that depends on the boundary
if it is a fixed or hard boundary, there is zero displacement and the reflected wave changes its polarity , i.e. it undergoes 180 deg phase change
if it is a flexible or soft boundary, the restoring force is zero and the reflected wave has the same polarity in other words there is no change in phase
Waves are reflected when they encounter a boundary that does not allow them to pass through easily. The incoming wave interacts with the boundary and bounces back in the opposite direction, maintaining the same characteristics as the original wave. The angle at which the wave hits the boundary is equal to the angle at which it is reflected, according to the law of reflection.
When a wave hits a barrier and bounces back off, it is known as wave reflection. This phenomenon occurs when the wave encounters a boundary that prevents it from passing through, causing it to reverse its direction.
When a wave hits a free boundary, it reflects back in the opposite direction. The wave's amplitude and phase may change depending on the nature of the boundary.
When a wave hits a fixed boundary, it reflects back in the opposite direction with the same speed and frequency. The wave may also experience a phase change, depending on the boundary conditions.
That is called reflection. When light hits a surface and bounces back, it forms an image of that object that we can see.
Waves are reflected when they encounter a boundary that does not allow them to pass through easily. The incoming wave interacts with the boundary and bounces back in the opposite direction, maintaining the same characteristics as the original wave. The angle at which the wave hits the boundary is equal to the angle at which it is reflected, according to the law of reflection.
When a wave hits a barrier and bounces back off, it is known as wave reflection. This phenomenon occurs when the wave encounters a boundary that prevents it from passing through, causing it to reverse its direction.
When a wave hits a free boundary, it reflects back in the opposite direction. The wave's amplitude and phase may change depending on the nature of the boundary.
When a wave hits a fixed boundary, it reflects back in the opposite direction with the same speed and frequency. The wave may also experience a phase change, depending on the boundary conditions.
it bounces!! like a bouncy ball!
reflection
That is called reflection. When light hits a surface and bounces back, it forms an image of that object that we can see.
When a wave hits a surface through which it cannot pass and bounces back, it undergoes reflection. The angle at which the wave hits the surface is equal to the angle at which it bounces back, following the law of reflection.
A wave that hits a surface and bounces off is known as a reflected wave. This phenomenon occurs when the wave encounters a boundary that does not allow it to pass through, causing it to bounce back or reflect off the surface. Reflection is a common behavior observed in various types of waves, such as light, sound, and water waves.
A reflection
When you shine a light into a mirror, the light reflects off the mirror's surface and bounces back in the opposite direction. This is called specular reflection. The angle at which the light hits the mirror will be equal to the angle at which it bounces off.
Reflection