Find the inverse Fourier transform of u(ω).

\(\frac{1}{2} δ(t) – \frac{j}{2πt}\)

\(\frac{1}{2} δ(t) + \frac{j}{2πt}\)

\(\frac{1}{2} δ(t) – \frac{j}{2πt}\)

Explore topic-wise MCQs in Signals Systems.

This section includes 10 Mcqs, each offering curated multiple-choice questions to sharpen your Signals Systems knowledge and support exam preparation. Choose a topic below to get started.

1.	Find the inverse Fourier transform of sgn(ω).
A.	\(\frac{1}{πt}\)
B.	\(\frac{j}{πt}\)
C.	\(\frac{j}{t}\)
D.	\(\frac{1}{t}\)
Answer» C. \(\frac{j}{t}\)

Discussion

2.	Find the inverse Fourier transform of f(t)=1.
A.	u(t)
B.	δ(t)
C.	e-t
D.	\(\frac{1}{jω}\)
Answer» C. e-t

Discussion

3.	Find the convolution of the signals x1 (t) = e-2t u(t) and x2 (t) = e-3t u(t).
A.	e-2t u(t) – e-3t u(t)
B.	e-2t u(t) + e-3t u(t)
C.	e2t u(t) – e3t u(t)
D.	e2t u(t) – e-3t u(t)
Answer» B. e-2t u(t) + e-3t u(t)

Discussion

4.	Find the inverse Fourier transform of \(X(ω) = \frac{6+4(jω)}{(jω)^2 + 6(jω) + 8}\).
A.	e-2t u(t) – 5e-4t u(t)
B.	e-2t u(t) + 5e-4t u(t)
C.	-e-2t u(t) – 5e-4t u(t)
D.	-e-2t u(t) + 5e-4t u(t)
Answer» E.

Discussion

5.	Find the inverse Fourier transform of jω.
A.	δ(t)
B.	\(\frac{d}{dt}\) δ(t)
C.	\(\frac{1}{δ(t)}\)
D.	∫δ(t)
Answer» C. \(\frac{1}{δ(t)}\)

Discussion

6.	Find the inverse Fourier transform of ej2t.
A.	2πδ(ω-2)
B.	πδ(ω-2)
C.	πδ(ω+2)
D.	2πδ(ω+2)
Answer» B. πδ(ω-2)

Discussion

7.	Find the inverse Fourier transform of u(ω).
A.	\(\frac{1}{2} δ(t) + \frac{j}{2πt}\)
B.	\(\frac{1}{2} δ(t) – \frac{j}{2πt}\)
C.	δ(t) + \(\frac{j}{2πt}\)
D.	δ(t) – \(\frac{j}{2πt}\)
Answer» B. \(\frac{1}{2} δ(t) – \frac{j}{2πt}\)

Discussion

8.	Find the inverse Fourier transform of δ(ω).
A.	\(\frac{1}{2π}\)
B.	2π
C.	\(\frac{1}{π}\)
D.	π
Answer» E.

Discussion

9.	Find the inverse Fourier transform of X(ω) = \(\frac{1+3(jω)}{(3+jω)^2}\).
A.	3e-3t u(t) + 8e-3t u(t)
B.	3te-3t u(t) – 8e-8t u(t)
C.	3e-3t u(t) + 8te8t u(t)
D.	3e-3t u(t) – 8te-3t u(t)
Answer» E.

Discussion

10.	Find the inverse Fourier transform of X(ω) = e-2ω u(ω).
A.	\(\frac{1}{2π(2+jt)}\)
B.	\(\frac{1}{2π(2-jt)}\)
C.	\(\frac{1}{2(2+jt)}\)
D.	\(\frac{1}{π(2+jt)}\)
Answer» C. \(\frac{1}{2(2+jt)}\)

Discussion

Explore topic-wise MCQs in Signals Systems.

Find the inverse Fourier transform of sgn(ω).

Find the inverse Fourier transform of f(t)=1.

Find the convolution of the signals x1 (t) = e-2t u(t) and x2 (t) = e-3t u(t).

Find the inverse Fourier transform of \(X(ω) = \frac{6+4(jω)}{(jω)^2 + 6(jω) + 8}\).

Find the inverse Fourier transform of jω.

Find the inverse Fourier transform of ej2t.

Find the inverse Fourier transform of u(ω).

Find the inverse Fourier transform of δ(ω).

Find the inverse Fourier transform of X(ω) = \(\frac{1+3(jω)}{(3+jω)^2}\).

Find the inverse Fourier transform of X(ω) = e-2ω u(ω).