Without diffraction and interference, the light would simply make two lines on the screen.Ĭonstructive and Destructive Wave InterferenceĬonstructive wave interference occurs when waves interfere with each other crest-to-crest (peak-to-peak) or trough-to-trough (valley-to-valley) and the waves are exactly in phase with each other. Young’s Double Slit Experiment: Light is sent through two vertical slits and is diffracted into a pattern of vertical lines spread out horizontally. The pattern that resulted can be seen in. In his experiment, he sent light through two closely spaced vertical slits and observed the resulting pattern on the wall behind them. People did not accept the theory that light was a wave until 1801, when English physicist Thomas Young performed his double-slit experiment. Newton felt that color, interference, and diffraction effects needed a better explanation. But some people disagreed with him, most notably Isaac Newton. As we discussed in the atom about the Huygens principle, Christiaan Huygens proved in 1628 that light was a wave. The double-slit experiment, also called Young’s experiment, shows that matter and energy can display both wave and particle characteristics. Explain why Young’s experiment more credible than Huygens’.The direction of propagation is perpendicular to the wavefront, as shown by the downward-pointing arrows. The tangent to these wavelets shows that the new wavefront has been reflected at an angle equal to the incident angle. The wavelets shown were emitted as each point on the wavefront struck the mirror. Reflection: Huygens’s principle applied to a straight wavefront striking a mirror. The ray bends toward the perpendicular, since the wavelets have a lower speed in the second medium. Huygens’s Refraction: Huygens’s principle applied to a straight wavefront traveling from one medium to another where its speed is less. shows visually how Huygens’s Principle can be used to explain reflection, and shows how it can be applied to refraction. The principle is helpful in describing reflection, refraction and interference. This principle works for all wave types, not just light waves. The new wavefront is tangent to the wavelets. The emitted waves are semicircular, and occur at t, time later. Where s is the distance, v is the propagation speed, and t is time.Įach point on the wavefront emits a wave at speed, v. But, as the angle of incidence approaches 90 o, the apparent depth approaches zero, albeit reflection increases, which limits observation at high angles of incidence.\] įor small angles of incidence (measured from the normal, when sin θ is approximately the same as tan θ), the ratio of apparent to real depth is the ratio of the refractive indexes of air to that of water. The opposite correction must be made by an archer fish. Conversely, an object above the water has a higher apparent height when viewed from below the water. This is an important consideration for spearfishing from the surface because it will make the target fish appear to be in a different place, and the fisher must aim lower to catch the fish. The depth that the water appears to be when viewed from above is known as the apparent depth. This causes the pencil to appear higher and the water to appear shallower than it really is. The lines of sight (shown as dashed lines) intersect at a higher position than where the actual rays originated. Once the rays reach the eye, the eye traces them back as straight lines (lines of sight). This is due to the bending of light rays as they move from the water to the air. Looking at a straight object, such as a pencil in the figure here, which is placed at a slant, partially in the water, the object appears to bend at the water's surface. Refraction occurs when light goes through a water surface since water has a refractive index of 1.33 and air has a refractive index of about 1. Refraction in a water surface A pencil part immersed in water looks bent due to refraction: the light waves from X change direction and so seem to originate at Y. How much a wave is refracted is determined by the change in wave speed and the initial direction of wave propagation relative to the direction of change in speed.įor light, refraction follows Snell's law, which states that, for a given pair of media, the ratio of the sines of the angle of incidence θ 1. Refraction of light is the most commonly observed phenomenon, but other waves such as sound waves and water waves also experience refraction. The redirection can be caused by the wave's change in speed or by a change in the medium. In physics, refraction is the redirection of a wave as it passes from one medium to another. Not to be confused with Diffraction, the change in direction of a wave around an obstacle.Ī ray of light being refracted in a plastic block
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