![\"reflexhard\"](\"http:\/\/blog.soton.ac.uk\/soundwaves\/files\/2013\/12\/reflexhard.gif\")
<\/a><\/h4>\nReflection of a sound wave at a hard wall<\/h4>\n
At the wall there can be no particle motion, but the pressure can, and will, vary. In order for the particle velocity to be zero at the wall the pressure gradient<\/em> must be zero. The reflected wave pulse then travels from right to left, with the same speed and amplitude as the incident wave, but this time with the same polarity (the positive pressure pulse is reflected as a postive pulse).<\/p>\n We now consider a three dimensional acoustic source located next to a rigid wall. Without the wall, the sound waves would travel outwards away from the source indefinitely. Because of the wall, a reflected wave appears and interferes with the incident wave.<\/p>\n If the distance between the source and the wall is equal to a whole number of half wavelengths, then on the left side of the source the circular wave will interfere in phase with the reflection from the wall increasing the wave crest. This animation shows the corresponding pattern:<\/p>\n<\/a><\/p>\nThree dimensional case<\/h3>\n