If a possible representation of a band pass signal is obtained by expressing xl (t) as (x_l (t)=a(t)e^{j (t}) ) then what are the equations of a(t) and (t)?

Question

If a possible representation of a band pass signal is obtained by expressing xl (t) as  (x_l (t)=a(t)e^{j (t}) ) then what are the equations of a(t) and  (t)?

TuteeHUB · Accepted Answer

a(t) =   (  sqrt{u_c^2 (t)-u_s^2 (t)}  ) and  (t)=  (tan^{-1}  frac{u_s (t)}{u_c (t)}  )

TuteeHUB · Answer

a(t) =   (  sqrt{u_c^2 (t)+u_s^2 (t)}  ) and  (t)=  (tan^{-1}  frac{u_s (t)}{u_c (t)}  )

TuteeHUB · Answer

a(t) =   (  sqrt{u_c^2 (t)-u_s^2 (t)}  ) and  (t)=  (tan^{-1}  frac{u_s (t)}{u_c (t)}  )

TuteeHUB · Answer

a(t) =   (  sqrt{u_c^2 (t)+u_s^2 (t)}  ) and  (t)=  (tan^{-1}  frac{u_c (t)}{u_s (t)}  )

TuteeHUB · Answer

a(t) =   (  sqrt{u_s^2 (t)-u_c^2 (t)}  ) and  (t)=  (tan^{-1} u2061  frac{u_s (t)}{u_c (t)}  )

1.	If a possible representation of a band pass signal is obtained by expressing x_l (t) as (x_l (t)=a(t)e^{j (t}) ) then what are the equations of a(t) and (t)?
A.	a(t) = ( sqrt{u_c^2 (t)+u_s^2 (t)} ) and (t)= (tan^{-1} frac{u_s (t)}{u_c (t)} )
B.	a(t) = ( sqrt{u_c^2 (t)-u_s^2 (t)} ) and (t)= (tan^{-1} frac{u_s (t)}{u_c (t)} )
C.	a(t) = ( sqrt{u_c^2 (t)+u_s^2 (t)} ) and (t)= (tan^{-1} frac{u_c (t)}{u_s (t)} )
D.	a(t) = ( sqrt{u_s^2 (t)-u_c^2 (t)} ) and (t)= (tan^{-1} u2061 frac{u_s (t)}{u_c (t)} )
Answer» B. a(t) = ( sqrt{u_c^2 (t)-u_s^2 (t)} ) and (t)= (tan^{-1} frac{u_s (t)}{u_c (t)} )

If a possible representation of a band pass signal is obtained by expressing x_l (t) as (x_l (t)=a(t)e^{j (t}) ) then what are the equations of a(t) and (t)?

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