Home / ECE / Network Analysis and Synthesis :: Section 12

ECE :: Network Analysis and Synthesis

  1. If each branch of a Delta circuit has impedance 3 Z then each branch of the equivalent Y circuit has impedance.

  2. A.
    Z/3
    B.
    3 Z
    C.
    3/3 Z
    D.
    Z/3

  3. In the circuit of figure, Thevenin's resistance is 10 Ω

  4. A.
    25 Ω
    B.
    10 Ω
    C.
    13.33 Ω
    D.
    6 Ω

  5. An RLC series circuit has R = 1 Ω, L = 1 H, C = 1 F. The damping ratio is

  6. A.
    More than 1
    B.
    1
    C.
    0.5
    D.
    Zero

  7. The circuit shown in the figure, with R = 1/3 Ω, L = 1/4H, C = 3F has input voltage v(t) = sin2t. The resulting current i(t) is

  8. A.
    5 sin (2t + 53.1°)
    B.
    5 sin (2t - 53.1°)
    C.
    25 sin (2t + 53.1°)
    D.
    25 sin (2t - 53.1°)

  9. If operator 'a' = 1 ∠120° then (1 + a2) =

  10. A.
    3
    B.
    3 ∠30°
    C.
    3 ∠ - 30°
    D.
    3 ∠60°

  11. Two 2 port circuits are connected cascaded. To determine the response, it is more convenient to use

  12. A.
    O.C. impedance parameters
    B.
    S.C. admittance parameters
    C.
    ABCD parameters
    D.
    h parameters

  13. In the circuit of figure. The current supplied by battery at t = ∞ is

  14. A.
    0 A
    B.
    5 A
    C.
    less than 5 A
    D.
    very large

  15. The natural frequency Sn of the given circuit is

  16. A.
    - 1
    B.
    + 1
    C.
    1/2
    D.
    - 2

  17. For addition and subtraction operations, phasors

  18. A.
    must be represented in polar form
    B.
    must be represented in rectangular form
    C.
    may be represented in any form
    D.
    none of the above

  19. The equivalent unit of joule is

  20. A.
    newton
    B.
    newton-meter
    C.
    newton-metre2
    D.
    none of the above