What is the effect of waves in different materials?
Answers
Explanation:
Sometimes a wave encounters the end of a medium and the presence of a different medium. For example, a wave introduced by a person into one end of a slinky will travel through the slinky and eventually reach the end of the slinky and the presence of the hand of a second person. One behavior that waves undergo at the end of a medium is reflection. The wave will reflect or bounce off the person's hand. When a wave undergoes reflection, it remains within the medium and merely reverses its direction of travel. In the case of a slinky wave, the disturbance can be seen traveling back to the original end. A slinky wave that travels to the end of a slinky and back has doubled its distance. That is, by reflecting back to the original location, the wave has traveled a distance that is equal to twice the length of the slink
The density of various materials differ. At the interface between two transparent materials, light waves can shift direction. The refraction of a wave at such a boundary is the change in direction of the wave. It's crucial to know how to make ray diagrams to explain how a wave refracts at a barrier.
Explanation:
- In solid materials, sound travels quicker, while liquids and gases travel slower. The elastic characteristics and density of the medium through which a sound wave travels are connected.
- When a force is applied to a material, its elastic qualities refer to how well it retains its shape and does not distort.
- A wave may come to a halt when one medium ends and another begins.
- A wave thrown into one end of a slinky, for example, will travel through the slinky until it reaches the other end and the presence of another person's hand.
- When a wave reflects, it stays within the medium and simply reverses its travel direction. The disturbance can be seen travelling back to the original end in the case of a slinky wave.
- A slinky wave that runs from the beginning to the end of the slinky has doubled its length.