Objective Questions
Short notes
Objective questions (Answers are given below)
- A given function f (t) can be represented by
a Fourier series if it
(a) is periodic
(b) is single valued
(c) has a finite number of maxima and
minima in any one period
(d) all of the above. - In a Fourier series expansion of a periodic
function, the coefficient a0 represents its
(a) net area per cycle
(b) d.c value (c) average value over half cycle (d) average a.c value per cycle
- If in the Fourier series of a periodic function,
the coefficient a0 is zero, it means that the
function has
(a) odd symmetry
(b) even quarter-wave symmetry
(c) odd quarter-wave symmetry
(d) any of the above. - A periodic function f (t) is said to possess
odd quarter-wave symmetry if
(a) f (t) = f (–t)
(b) f (–t) = –f (t)
(c) f (t) = –f (t + T/2)
(a) both (b) and (c). - If the average value of a periodic function
over one period is zero and it consists of
only odd harmonics then it must be
possessing _ symmetry.
(a) half-wave
(b) even quarter-wave
(c) odd quarter-wave
(d) odd. - If in the Fourier series of a periodic function,
the coefficient a0 = 0 and an = 0, then it must
be having _ symmetry.
(a) odd
(b) odd quarter-wave
(c) even
(d) either (a) or (b). - In the case of a periodic function possessing
half-wave symmetry, which Fourier
coefficient is zero ?
(a) an (b) bn
(c) a0 (d) none of above. - A periodic function has zero average value
over a cycle and its Fourier series consists of
only odd cosine terms. What is the symmetry
possessed by this function.
(a) even
(b) odd
(c) even quarter-wave
(d) odd quarter-wave - Which of the following periodic function
possesses even symmetry ?
(a) cos 3t (b) sin t
(c) t . cos 50 t (d) (t + t2 + t5).
- If the Fourier coefficient bn of a periodic
function is zero, then it must possess __
symmetry.
(a) even
(b) even quarter-wave
(c) odd
(d) either (a) and (b). - A complex voltage waveform is given by
V = 120 sin ωt + 36(3ωt + π / 2) + 12 sin
(5ωt + π). It has a time period of T seconds.
The percentage fifth harmonic contents in the
waveform is
(a) 12 (b) 10
(c) 36 (d) 5 - In the waveform of Q. 11 above, the phase
displacement of the third harmonic represents
a time interval of _ seconds.
(a) T/12 (b) T/3
(c) 3T (d) T/36 - When the negative half-cycle of a complex
waveform is reversed, it becomes identical to
its positive half-cycle. This feature indicates
that the complex waveform is composed of
(a) fundamental
(b) odd harmonics
(c) even harmonics
(d) both (a) and (b)
(e) both (a) and (c) - A periodic waveform possessing half-wave
symmetry has no
(a) even harmonics
(b) odd harmonics
(c) sine terms
(d) cosine terms - The Fourier series of a wave form possessing
even quarter-wave symmetry has only
(a) even harmonics
(b) odd cosine terms
(c) odd sine terms
(d) both (b) and (c). - The Fourier series of a waveform possessing
odd quarter-wave symmetry contains only
(a) even harmonics
(b) odd cosine terms
(c) odd cosine terms
(d) none of above
- (d) 2. (b) 3. (d) 4. (d) 5. (a) 6. (d) 7. (c) 8. (c) 9. (a) 10. (d) 11.(b) 12. (a) 13. (d) 14. (a) 15. (b) 16. (c)