Calculate the diameter and height of a cylindrical PEC (a) cavity (with air as the medium like that in the Figure of P4.3 bur the dimensions of the cavity different) with its height half the diameter. The lowest resonant frequency of this cavity is 10 GHz. (b) Repeat (a) if the height is twice the diameter. 3 cm PEC walls Air 2 cm
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- (Indicates a review question, which means it requires only a basic understanding of the material to answer. Questions without this designation typically involve integrating or extending the concepts presented thus far.) Why are the Doppler effect and diffraction not as commonly experienced with light as they are with sound?acBook Pro FM radio stat1on KRTH in Urangeler pr1adiart on an assigned trequencey or I1/ MHZ a Lower Of SO,000 W. BESHImate the average Intensity ot he wave at a distance oř39.5 km) trom the radio antenna. Assume tor the Purpose or this estimate thal the antenia vadiates equally in ali directions, So that the intensity Is constant over a hemisphhere (entered on the antenna. O ESHImate the ampi1tvde of the electric Flel a at this disstance.Scientists are workingon a new technique to kill cancer cells by zapping them with ultrahighenergy(in the range of 1012 W) pulses of light that last for an extremelyshort time (a few nanoseconds). These short pulses scramble the interiorof a cell without causing it to explode, as long pulses would do. We canmodel a typical such cell as a disk 5.0 mm in diameter, with the pulselasting for 4.0 ns with an average power of 2.0 * 10^12 W. We shall assumethat the energy is spread uniformly over the faces of 100 cells foreach pulse. (a) How much energy is given to the cell during this pulse?(b) What is the intensity (in W/m2) delivered to the cell? (c) What arethe maximum values of the electric and magnetic fields in the pulse?
- 10 Im Young's double feremce pattem is obtaimed dight t waveleng Th bilt experiment, an mtere sereen by a on a comisg frem certain dark fringe tormed. Them the pa Th ditherence Sipa 6000 A° bources S1 and S,. 12 The Coherent point on The sereem third is 2 in micron is3E0, and uHo) and for two 4. For uniform plane wave propagation in (i) ice (o 106 S/m, 8 (ii) seawater (a= 4 S/m, frequencies: (a)f 1 GHz and (b) f= 100 kHz 1 80co, and uo), compute a, ß, A, 8, and pIsnt the frequency suppsed to be c/wavelength
- Question 4 te p rieipee Adleet yret haslieparatm divtance ol 0.de mm. The fint height fringe ppcas S mm aluve the middle of the central hright fimer, when the alita are ithamatef with a laner of wavelength S12 n. What in the dstance to the sTEn from the slitu? O 0,65 m O n45 m O 0.77 m O 1.12 m O 0.56 mA radio station broadcasts at a frequency of 600 kHz. Knowing thatradio waves have a speed of 3 y 10^8 m/s. what is the wavelenath ofthese waves.The Maxwellian distribution of speeds in 3d is maybe written as f„") =- exp (v, V7) 2kT n is the particle number density and m a. the average speed b. the rms speed sqrt
- A Ferrari with a mass of 1400 kg approaches a freewayunderpass that is 12 m across. At what speed must the carbe moving, in order for it to have a wavelength such thatit might somehow “diffract” after passing through this“single slit”? How do these conditions compare to normalfreeway speeds of 30 m/s?An airborn radar of an airoplane has a pulse width of 5µ sec, at a vertical height of1nautical mile,A. find the lateral ground distance on earth to land,B. find the angle to be maintained for proper landing with above values.Two slits in Young's experiment have cuidthe in the yalio 81:1. dehat iš the 'scatro oef the amplitudes of liht cilaves coming from them ?