parallelism
(noun)
When two or more elements of the same sentence have a similar structure.
Examples of parallelism in the following topics:
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Combinations of Capacitors: Series and Parallel
- Like any other form of electrical circuitry device, capacitors can be used in series and/or in parallel within circuits.
- It is possible for a circuit to contain capacitors that are both in series and in parallel.
- However, these are both in parallel with C3.
- This image depicts capacitors C1, C2, and so on until Cn in parallel.
- Calculate the total capacitance for the capacitors connected in series and in parallel
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Resistors in Parallel
- Resistors in a circuit can be connected in series or in parallel.
- Therefore, for every circuit with $n$ number or resistors connected in parallel,
- $R_{n \;(parallel)} = \frac{1}{R_1} + \frac{1}{R_2} + \frac{1}{R_3} ... + \frac{1}{R_n}.$
- Three resistors connected in parallel to a battery and the equivalent single or parallel resistance.
- Calculate the total resistance in the circuit with resistors connected in parallel
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Structural Parallelism Within a Sentence
- But what is parallelism?
- Parallel: We can pay with a mark, a yen, a buck, or a pound.
- Parallel: This is a time not for words but for action.
- In some instances, you must figure out which parts of the sentence are parallel in meaning before making them parallel in structure.
- The title sentence is a non-parallel statement.
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Combination Circuits
- A combination circuit can be broken up into similar parts that are either series or parallel.
- In that case, wire resistance is in series with other resistances that are in parallel.
- In the initial image, the two circled sections show resistors that are in parallel.
- The next step shows that the circled two resistors are in parallel.
- This combination of seven resistors has both series and parallel parts.
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How Skeletal Muscles Are Named
- The anatomical arrangement of skeletal muscle fascicles can be described as parallel, convergent, pennate, or sphincter.
- Parallel muscles are characterized by fascicles that run parallel to one another, and contraction of these muscle groups acts as an extension of the contraction of a single muscle fiber.
- Parallel muscles can be divided into fusiform and non-fusiform types based on their shape.
- The biceps brachii is an example of a fusiform parallel muscle, and is responsible for flexing the forearm.
- Fascicles pull on the tendon at an angle, thus not moving as far at the parallel muscles during a contraction.
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Repetition and Parallelism
- Repetition and parallelism can add clarity and dramatic punch to your speech.
- Parallelism is an especially effective technique to provide structure, order, and balance in your speech, in addition to clarifying your argument.
- Parallelism works the same way but without rote repetition of words or ideas and instead constructs them from similar examples.
- Parallelism is a very effective way to break up your use of repetition by laying out many different ways of expressing the same thought or idea.
- See below how parallelism was used in these two speakers:
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Parallel and Perpendicular Lines
- Two lines in a plane that do not intersect or touch at a point are called parallel lines.
- The parallel symbol is $\parallel$.
- $f(x)$ $\parallel$ $g(x)$ states that the two lines are parallel to each other.
- Given two parallel lines $f(x)$ and $g(x)$, the following is true:
- In 2D, two lines are parallel if they have the slope.
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Parallel-Plate Capacitor
- A parallel-plate capacitor is an electrical component used to store energy in an electric field between two charged, flat surfaces.
- For the purpose of this atom, we will focus on parallel-plate capacitors .
- For a parallel-plate capacitor, capacitance (C) is related to dielectric permittivity (ε), surface area (A), and separation between the plates (d):
- A brief overview of parallel plates and equipotential lines from the viewpoint of electrostatics.
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Parallel-Plate Capacitor
- The parallel-plate capacitor is one that includes two conductor plates, each connected to wires, separated from one another by a thin space.
- One of the most commonly used capacitors in industry and in the academic setting is the parallel-plate capacitor .
- The purpose of a capacitor is to store charge, and in a parallel-plate capacitor one plate will take on an excess of positive charge while the other becomes more negative.
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Charging a Battery: EMFs in Series and Parallel
- When voltage sources are connected in series, their emfs and internal resistances are additive; in parallel, they stay the same.
- When more than one voltage source is used, they can be connected either in series or in parallel, similar to resistors in a circuit.
- But the total internal resistance is reduced, since the internal resistances are in parallel.
- Thus, the parallel connection can produce a larger current .
- Parallel combinations are often used to deliver more current.