Applied Magnetic Field using External Field Calculator

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✖External Magnetic Field Strength is produced by moving electric charges and the intrinsic magnetic moments of elementary particles associated with a fundamental quantum property, their spin.ⓘ External Magnetic Field Strength [B]			+10% -10%
✖Local Fields means the magnetic field due to local atoms and molecules.ⓘ Local Fields [σ]			+10% -10%

✖External applied Magnetic Field formula is defined as the magnetic field of atoms or molecules along with the External magnetic field.ⓘ Applied Magnetic Field using External Field [B_eff]

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Formula

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Applied Magnetic Field using External Field

Formula

`"B"_{"eff"} = "B"_{""}*(1-"σ")`

Example

`"7E^-34A/m"="7E^-34A/m"*(1-"0.002")`

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Applied Magnetic Field using External Field Solution

STEP 0: Pre-Calculation Summary

Formula Used

External applied Magnetic Field = External Magnetic Field Strength*(1-Local Fields)
B_eff = B*(1-σ)
This formula uses 3 Variables

Variables Used

External applied Magnetic Field - (Measured in Ampere per Meter) - External applied Magnetic Field formula is defined as the magnetic field of atoms or molecules along with the External magnetic field.
External Magnetic Field Strength - (Measured in Ampere per Meter) - External Magnetic Field Strength is produced by moving electric charges and the intrinsic magnetic moments of elementary particles associated with a fundamental quantum property, their spin.
Local Fields - Local Fields means the magnetic field due to local atoms and molecules.

STEP 1: Convert Input(s) to Base Unit

External Magnetic Field Strength: 7E-34 Ampere per Meter --> 7E-34 Ampere per Meter No Conversion Required
Local Fields: 0.002 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

B_eff = B*(1-σ) --> 7E-34*(1-0.002)

Evaluating ... ...

B_eff = 6.986E-34

STEP 3: Convert Result to Output's Unit

6.986E-34 Ampere per Meter --> No Conversion Required

FINAL ANSWER

6.986E-34 ≈ 7E-34 Ampere per Meter <-- External applied Magnetic Field

(Calculation completed in 00.020 seconds)

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Created by Torsha_Paul

University of Calcutta (CU), Kolkata

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< 9 EPR Spectroscopy Calculators

Lande g Factor in Electron Paramagnetic Resonance

Go Lande g Factor = 1.5-((Orbital Quantum Number*(Orbital Quantum Number+1))-(Spin Quantum Number*(Spin Quantum Number+1)))/(2*Total Angular Momentum Quantum No*(Total Angular Momentum Quantum No+1))

No. of Particles in Upper State using Boltzmann Distribution

Go Upper State Particles = Lower State Particles*e^((Lande g Factor*Bohr Magneton*External Magnetic Field Strength)/[Molar-g])

Electron Paramagnetic Resonance Frequency

Go Electron Paramagnetic Resonance Frequency = (Lande g Factor*Bohr Magneton*External Magnetic Field Strength)/[hP]

External Magnetic Field Strength

Go External Magnetic Field Strength = (sqrt(Spin Quantum Number*(Spin Quantum Number+1)))*([hP]/(2*3.14))

Energy Difference between Two Spin States

Go Energy Difference between Spin States = (Lande g Factor*Bohr Magneton*External Magnetic Field Strength)

Energy of Negative Spin State

Go Energy of Negative Spin State = -(1/2*(Lande g Factor*Bohr Magneton*External Magnetic Field Strength))

Applied Magnetic Field using External Field

Go External applied Magnetic Field = External Magnetic Field Strength*(1-Local Fields)

Number of Lines Generated

Go Number of Lines Generated = (2*Number of Equivalent Nuclei*Spin Value)+1

Lines Generated for Spin Half

Go Lines Generated for Spin Half = 1+Number of Equivalent Nuclei

Applied Magnetic Field using External Field Formula

External applied Magnetic Field = External Magnetic Field Strength*(1-Local Fields)
B_eff = B*(1-σ)

What is Power Pattern Spectra?

In first-derivative spectrum, the low-frequency peak is positive, the high-frequency peak is negative, and the central peak is bipolar. Such situations are commonly observed in powders, and the spectra are therefore called "powder-pattern spectra". In crystals, the number of EPR lines is determined by the number of crystallographically equivalent orientations of the EPR spin.

How to Calculate Applied Magnetic Field using External Field?

Applied Magnetic Field using External Field calculator uses External applied Magnetic Field = External Magnetic Field Strength*(1-Local Fields) to calculate the External applied Magnetic Field, Applied Magnetic Field using External Field formula is defined as the magnetic field of atoms or molecules along with the External magnetic field. External applied Magnetic Field is denoted by B_eff symbol.

How to calculate Applied Magnetic Field using External Field using this online calculator? To use this online calculator for Applied Magnetic Field using External Field, enter External Magnetic Field Strength (B) & Local Fields (σ) and hit the calculate button. Here is how the Applied Magnetic Field using External Field calculation can be explained with given input values -> 7E-34 = 7E-34*(1-0.002).

FAQ

What is Applied Magnetic Field using External Field?

Applied Magnetic Field using External Field formula is defined as the magnetic field of atoms or molecules along with the External magnetic field and is represented as B_eff = B*(1-σ) or External applied Magnetic Field = External Magnetic Field Strength*(1-Local Fields). External Magnetic Field Strength is produced by moving electric charges and the intrinsic magnetic moments of elementary particles associated with a fundamental quantum property, their spin & Local Fields means the magnetic field due to local atoms and molecules.

How to calculate Applied Magnetic Field using External Field?

Applied Magnetic Field using External Field formula is defined as the magnetic field of atoms or molecules along with the External magnetic field is calculated using External applied Magnetic Field = External Magnetic Field Strength*(1-Local Fields). To calculate Applied Magnetic Field using External Field, you need External Magnetic Field Strength (B) & Local Fields (σ). With our tool, you need to enter the respective value for External Magnetic Field Strength & Local Fields 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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