wave. As a result, S-waves are stopped or absorbed when they encounter liquid layers within the Earth.
The outer core is the layer through which P waves travel slowly and S waves cannot travel at all. This is due to the outer core being composed of molten iron and nickel, which hinders the transmission of S waves.
Both P-waves (primary waves) and S-waves (secondary waves) can travel through solid and liquid materials. However, S-waves cannot propagate through liquids as they require a solid medium for transmission.
S waves (secondary waves) cannot travel through the core of the Earth because they are stopped by the liquid outer core. This is due to the lack of rigidity in the liquid outer core, which prevents S waves from propagating through it.
The shadow zone is caused by S-waves as they travel through Earth. S-waves, however, cannot travel through the outer core of the Earth, which is molten. This is because S-waves lose velocity when travelling through a liquid.
S-waves, or secondary waves, cannot travel through water because they oscillate perpendicular to the direction of wave propagation. Water lacks the necessary material properties (shear strength) to transmit these waves.
S waves cannot travel through liquid. The Earth's core is liquid.
Secondary waves, or S-waves, require a medium with solid properties to propagate, as they involve shear deformation of the material. Liquids do not have shear strength, so S-waves cannot travel through them. As a result, S-waves cannot pass through liquids like water or magma.
S-waves cannot travel through liquids or gases, as they require a solid medium to propagate. This is because S-waves are shear waves, which cause particles to move perpendicular to the direction of wave propagation. In liquids and gases, the lack of shear strength prevents the transmission of S-waves.
No, secondary waves (S-waves) cannot travel through the Earth's surface. They are a type of seismic wave that move through the Earth's interior and cannot propagate in liquids or gases, making them unable to travel through the surface.