Electromagnetic radiation with wavelength = 21.2 μm is classified as infrared radiation. Use c = 2.998 x 108 m/s. (a) What is the frequency of the radiation? | Hz (b) If the electric field has a maximum magnitude of 39.5 kV/m, what is the maximum strength of the corresponding magnetic field? mT (c) What are the rms values of the electric and magnetic fields? Erms: kv/m Brms: L mT (d) Determine the maximum energy density stored in the: mJ/m³ Electric Field: Magnetic Field: Electromagnetic Wave: mJ/m³ Imaxi[ lavg: ]mJ/m³ (e) Determine the peak and average intensity of the electromagnetic wave. kW/m² kW/m²

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Electromagnetic radiation with wavelength λ = 21.2 μm is classified as infrared radiation. Use c = 2.998 x 108 m/s.
(a) What is the frequency of the radiation?
Hz
(b) If the electric field has a maximum magnitude of 39.5 kV/m, what
is the maximum strength of the corresponding magnetic field?
mT
(c) What are the rms values of the electric and magnetic fields?
Erms:
kV/m
Brms:
mT
(d) Determine the maximum energy density stored in the:
]mJ/m³
mJ/m³
Electric Field:
Magnetic Field:
Electromagnetic Wave:
Imax
lavg:
]mJ/m³
(e) Determine the peak and average intensity of the electromagnetic wave.
kW/m²
kW/m²
Transcribed Image Text:Electromagnetic radiation with wavelength λ = 21.2 μm is classified as infrared radiation. Use c = 2.998 x 108 m/s. (a) What is the frequency of the radiation? Hz (b) If the electric field has a maximum magnitude of 39.5 kV/m, what is the maximum strength of the corresponding magnetic field? mT (c) What are the rms values of the electric and magnetic fields? Erms: kV/m Brms: mT (d) Determine the maximum energy density stored in the: ]mJ/m³ mJ/m³ Electric Field: Magnetic Field: Electromagnetic Wave: Imax lavg: ]mJ/m³ (e) Determine the peak and average intensity of the electromagnetic wave. kW/m² kW/m²
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