Measurements on a plane wave of frequency 3.0GHz travelling through a non- magnetic material yield a wavelength of λ = 5.00 cm and an attenuation of 0.4 dB/cm. a. Find ß and a. b. Is this medium a low-loss dielectric or a good conductor? c. Find the dielectric constant, £,. d. e. Find the conductivity, o, in Siemens/meter. Suppose the frequency were changed to 10MHz. In what distance would the wave's field strength attenuate by 10 dB

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## Electromagnetic Wave Study in Non-Magnetic Materials

### Problem Statement:
Measurements on a plane wave of frequency 3.0 GHz traveling through a non-magnetic material yield a wavelength of \( \lambda = 5.00 \, \text{cm} \) and an attenuation of 0.4 dB/cm. 

### Tasks:
a. **Find \( \beta \) and \( \alpha \).**

b. **Is this medium a low-loss dielectric or a good conductor?**

c. **Find the dielectric constant, \( \varepsilon_r \).**

d. **Find the conductivity, \( \sigma \), in Siemens/meter.**

e. **Suppose the frequency were changed to 10 MHz. In what distance would the wave’s field strength attenuate by 10 dB?**
Transcribed Image Text:## Electromagnetic Wave Study in Non-Magnetic Materials ### Problem Statement: Measurements on a plane wave of frequency 3.0 GHz traveling through a non-magnetic material yield a wavelength of \( \lambda = 5.00 \, \text{cm} \) and an attenuation of 0.4 dB/cm. ### Tasks: a. **Find \( \beta \) and \( \alpha \).** b. **Is this medium a low-loss dielectric or a good conductor?** c. **Find the dielectric constant, \( \varepsilon_r \).** d. **Find the conductivity, \( \sigma \), in Siemens/meter.** e. **Suppose the frequency were changed to 10 MHz. In what distance would the wave’s field strength attenuate by 10 dB?**
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