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Electronics

Instructions:

Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can study here.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. Current flow assumed to be in the direction of electron movement from a negative (-) potential to a positive (+) potential.
Opposites attract
Insulator
Electron current flow
Coulomb (C)

2. Resistors are objects that resist flow. If a light bulb gets to much electricty it can burn out. In other terms - NOT GOOD!!
Conductor
Why resistors are important
Conventional current flow
Control

3. The unit of electric charge - which is the basic unit of measurement for current flow in an electric circuit.
Free electrons
Coulomb (C)
Ampere (A)
Voltage

4. Energy that exists because of movement.
Free electrons
Orbit
Kinetic energy
Potential energy

5. An object which resists the flow of electricity.
Capacitor
Valence electrons
Watt (W)
Resistor

6. The unit of measurement of electric resistance.
Element
Closed circuit
Ohm (O)
Valence electrons

7. The path along which electrons travel around the nucleus of an atom.
Orbit
Insulator
Volt (V)
Source

8. Areas through which electrons move; designated as s - p - d - and f.
Capacitor
Opposites attract
Path
Orbital

9. The rate at which work is done.
Power
Kinetic energy
Indicator
Why resistors are important

10. The pressure - or force - that causes electric current to flow.
Electromotive force (EMF)
Capacitor
Ampere (A)
Open circuit

11. The unit of measurement of electric power.
Watt (W)
Static electricity
Free electrons
Insulator

12. A material that allows electric current to flow through it easily.
Orbital
Conductor
AC Current
Path

13. A material that has a value of electric resistance between that of a conductor and an insulator and is used to manufacture solid- state devices such as diodes and transistors.
Neutron
Semiconductor
Work
Potential energy

14. The part of an electric system that affects what the system does; a switch to turn on and turn off a light is a type of control.
Capacitor
LED
Control
Insulator

15. The part of an electric system through which electrons travel from a source to a load - such as the electric wiring used in a building.
Load
Path
Voltage
Orbital

16. A charge on a material that is said to be either positive or negative.
Power
Voltage
Static charge
Load

17. The part of an electric system that supplies energy to other parts of the system - such as a battery that supplies energy for a flashlight.
Insulator
Stable atom
Electron
Source

18. The difference of electrical potential between to points on a circuit
Ohms
Short circuit
Electron
Voltage

19. The unit of measurement of electric potential.
Watt (W)
Load
Volt (V)
Path

20. (R) The opposition to the flow of electric current in a circuit; its unit of measurement is the ohm (O).
Source
Atom
Path
Resistance

21. Alternating Current
Kinetic energy
AC
Watt (W)
Electrostatic field

22. The part of an electric system that shows whether the system is on or off or that a specific quantity is present.
Conductor
Indicator
Semiconductor
Valence electrons

23. The part of an electric system that converts electric energy into another form of energy - such as an electric motor that converts electric energy into mechanical energy.
Ampere (A)
Electromotive force (EMF)
Load
Static charge

24. A unit of electric charge that represents a large number of electrons. ~ 6.28 x 1018 electrons
Coulomb (C)
Free electrons
Electromotive force (EMF)
Ohm (O)

25. Current flow assumed to be in a direction from high charge concentration (+) to low charge concentration (-).
Electron
Power
Work
Conventional current flow

26. An atom that does not release electrons under normal conditions.
Why resistors are important
Valence electrons
Resistor
Stable atom

27. A circuit that has a broken path so that no electric current can flow through it. A circuit with infinite resistance.
DC Current
LED
Open circuit
Kinetic energy

28. V= IR or Voltage is equal to current times resistance
Static charge
Ohms
AC
Potential energy

29. The smallest particle to which an element can be reduced and still retain its characteristics.
Opposites attract
Voltage
Ohms
Atom

30. Current periodically reverses direction
Electromotive force (EMF)
AC Current
Short circuit
Power

31. The capacity to do work.
Energy
Switch
Work
Static charge

32. A device that stores energy between a pair of conductors
AC
Current
Capacitor
Voltage

33. A circuit that forms a complete path so that electric current can flow through it.
Closed circuit
Volt (V)
Static electricity
Electron current flow

34. A material that offers a high resistance to electric current flow.
Ohms
Atom
Insulator
Static electricity

35. The movement of electric charge; the flow of electrons through an electric circuit.
DC Current
Ohm (O)
Resistance
Current

36. The method by which loosely held atoms are bound together in metals.
Voltage
Electrostatic field
Ohms
Metallic bonding

37. An atomic particle said to have a negative (-) electric charge; electrons are the means by which the transfer of electric energy takes place.
Short circuit
Orbit
Electron
Control

38. A neutrally charged atom
Static electricity
Why resistors are important
Neutron
Conductor

39. Energy that exists because of position.
Work
Conventional current flow
Atom
Potential energy

40. A positively charged atom
Metallic bonding
Proton
Insulator
Valence electrons

41. Electrons in the outer orbit of an atom.
Semiconductor
Valence electrons
Resistance
Voltage

42. The transforming or transferring of energy.
Indicator
Work
Kinetic energy
Watt (W)

43. Something that can turn on or off the flow of electricty.
Switch
Open circuit
AC
Short circuit

44. Light Emitting Diode
LED
Resistance
Why resistors are important
Electromotive force (EMF)

45. Electricity at rest caused by accumulation of either positive or negative electric charge.
Conventional current flow
Static electricity
AC Current
Orbit

46. The basic materials that make up all other materials; they exist by themselves (such as copper - hydrogen - carbon) or in combination with other elements (water is a combination of the elements hydrogen and oxygen).
Element
Short circuit
Stable atom
DC Current

47. Do Opposites attract or move away from each other?
Opposites attract
Valence electrons
Semiconductor
Free electrons

48. A circuit that forms a direct path across a voltage source (with little or no resistance) so that a very high and possibly unsafe electric current flows.
Voltage
Short circuit
Proton
Valence electrons

49. The space around a charged material in which the influence of the electric charge is experienced.
Electrostatic field
Metallic bonding
DC Current
Opposites attract

50. Electrons located in the outer orbit of an atom that are easily removed and result in flow of electric current.
Closed circuit
Ampere (A)
Static charge
Free electrons