![]() ![]() ![]() ![]() The unrefracted component of the wave is reflected, and vice versa. Constant: wavelength, frequency/period, speed.Changes: direction, phase, amplitude (unless total reflection, in which case not) The object looks distorted because of the various angles of the light waves.Finally, students will learn about diffraction.Changes: direction, wavelength, speed, amplitude (unless total refraction, in which case not).Using the equations for calculating reflection and refraction, you can predict where rays encountering a surface will go whether they reflect or refract (bounce off the surface or bend through it) which is an important concept in the. Constructive interference occurs when the wave crests and troughs meet, increasing the amplitude of the combined wave. Reflection and refraction are two processes that change the direction light travels. Recall from the topic Sea States in the unit Waves that interference occurs when two or more wave sets meet. Can anyone tell me the behaviour of radio waves in each case, or alternatively just confirm (a) whether the behaviour of radio waves is the same as light in each case, and (b) whether the list below is correct? (I did it this way to try to save people some work, rather than because I know the answer) Reflection and refraction equations for predicting light's direction. The angle measured between the surface and the ray is the same magnitude as the angle of reflection. The angle of incidence is equal to the angle of reflection for diffuse reflections. I have put together a list based on light which I think will be the same. Which of the following is true of reflected light rays from a surface I. I am trying to understand how radio waves behave when reflected, refracted and diffracted. ![]()
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