yes
An incident wave is a wave that strikes a boundary or obstacle. A reflected wave is a wave that bounces off the boundary or obstacle and travels in the opposite direction.
its called a reflected wave because just like a reflection the wave bounces back of the barrier
No, a reflected wave is a wave that bounces off a boundary or obstacle. It is not an incoming wave but rather a wave that has changed direction due to hitting a surface.
Reflected but not inverted
The bouncing back of a wave after it strikes a barrier is called reflection. Reflection occurs when a wave encounters a boundary or obstacle that does not allow it to pass, causing the wave to rebound in the opposite direction.
When an electromagnetic wave hits a transparent obstacle, such as glass or water, it can be transmitted through the material if the obstacle has a matching refractive index. However, some of the wave may also be reflected or refracted depending on the angle of incidence and the properties of the obstacle.
Usually part of the wave energy is reflected, and part of the wave energy passes through, possibly at a different angle (i.e., refraction may occur).
When a wave strikes an object and bends around it, it is called diffraction. This phenomenon occurs when waves encounter an obstacle or aperture and spread out in different directions, resulting in the bending of the wave.
When a wave is reflected, it bounces back off a surface and changes direction without changing its frequency or wavelength. This phenomenon can be seen in various types of waves, such as sound waves or light waves, when they encounter a boundary or obstacle.
When a wave strikes an object and bounces off, it experiences reflection. The angle at which the wave hits the object is equal to the angle at which it bounces off, known as the law of reflection. The wave can either be absorbed by the object or reflected back, depending on the material and surface of the object.
Yes, mechanical waves can be reflected. When a mechanical wave encounters a boundary or obstacle, it can bounce back in the opposite direction, similar to how light waves reflect off a mirror.
No, the Doppler effect refers to the change in frequency of a wave due to relative motion between the source of the wave and the observer. A reflected wave occurs when a wave encounters a boundary or obstacle and bounces back in the opposite direction.