Quiz on Electrical Fundamentals - PDF

Summary

This document contains a set of multiple-choice questions covering fundamental concepts of electrical components, calculations, and quantities such as resistance, current, voltage, power and energy. It appears to be part of an exam or assessment.

Full Transcript

1. In a current-controlled current source, the coefficient of i is the:
a) transconductance c) transresistance e) none of these
b) current gain d) voltage gain
2. In a voltage-controlled current source, the coefficient of voltage v, is the:
a) transconductance c) transresistance e) none of these
b) current gain d) voltage gain
3. In a voltage-controlled voltage source, the coefficient of voltage v, is the:
a) transconductance c) transresistance e) none of these
b) current gain d) voltage gain
4. In a current-controlled voltage source, the coefficient of voltage v, is the:
a) transconductance c) transresistance e) none of these
b) current gain d) voltage gain
5. Which of these is not an electrical quantity?
a) charge c) power e) current
b) time d) voltage
6. The maximum current that a 2 W, 80kΩ resistor can safely conduct is:
a) 160 kA c) 25 μA e) none of these
b) 40 kA d) 5 mA
7. The maximum voltage that a 5 W, 40kΩ resistor can safely handle is:
a) 25 mV c) 1 kV e) none of these
b) 40 V d) 1 MV
8. What is the energy stored in a 5-V cellphone battery rated at 31,000 mAh?
a) 558 MJ c) 234 kJ e) none of these
b) 0.558 MJ d) 65 kJ
9. How much electric charge is in a 5.0-V phone battery if the amount of energy stored in it
is 189kJ?
a) 10,500 mAH c) 10,500 AH e) none of these
b) 37.8 kAH d) 37.8 AH
10. The name of the moving particle in electricity field is called
a) voltage c) joule e) none of these
b) current d) electron
11. The following are all unit of energy except,
a) joule c) kilowatt-hour e) watt-second
b) electron volt d) ampere-hour
12. The conductance of the circuit that allows 300-μA of current to flow with 300-mV applied
is:
a) 1000μS c) 1 S e) none of these
b) 2 mS d) 900 mS
13. Joule is a unit measure for:
a) charge c) force e) watt-second
b) energy d) power
14. The smallest unit of electric energy is called?
a) watt-second c) electron-volt e) micro-joule
b) watt-hour d) kilowatt-hour
15. The unit measure for a large quantity of electric energy is called
a) watt-second b) watt-hour c) electron-volt
 d) kilowatt-hour e) micro-joule
16. A German physicist who experimentally determined the most basic law relating voltage
and current for a resistor.
a)Andre-Marie c) Gustav Robert e) none of these
Ampere Kirchhoff
b) George Simon d) Alessandro
Ohm Antonio Volta
17. It is the rate at which electric energy is fed to or taken from a device.
a) voltage c) current e) watt-second
b) power d) charge
18. Infinite resistance position of a switch means
a) a short circuit or c) an open circuit or e) none of these
ON position OFF position
b) a short circuit or d) an open circuit or
OFF position ON position
19. Zero resistance position of a switch means
a) a short circuit or c) an open circuit or e) none of these
ON position OFF position
b) a short circuit or d) an open circuit or
OFF position ON position
20. One joule is also equivalent to
a) 1.602x10-19 eV c) 6.24x1018eV e) none of these
18
b) 1.602X10 eV d) 6.24x1019 eV
21. It is the material used to prevent the flow of current.
a) conductor c) semiconductor e) inductor
b) insulator d) resistor
22. How many Joule is equivalent to 3.0 KWH of electric energy?
a) 10. 8 k c) 10.8 M e) none of these
b) 833.33 m d) 10.8 G
23. A/an ______ is a circuit element that has a resistance approaching infinity.
a) busted fuse c) open switch e) all except b
b) normal fuse d) broken wire
24. What is the potential difference applied to a 330Ω resistor to make it convert 2.5 KWH
of electric energy in 24 hour?
a.) 158.8 V c) 34.375 kV e) none of these
b) 5.86 V d) 185.4 V
25. What is the equivalent resistance of a 0.5-watt resistor with the following color bands:
red green, violet, red, silver?:
a) 2.57kΩ c) 255 kΩ e) none of these
b) 25.7 kΩ d) 0.255 kΩ
26. What is the maximum resistance limit of a 6.2-kΩ ± 25% resistor.
a) greater c) expand e) none of these
b) lesser d) stronger
27. Component or any of the elements in a circuit absorbs power when the calculated power
is
a) negative b) positive c) neutral
 d) either a or b e) none of these
28. Component or any of the elements in a circuit provides power when the calculated power
is
a) negative c) neutral e) none of these
b) positive d) either a or b
29. A material that increases its resistance as temperature increases.
a) negative b) positive c) the same
temperature temperature temperature
coefficient coefficient coefficient
d) none of these
30. An intrinsic property that quantifies how strongly a given material opposes the flow of
electric current.
a) Resistance c) Resistivity e) none of these
b) Conductivity d) Conductance
31. How many seconds will it take for a 72-Ω heater with a 6-A current to consume 9.4 kJ of
energy?
a) 21.76 c) 2.18 e) none of these
b) 6.36 d) 3.63
32. The circular area of a wire doubles for every
a) quarter gauge sizes c) half gauge sizes
b) three gauge sizes d) two gauge sizes
33. In a standard wire gauge size, as the gauge number increases from 1-40, the diameter
and the circular area.
a) decrease c) expand e) none of these
b) increase d) cut in half
34. The higher the gauge number and the thinner the wire, the _____ the resistance of the
wire for any given length.
a) better c) heavier e) greater
b) lesser d) stronger
35. Electric power refers to:
a) joule c) watt-second e) none of these
b) volt-coulomb d) volt-ampere
36. Electric charge is measured in which unit?
a) volt c) joule e) none of these
b) coulomb d) watt
37. The law that describes the relationship between voltage, current, and resistance is called:
a) Newton’s Law c) Ohm’s Law d) Current and
b) Kirchhoff’s law voltage law
38. In a DC circuit, the current flow is:
a) alternating c) fluctuating e) none of these
b) constant d) normal
39. Which element has the lowest resistivity?
a) silver c) gold e) none of these
b) copper d) iron
40. What is the purpose of a rheostat?
a) to control voltage b) to control current c) to store energy
 d) to block current
41. A short circuit has resistance approaching:
a) zero c) maximum e.) none of these
b) infinity d) one
42. Which of the following materials is a semiconductor?
a) copper c) gold e) none of these
b) silicon d) rubber
43. Which factor does not affect the resistance of a conductor?
a) temperature c) cross-sectional d) voltage
b) length area e) none of these
44. In a parallel circuit, the total resistance is:
a) always more than c) more than the reciprocals of
the largest resistor smallest resistor resistances
b) the sum of all d) the reciprocal of e) none of these
resistances the sum of
45. The main property of a passive element is its ability to:
a) generate energy b) store or dissipate c) increase voltage
energy d) control current
e) none of these
46. Which of the following statements is true about dependent sources is true?
a) Their output b) They provide d) They generate
depends on voltage constant voltage power without
or current c) They are input
elsewhere in the independent of e) none of these
circuit other circuit
elements
47. The current in a conductor varies inversely with:
a) voltage c) temperature e) none of these
b) resistance d) power
48. A resistor that does not obey Ohm's Law is called:
a) linear resistor c) fixed resistor
b) non-linear d) potentiometer
resistor e) none of these
49. An ideal current source has:
a) zero resistance c) variable e) none of these
b) infinite resistance
resistance d) zero voltage
50. An ideal voltage source has:
a) zero resistance c) variable e) none of these
b) infinite resistance
resistance d) zero voltage
51. In figure 1, the power absorbed or supplied by E1.
a) -48 W d) 32 W
b) -32 W e) none of these
c) 48 W
52. The dependent source in figure 1 is a:
a) CCCS c) CCVS e) none of these
b) VCCS d) VCVS
53. What is the coefficient of Ix of the dependent source Id in figure 1?
a) current gain c) transconductance e) none of these
b) voltage gain d) transresistance
54. The current Iy in figure 1 is:
a) 2 A c) 6 A e) none of these
b) 4 A d) 8 A
55. The voltage Vac in figure 1 is:
a) 16 V c) 8 V e) none of these
b) -16 V d) -8 V
56. The power absorbed or supplied by Id in figure 1 is:
a) -48 W c) -96 W e) none of these
b) 48 W d) 96 W
57. 1f 5 A, 10 A and 13 A fuses are available, state which is most appropriate for the following
appliances which are both connected to a 240 V supply. (a) Electric toaster having a
power rating of 1 kW (b) Electric fire having a power rating of 3 kW;
a) 5 A and 10 A c) 10 A and 13 A e) none of these
b) 5 A and 13 A d) both 13 A
58. The resistance of a 5 m length of wire is 600 ohms. Determine (a) the resistance of an 8
m length of the same wire, and (b) the length of the same wire when the resistance id 420
ohms.
a) 960 Ω and 2.5 m c) 960 Ω and 3.5 m e) none of these
b) 860 Ω and 3.5 m d) 860 Ω and 2.5 m
59. A coil of copper wire has a resistance of 10 Ω and 20°C. If the temperature coefficient of
resistance of copper at 20°C is 3.93x10^-3/°C, determine the resistance of the coil when
the temperature rises to 100°C.
a) 13.2 Ω c) 6.86 e) none of these
b)13.14 Ω d) 6.80
60. The resistance of a coil of aluminum wire at 18°C is 200 Ω. The temperature of the wire
is increased, and the resistance rises to 240 Ω. If the temperature coefficient of resistance
of aluminum is 3.90x10^-3°C at 18°C, determine the temperature to which the coil has
risen.
a) 68.89 °C
b) 86.98 °C
c) 69.28 °C
d) 96.28 °C
e) none of these