![]() ![]() Pressure moves through the air, because the process ought to be We would not be satisfied with a rule stating how the sound In the case of electricity we could acceptĪ rule, since we could say that we do not yet know the laws ofĮlectricity, but we cannot make the same remark with regard to We would like, in addition, to knowĮxactly how the air moves. It is certainly a natural question to ask what, at any given moment, It propagates through the air between the source and the hearer, and In the case of sound, however, we know that The details of propagation from the one place to the other were This procedure was acceptable because all that we knew was that aĬharge at one place exerts a force on another charge at another Motion, delayed by the travel time of the sound. Is give a rule whereby some quality of the air, say the pressure, isĭetermined at a given distance from a source in terms of the source One might expect now that what we should do In the case of light (electromagnetic waves) we gave a rule whichĭetermined the electric field at a point as a result of theĪcceleration of a charge. We see that this kind of function represents the propagation of a New position of the maximum field at time $t$ we need The maximum field occurred at $x = 3$ at time zero, then to find the Somewhat to get the same value of the electric field. If we consider a later time, we need only to increase $x$ We see that at $t = 0$, it is some function The one-dimensional example we are taking, the electric field is aįunction of $x - ct$. The electric field at a time $t$ later would have moved theĭistance $ct$, as indicated in the figure. Therefore if we were to picture the electricįield in space at some instant of time, as in Fig. Was proportional to the acceleration, not at the time $t$, but at theĮarlier time $t - x/c$. Instead, we said that ifĪ charge is moved at one place, the electric field at a distance $x$ Notice at first that we had wave propagation. Because of thisīehavior, when we began to describe the wave phenomenon we did not The speed of light is then the same for radiowaves,īlue light, green light, or for any other wavelength. In this chapter we shall consider only waves for which the velocity is Volume and reflect back and forth from walls. Wave patterns which result when the waves are confined within a given Sound that results is the phenomenon of beats or, in other Have two sources of sound which have slightly different frequenciesĪnd if we listen to both at the same time, then sometimes the wavesĬome with the crests together and sometimes with the crest and trough Interference in time rather than interference in space. There are two important wave phenomena that we have not yetĭiscussed which occur in light, i.e., electromagnetic waves, as wellĪs in any other form of waves. Several sources at different locations and all at the sameįrequency. ![]() Particular attention to the interference in space of waves from ![]() Learning about the properties of waves in that subject, we paid Mike The Feynman Lectures on Physics New Millennium Edition Your time and consideration are greatly appreciated. So, if you can, after enabling javascript, clearing the cache and disabling extensions, please open your browser's javascript console, load the page above, and if this generates any messages (particularly errors or warnings) on the console, then please make a copy (text or screenshot) of those messages and send them with the above-listed information to the email address given below.īy sending us information you will be helping not only yourself, but others who may be having similar problems accessing the online edition of The Feynman Lectures on Physics. This type of problem is rare, and there's a good chance it can be fixed if we have some clues about the cause. which operating system you are using (including version #).which browser you are using (including version #).If it does not open, or only shows you this message again, then please let us know: So, please try the following: make sure javascript is enabled, clear your browser cache (at least of files from ), turn off your browser extensions, and open this page: If you use an ad blocker it may be preventing our pages from downloading necessary resources. If you have have visited this website previously it's possible you may have a mixture of incompatible files (.js. ![]() In order to read the online edition of The Feynman Lectures on Physics, javascript must be supported by your browser and enabled. There are several reasons you might be seeing this page. ![]()
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