Ex. 946. Given x(t)=220.0 on the interval t=[-2.80,0] milliseconds and x(t) =0 elsewhere. Determine the Fourier transform of x(t), which is X (f) where f Determine X(f) real, X(f) imaginary, is frequency in Hertz. X(f)_amplitude, and X(f) radians, all evaluated at f=80.0 Hertz. ans:4
Ex. 946. Given x(t)=220.0 on the interval t=[-2.80,0] milliseconds and x(t) =0 elsewhere. Determine the Fourier transform of x(t), which is X (f) where f Determine X(f) real, X(f) imaginary, is frequency in Hertz. X(f)_amplitude, and X(f) radians, all evaluated at f=80.0 Hertz. ans:4
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![Ex. 946. Given x(t)=220.0 on the interval t=[-2.80,0] milliseconds and x(t)=0
elsewhere.
Determine the Fourier transform of x(t), which is X(f) where f
Determine X (f)_real, X(f)_imaginary,
is frequency in Hertz.
X(f)_amplitude,
and X(f) radians, all evaluated at f=80.0 Hertz. ans:4](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F26c4872c-cdeb-4644-8cd2-afee7dde57e1%2Ff987f4f3-78be-458a-bdbf-5c839bb420ec%2Fj5w17i_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Ex. 946. Given x(t)=220.0 on the interval t=[-2.80,0] milliseconds and x(t)=0
elsewhere.
Determine the Fourier transform of x(t), which is X(f) where f
Determine X (f)_real, X(f)_imaginary,
is frequency in Hertz.
X(f)_amplitude,
and X(f) radians, all evaluated at f=80.0 Hertz. ans:4
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