Consider the filter shown in (Figure 1). Figure 20₁ 50 mH § 1.2 ΚΩ 1 of 1 Part A Find the cutoff frequency in hertz for
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Part C Calculate H (jw) at 0.275wc Enter your answer using polar notation. Express argument in degrees. H (j0.275we) = Submit Request Answer Part D ΕΠΙΑΣΦΗ Π H (j9w₂) = Calculate H (jw) at 9wc- Enter your answer using polar notation. Express argument in degrees. Submit ΠΙΑΣΦΩΤ Request Answer vec vec P ? ?
Part E If v₂ (t) = 19 cos(wt) V, what is the steady-state expression for when w=we? Suppose that vo(t) = V cos(wt + p), where -180° << 180°. Determine the values V. w. o. Express your answers using three significant figures separated by commas. V.w.p= Submit Part F V.w.p= [ΠΙΑΣΦΩΤ Submit Request Answer vec Request Answer P If v₂ (t) = 19 cos(wt) V, what is the steady-state expression for 1, when w=0.275we? Suppose that vo(t) = V cos(wt + o), where -180° << 180°. Determine the values V. w. p. Express your answers using three significant figures separated by commas. 1VD ΑΣΦ IT vec ? V. rad/s." ? V. rad/s.°
Part G If v, (t) = 19 cos(wt) V, what is the steady-state expression for 1, when w=9we? Suppose that vo(t) = V cos(wt+6). where -180° << 180°. Determine the values V. w. o. Express your answers using three significant figures separated by commas. V.w.p= ID ΑΣΦΠ Submit Request Answer vec ? V. rad/s,"