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Ratio of Modulating Frequency to Deflecting Plate Formula

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Modulating Frequency Ratio is defined as the encoding of information in a carrier wave by changing the instantaneous frequency of the wave. Check FAQs

F m = \frac{G c}{L}

F_m - Modulating Frequency Ratio?G_c - Gaps Number in Circle?L - Length?

Ratio of Modulating Frequency to Deflecting Plate Example

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Here is how the Ratio of Modulating Frequency to Deflecting Plate equation looks like with Values.

Here is how the Ratio of Modulating Frequency to Deflecting Plate equation looks like with Units.

Here is how the Ratio of Modulating Frequency to Deflecting Plate equation looks like.

7.2327 = \frac{23}{3.18}

7.2327 = \frac{23}{3.18m}

7.2327 = \frac{23}{3.18}

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Ratio of Modulating Frequency to Deflecting Plate Solution

Follow our step by step solution on how to calculate Ratio of Modulating Frequency to Deflecting Plate?

FIRST Step Consider the formula

F m = \frac{G c}{L}

Next Step Substitute values of Variables

∴

F m = \frac{23}{3.18m}

Next Step Prepare to Evaluate

∴

F m = \frac{23}{3.18}

Next Step Evaluate

∴

F m = 7.23270440251572

LAST Step Rounding Answer

∴

F m = 7.2327

Ratio of Modulating Frequency to Deflecting Plate Formula Elements

Variables

Modulating Frequency Ratio

Modulating Frequency Ratio is defined as the encoding of information in a carrier wave by changing the instantaneous frequency of the wave.

Symbol: F_m

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Modulating Frequency Ratio

Gaps Number in Circle

Gaps Number in Circle is defined as the encoding of information in a carrier wave by changing the instantaneous frequency of the wave.

Symbol: G_c

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Gaps Number in Circle

Length

Length refers to the voltage range displayed across the vertical axis or duration of time that is displayed across the horizontal axis of the oscilloscope screen.

Symbol: L

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Length

Other formulas in Oscilloscope category

Go Oscillation Time Period

T o = \frac{T}{{N c}^{n}}

Go Output Time Period

T = T o \cdot {N c}^{n}

Go Modulus Number of Counter

n = \log (N c, (\frac{T}{T o}))

Go Time Period of Waveform

T p = div H \cdot T div

How to Evaluate Ratio of Modulating Frequency to Deflecting Plate?

Ratio of Modulating Frequency to Deflecting Plate evaluator uses Modulating Frequency Ratio = Gaps Number in Circle/Length to evaluate the Modulating Frequency Ratio, The Ratio of Modulating Frequency to Deflecting Plate formula is defined as the relative rates of the modulating frequency (which controls one axis of the oscilloscope's display) and the deflecting plate frequency (which controls the other axis), influencing the geometric pattern formed on the oscilloscope screen known as a Lissajous figure. Modulating Frequency Ratio is denoted by F_m symbol.

How to evaluate Ratio of Modulating Frequency to Deflecting Plate using this online evaluator? To use this online evaluator for Ratio of Modulating Frequency to Deflecting Plate, enter Gaps Number in Circle (G_c) & Length (L) and hit the calculate button.

FAQs on Ratio of Modulating Frequency to Deflecting Plate

What is the formula to find Ratio of Modulating Frequency to Deflecting Plate?

The formula of Ratio of Modulating Frequency to Deflecting Plate is expressed as Modulating Frequency Ratio = Gaps Number in Circle/Length. Here is an example- 7.232704 = 23/3.18.

How to calculate Ratio of Modulating Frequency to Deflecting Plate?

With Gaps Number in Circle (G_c) & Length (L) we can find Ratio of Modulating Frequency to Deflecting Plate using the formula - Modulating Frequency Ratio = Gaps Number in Circle/Length.

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