Standard Deviation for Normal Curve Calculator

✖sharpness of Curve refers to how quickly a response curve changes in relation to changes in the input signal.ⓘ Sharpness Of Curve [S_c]

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✖Normal Curve Standard Deviation is defined as a statistic that measures the dispersion of a dataset relative to its mean and is calculated as the square root of the variance.ⓘ Standard Deviation for Normal Curve [σ]

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Formula

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Standard Deviation for Normal Curve

Formula

`"σ" = 1/sqrt("S"_{"c"})`

Example

`"8.006408"=1/sqrt("0.0156")`

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Standard Deviation for Normal Curve Solution

STEP 0: Pre-Calculation Summary

Formula Used

Normal Curve Standard Deviation = 1/sqrt(Sharpness Of Curve)
σ = 1/sqrt(S_c)
This formula uses 1 Functions, 2 Variables

Functions Used

sqrt - A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number., sqrt(Number)

Variables Used

Normal Curve Standard Deviation - Normal Curve Standard Deviation is defined as a statistic that measures the dispersion of a dataset relative to its mean and is calculated as the square root of the variance.
Sharpness Of Curve - sharpness of Curve refers to how quickly a response curve changes in relation to changes in the input signal.

STEP 1: Convert Input(s) to Base Unit

Sharpness Of Curve: 0.0156 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

σ = 1/sqrt(S_c) --> 1/sqrt(0.0156)

Evaluating ... ...

σ = 8.00640769025436

STEP 3: Convert Result to Output's Unit

8.00640769025436 --> No Conversion Required

FINAL ANSWER

8.00640769025436 ≈ 8.006408 <-- Normal Curve Standard Deviation

(Calculation completed in 00.004 seconds)

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Created by Shobhit Dimri

Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat

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< 25 Instrument Dimensions Calculators

Spacing between Electrode

Go Electrode Spacing = (Parallel Plate Relative Permeability*(Electrode Effective Area*[Permitivity-vacuum]))/(Specimen Capacitance)

Hall Coefficient

Go Hall Coefficient = (Output Voltage*Thickness)/(Electric Current*Maximum Flux Density)

Length of Former

Go Former Length = Former EMF/(2*Magnetic Field*Former Breadth*Former Angular Speed)

Reluctance of Yoke's

Go Yokes Reluctance = (Magnetic Moment*Magnetic Circuits Reluctance)-Joints Reluctance

Reluctance of Joints

Go Joints Reluctance = (Magnetic Moment*Magnetic Circuits Reluctance)-Yokes Reluctance

True Magnetising Force

Go True Magnetism Force = Apparent Magnetic Force at length l+Apparent Magnetic Force at Length l/2

Length of Solenoid

Go Solenoid Length = Electric Current*Coil Turns/Magnetic Field

Apparent Magnetic Force at length l

Go Apparent Magnetic Force at length l = Coil Current at Length l*Coil Turns

Extention of Specimen

Go Specimen Extension = Magnetostriction Constant MMI*Specimen Actual Length

Hysteresis loss per unit volume

Go Hysteresis Loss per Unit Volume = Area of the hysteresis loop*Frequency

Area of Secondary Coil

Go Secondary Coil Area = Secondary Coil Flix Linkage/Magnetic Field

Linear velocity of Former

Go Former Linear Velocity = (Former Breadth/2)*Former Angular Speed

Area of hysteresis loop

Go Hysteresis Loop Area = Hysteresis Loss per Unit Volume/Frequency

Responsivity of Detector

Go Detector Responsivity = RMS Voltage/Detector RMS Incident Power

Standard Deviation for Normal Curve

Go Normal Curve Standard Deviation = 1/sqrt(Sharpness Of Curve)

Leakage Factor

Go Leakage Factor = Total Flux Per Pole/Armature Flux per Pole

Area of Cross-section of Specimen

Go Area of Cross Section = Maximum Flux Density/Magnetic Flux

Instrumentation Span

Go Instrumentation Span = Largest Reading-Smallest Reading

Damping Constant

Go Damping Constant = Damping Torque*Disc Angular Speed

Damping Torque

Go Damping Torque = Damping Constant/Disc Angular Speed

Primary Phasor

Go Primary Phasor = Transformer Ratio*Secondary Phasor

Revolution in KWh

Go Revolution = Number of Revolution/Energy Recorded

Energy Recorded

Go Energy Recorded = Number of Revolution/Revolution

Sharpness of Curve

Go Sharpness Of Curve = 1/((Normal Curve Standard Deviation)^2)

Coefficient of volumetric Expansion

Go Volumetric Expansion Coefficient = 1/Capillary Tube Length

Standard Deviation for Normal Curve Formula

Normal Curve Standard Deviation = 1/sqrt(Sharpness Of Curve)
σ = 1/sqrt(S_c)

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How to Calculate Standard Deviation for Normal Curve?

Standard Deviation for Normal Curve calculator uses Normal Curve Standard Deviation = 1/sqrt(Sharpness Of Curve) to calculate the Normal Curve Standard Deviation, The Standard Deviation for Normal Curve formula is defined as a statistic that measures the dispersion of a dataset relative to its mean and is calculated as the square root of the variance. Normal Curve Standard Deviation is denoted by σ symbol.

How to calculate Standard Deviation for Normal Curve using this online calculator? To use this online calculator for Standard Deviation for Normal Curve, enter Sharpness Of Curve (S_c) and hit the calculate button. Here is how the Standard Deviation for Normal Curve calculation can be explained with given input values -> 8.006408 = 1/sqrt(0.0156).

FAQ

What is Standard Deviation for Normal Curve?

The Standard Deviation for Normal Curve formula is defined as a statistic that measures the dispersion of a dataset relative to its mean and is calculated as the square root of the variance and is represented as σ = 1/sqrt(S_c) or Normal Curve Standard Deviation = 1/sqrt(Sharpness Of Curve). sharpness of Curve refers to how quickly a response curve changes in relation to changes in the input signal.

How to calculate Standard Deviation for Normal Curve?

The Standard Deviation for Normal Curve formula is defined as a statistic that measures the dispersion of a dataset relative to its mean and is calculated as the square root of the variance is calculated using Normal Curve Standard Deviation = 1/sqrt(Sharpness Of Curve). To calculate Standard Deviation for Normal Curve, you need Sharpness Of Curve (S_c). With our tool, you need to enter the respective value for Sharpness Of Curve and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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