1. Which of the following relation is true if the signal x(n) is real?
a) X*(ω)=X(ω)
b) X*(ω)=X(-ω)
c) X*(ω)=-X(ω)
d) None of the mentioned
View Answer
Answer: b
Explanation: We know that,
X(ω)=∑∞n=−∞x(n)e−jωn
=> X*(ω)=[∑∞n=−∞x(n)e−jωn]∗
Given the signal x(n) is real. Therefore,
X*(ω)=∑∞n=−∞x(n)ejωn
=> X*(ω)=X(-ω).
2. For a signal x(n) to exhibit even symmetry, it should satisfy the condition |X(-ω)|=| X(ω)|.
a) True
b) False
View Answer
Answer: a
Explanation: We know that, if a signal x(n) is real, then
X*(ω)=X(-ω)
If the signal is even symmetric, then the magnitude on both the sides should be equal.
So, |X*(ω)|=|X(-ω)| => |X(-ω)|=|X(ω)|.
3. What is the energy density spectrum Sxx(ω) of the signal x(n)=anu(n), |a|<1?
a) 11+2acosω+a2
b) 11+2asinω+a2
c) 11−2asinω+a2
d) 11−2acosω+a2
View Answer
Answer: d
Explanation: Since |a|<1, the sequence x(n) is absolutely summable, as can be verified by applying the geometric summation formula.
∑∞n=−∞|x(n)|=∑∞n=−∞|a|n=11−|a|<∞
Hence the Fourier transform of x(n) exists and is obtained as
X(ω) = ∑∞n=−∞ane−jωn=∑∞n=−∞(ae−jω)n
Since |ae-jω|=|a|<1, use of the geometric summation formula again yields
X(ω)=11−ae−jω
The energy density spectrum is given by
Sxx(ω)=|X(ω)|2= X(ω).X*(ω)=1(1−ae−jω)(1−aejω)=11−2acosω+a2.
What is the Fourier transform of the signal x(n) which is defined as shown in the graph below?
a) Ae-j(ω/2)(L)sin(ωL2)sin(ω2)
b) Aej(ω/2)(L-1)sin(ωL2)sin(ω2)
c) Ae-j(ω/2)(L-1)sin(ωL2)sin(ω2)
d) None of the mentioned
View Answer
Answer: c
Explanation: The Fourier transform of this signal is
X(ω)=∑L−1n=0Ae−jωn
=A.1−e−jωL1−e−jω
=Ae−j(ω/2)(L−1)sin(ωL2)sin(ω2)
5. Which of the following condition is to be satisfied for the Fourier transform of a sequence to be equal as the Z-transform of the same sequence?
a) |z|=1
b) |z|<1
c) |z|>1
d) Can never be equal
View Answer
Answer: a
Explanation: Let us consider the signal to be x(n)
Z{x(n)}=∑∞n=−∞x(n)z−nandX(ω)=∑∞n=−∞x(n)e−jωn
Now, represent the ‘z’ in the polar form
=> z=r.ejω
=>Z{x(n)}=∑∞n=−∞x(n)r−ne−jωn
Now Z{x(n)}= X(ω) only when r=1=>|z|=1.