Energy in a Circuit: Difference between revisions

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When the paths of a parallel circuit branch off from the original path, the currents of those paths will always add up to the current of the original path.
When the paths of a parallel circuit branch off from the original path, the currents of those paths will always add up to the current of the original path.
[[File:Parallel Circuit.jpeg]]


==Connectedness==
==Connectedness==
#How is this topic connected to something that you are interested in?
#In middle school, I made a house with working appliances. It was such an enthralling experience, and I enjoyed making the circuits and figuring out which ones would work best by calculating battery wattage and application resistance.
#How is it connected to your major?
#I am a computer science major, but if I want to do into the devices thread, knowing how these circuits work would be beneficial. With that knowledge in addition to computer programming knowledge, I would be able to thoroughly understand the top-down making of the device.
#Is there an interesting industrial application?
#Circuits are used all around us. From within our appliances to the outlets we plug them into, circuits are the basis of most technology we use today. You could apply circuits to almost any industry.


==History==
==History==

Revision as of 18:13, 5 December 2015

Claimed by Neevedita Goswami

Preface

Energy in a circuit originates from the battery, and once the circuit is closed, it flows through the wires.

Definitions

Power

Power is measured in watts, and in a circuit, it is the rate at which energy is converted from electrical energy to a different type of energy.

[math]\displaystyle{ \mathbf{P} = }[/math] Power

[math]\displaystyle{ \mathbf{P} = \mathbf{I} * \mathbf{V} }[/math]

Resistance

Resistance is measured in ohms. It slows the flow of the charge and is the ratio of the voltage applied to the electrical current flowing through it. Examples include lights, fans, and any appliances within the circuit. The longer the wire, the greater its resistance. Total resistance is calculated differently depending on the type of circuit: series or parallel.

[math]\displaystyle{ \mathbf{R} = }[/math] Resistance

[math]\displaystyle{ \mathbf{R} = \frac {\mathbf{V}} {\mathbf{I}} }[/math]

Voltage

Voltage, or electric potential, is measured in volts. It is the electrical potential energy per unit charge and, in reference to class problems, determines the brightness of a light bulb along with power. Voltage is calculated differently depending on the type of circuit: series or parallel.

[math]\displaystyle{ \mathbf{V} = }[/math] Voltage

[math]\displaystyle{ \mathbf{V} = \mathbf{I} * \mathbf{R} }[/math]

Current

Current is measured in amperes. It is the energy that flows through the circuit and has different rules to its calculations depending on the type of circuit.

[math]\displaystyle{ \mathbf{I} = }[/math] Current

[math]\displaystyle{ \mathbf{I} = \frac {\mathbf{V}} {\mathbf{R}} }[/math]

Series Circuits

A series circuit is when all the resistors within the circuit are on one path. There is one path leading from the power source, through the resistors, and back to the source.

Total resistance in a series circuit is calculated by adding the resistance of all the resistors in series together.

[math]\displaystyle{ \mathbf{R}_{total} = \mathbf{R}_{1} + \mathbf{R}_{2} + \mathbf{R}_{3} + ... }[/math]

The current is constant throughout the paths in series.


Parallel Circuits

A parallel circuit is when there is more than one path leading from the power source for the current to flow through. Total resistance in a parallel circuit is calculated by adding the inverse of each resistor in the parallel wires and then taking the inverse of the total.

[math]\displaystyle{ \frac {1} {\mathbf{R}_{total}} = \frac {1} {\mathbf{R}_{1}} + \frac {1} {\mathbf{R}_{2}} + \frac {1} {\mathbf{R}_{3}} + ... }[/math]

When the paths of a parallel circuit branch off from the original path, the currents of those paths will always add up to the current of the original path.

Connectedness

  1. In middle school, I made a house with working appliances. It was such an enthralling experience, and I enjoyed making the circuits and figuring out which ones would work best by calculating battery wattage and application resistance.
  2. I am a computer science major, but if I want to do into the devices thread, knowing how these circuits work would be beneficial. With that knowledge in addition to computer programming knowledge, I would be able to thoroughly understand the top-down making of the device.
  3. Circuits are used all around us. From within our appliances to the outlets we plug them into, circuits are the basis of most technology we use today. You could apply circuits to almost any industry.

History

Put this idea in historical context. Give the reader the Who, What, When, Where, and Why.

See also

Are there related topics or categories in this wiki resource for the curious reader to explore? How does this topic fit into that context?

Further reading

Books, Articles or other print media on this topic

External links

[1]


References

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