Determine the following for the EM wave generated during each beat cycle of your heart. (a) Find the frequency and period of each heart beat. Hz f = T = (b) Find the wavelength of the EM wave produced by your beating heart. λ=1 S (c) What is the peak strength of the electric field between the two electrodes? Emax = | mV/m Erms (d) Determine the maximum strength of the corresponding magnetic field. Bmax T Brms PopUp: Period and Frequency m (e) Calculate the rms average values of the electric and magnetic field strengths. mV/m T = = PopUp: RMS Averages
Determine the following for the EM wave generated during each beat cycle of your heart. (a) Find the frequency and period of each heart beat. Hz f = T = (b) Find the wavelength of the EM wave produced by your beating heart. λ=1 S (c) What is the peak strength of the electric field between the two electrodes? Emax = | mV/m Erms (d) Determine the maximum strength of the corresponding magnetic field. Bmax T Brms PopUp: Period and Frequency m (e) Calculate the rms average values of the electric and magnetic field strengths. mV/m T = = PopUp: RMS Averages
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![With each beat, the human heart generates a electromagnetic field, and the potential difference (voltage) oscillates
over the course of each beat cycle. So, like an antenna, the human heart generates an electromagnetic wave.
An electrocardiogram (EKG) is a medical diagnostic tool that
measures the voltage (difference) between electrodes that are
attached to different parts of your body, producing a chart that
(hopefully) looks like the rhythmic pulses shown in figure.
An EKG reveals that your heart is beating 72 times a minute, and
that each beat generates a maximum potential difference, Vmax =
3.5-mV, across the 0.35-m width of your chest cavity.
Use &o = 8.854 x 10-12 Nm²/C², Ho = 4 x 10-7 Tm/A, and c = 2.998 x 108 m/s.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc9cc212e-530e-418e-a717-3da751b9b16b%2F77169ac7-13db-4188-a384-cf8bfb443629%2F4fun3u9_processed.png&w=3840&q=75)
Transcribed Image Text:With each beat, the human heart generates a electromagnetic field, and the potential difference (voltage) oscillates
over the course of each beat cycle. So, like an antenna, the human heart generates an electromagnetic wave.
An electrocardiogram (EKG) is a medical diagnostic tool that
measures the voltage (difference) between electrodes that are
attached to different parts of your body, producing a chart that
(hopefully) looks like the rhythmic pulses shown in figure.
An EKG reveals that your heart is beating 72 times a minute, and
that each beat generates a maximum potential difference, Vmax =
3.5-mV, across the 0.35-m width of your chest cavity.
Use &o = 8.854 x 10-12 Nm²/C², Ho = 4 x 10-7 Tm/A, and c = 2.998 x 108 m/s.
![Determine the following for the EM wave generated during each beat cycle of your heart.
(a) Find the frequency and period of each heart beat.
Hz
f =
T =
S
(b) Find the wavelength of the EM wave produced by your beating heart.
λ =
PopUp: Period and Frequency
m
(c) What is the peak strength of the electric field between the two electrodes?
Emax =
]mV/m
Erms
Brms =
(d) Determine the maximum strength of the corresponding magnetic field.
Bmax =
T
(e) Calculate the rms average values of the electric and magnetic field strengths.
mV/m
T
PopUp: RMS Averages](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc9cc212e-530e-418e-a717-3da751b9b16b%2F77169ac7-13db-4188-a384-cf8bfb443629%2F2kd8x8i_processed.png&w=3840&q=75)
Transcribed Image Text:Determine the following for the EM wave generated during each beat cycle of your heart.
(a) Find the frequency and period of each heart beat.
Hz
f =
T =
S
(b) Find the wavelength of the EM wave produced by your beating heart.
λ =
PopUp: Period and Frequency
m
(c) What is the peak strength of the electric field between the two electrodes?
Emax =
]mV/m
Erms
Brms =
(d) Determine the maximum strength of the corresponding magnetic field.
Bmax =
T
(e) Calculate the rms average values of the electric and magnetic field strengths.
mV/m
T
PopUp: RMS Averages
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