| Your Results | Global Average | |
|---|---|---|
| Questions | 5 | 5 |
| Correct | 0 | 3.09 |
| Score | 0% | 62% |
Electricity cannot flow...
through a circuit under load |
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through an open circuit |
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through a circuit with resistance |
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through a closed circuit |
An electrical circuit is a path through which electricity flows. This path contains one or more components that create a load (something that is using electricity) and that load acts as resistance to the passage of electricity through the circuit. Electricity can only flow through a circuit when the path is closed and cannot flow through an open circuit.
What kind of diode allows current to flow in the opposite direction once a certain voltage threshold is reached?
v-type diode |
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light emitting diode |
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standard diode |
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zener diode |
A diode allows current to pass easily in one direction and blocks current in the other direction. A zener diode is a diode which allows current to flow in one direction as normal and will also allow current flow in the reverse direction when the voltage is above a certain value. This value is called the breakdown voltage.
The most common circuit configuration is:
series-parallel |
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parallel |
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series |
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household |
Circuits are not limited to only series or only parallel configurations. Most circuits contain a mix of series and parallel segments. A good example is a household circuit breaker. Electrical outlets in each section of the house are wired in parallel with the circuit breaker for that section wired in series making it easy to cut off electricity to the parallel parts of the circuit when needed.
The diameter of a number 12 wire is __________ the diameter of a number 6 wire?
double |
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more than |
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less than |
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triple |
The larger the number the smaller the diameter of the wire. So, the diameter of a number 12 wire is less than the diameter of a number 6 wire.
The formula specifying Ohm's law is which of the following?
\(V = {R \over I}\) |
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\(V = {I \over R}\) |
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V = IR |
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V = I2R |
Ohm's law specifies the relationship between voltage (V), current (I), and resistance (R) in an electrical circuit: V = IR.