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Solids typically exhibit vibrational motion, where atoms or molecules within the solid vibrate or oscillate around their equilibrium positions. This motion contributes to the rigidity and shape of solids.
S-waves (secondary waves) can only travel through solids because they move in a shearing, side-to-side motion that requires a rigid medium to propagate. P-waves (primary waves) can travel through both solids and fluids.
No, solid is not a type of friction. Friction is a force that opposes motion between two objects in contact with each other. Solids are a state of matter, characterized by having a fixed shape and volume.
When solids surfaces slide over each other, the type of friction that occurs is called kinetic friction. This type of friction opposes the motion of the objects relative to each other, causing resistance.
Friction between solids can be accurately defined as the force that opposes the sliding motion of two surfaces in contact with each other.
Solids typically exhibit vibrational motion, where atoms or molecules within the solid vibrate or oscillate around their equilibrium positions. This motion contributes to the rigidity and shape of solids.
The motion of particles in gasses, liquids, and solids are all different. Gas particles can move much more quickly than solids.
In solids, the type of energy that cannot take place is translational kinetic energy. This is because the particles in a solid are closely packed and held in fixed positions, allowing only vibrational motion around their equilibrium positions. As a result, solids do not allow for free movement of particles that would be necessary for translational motion, which is more characteristic of liquids and gases.
S-waves (secondary waves) can only travel through solids because they move in a shearing, side-to-side motion that requires a rigid medium to propagate. P-waves (primary waves) can travel through both solids and fluids.
No, solid is not a type of friction. Friction is a force that opposes motion between two objects in contact with each other. Solids are a state of matter, characterized by having a fixed shape and volume.
When solids surfaces slide over each other, the type of friction that occurs is called kinetic friction. This type of friction opposes the motion of the objects relative to each other, causing resistance.
Network solids.
Friction between solids can be accurately defined as the force that opposes the sliding motion of two surfaces in contact with each other.
When a solid undergoes motion, its volume remains constant since solids have fixed shapes and densities. However, the shape of the solid can change depending on the type of motion it undergoes. For example, bending or stretching a solid can alter its shape while maintaining its volume.
Solids and liquids both have definite volume. They are also both considered to be condensed phases of matter. Additionally, solids and liquids exhibit molecular motion, although the degree of motion is higher in liquids compared to solids.
Metallic
Solids