Magnetic Field of a Wire Calc |
価格 | 500円 | ダウンロード |
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---|---|---|---|---|
ジャンル | ユーティリティ | |||
サイズ | 8.0MB | |||
開発者 | Nitrio | |||
順位 |
| |||
リリース日 | 2018-08-17 10:22:21 | 評価 | 評価が取得できませんでした。 | |
互換性 | iOS 12.0以降が必要です。 iPhone、iPad および iPod touch 対応。 |
Magnetic Field of a Wire Calculator is a physics/math calculator used to find the Wire Magnetic Field and Current flow in the Wire with Distance quickly and easily.
Features:
- Instant calculation
- Results are copyable to other apps
- Formulas are included as references
- Supports up to 16 decimal places
- Supports various units for each input
The magnetic force on a current-carrying wire is perpendicular to both the wire and the magnetic field, with the direction given by the right-hand rule.
Magnetic fields arise from charges, similar to electric fields, but are different in that the charges must be moving. A long straight wire carrying a current is the simplest example of a moving charge that generates a magnetic field. The force a charge feels when moving through a magnetic field depends on the right-hand rule. The direction of the magnetic field due to moving charges also depends on the right-hand rule.
The direction of the magnetic field is perpendicular to the wire and is in the direction the fingers of the right hand would curl if wrapped around the wire with the thumb in the direction of the current.
The strength of the magnetic field depends on the current I in the wire and d, the distance from the wire.
Equation:
B = μ0 * I / (2 * π * d)
where:
I - current
d - distance from the wire
B - strength of the magnetic field produced at distance d
μ0 - constant value μ0 = 4 * π * 10^(-7) [T * m / A] permeability of free space
Thank you for your support, and feel free to visit nitrio.com for more apps for your iOS devices.
更新履歴
- Updated for the newest devices.
- Minor UI update.
- Minor bugs fixed.
Features:
- Instant calculation
- Results are copyable to other apps
- Formulas are included as references
- Supports up to 16 decimal places
- Supports various units for each input
The magnetic force on a current-carrying wire is perpendicular to both the wire and the magnetic field, with the direction given by the right-hand rule.
Magnetic fields arise from charges, similar to electric fields, but are different in that the charges must be moving. A long straight wire carrying a current is the simplest example of a moving charge that generates a magnetic field. The force a charge feels when moving through a magnetic field depends on the right-hand rule. The direction of the magnetic field due to moving charges also depends on the right-hand rule.
The direction of the magnetic field is perpendicular to the wire and is in the direction the fingers of the right hand would curl if wrapped around the wire with the thumb in the direction of the current.
The strength of the magnetic field depends on the current I in the wire and d, the distance from the wire.
Equation:
B = μ0 * I / (2 * π * d)
where:
I - current
d - distance from the wire
B - strength of the magnetic field produced at distance d
μ0 - constant value μ0 = 4 * π * 10^(-7) [T * m / A] permeability of free space
Thank you for your support, and feel free to visit nitrio.com for more apps for your iOS devices.
更新履歴
- Updated for the newest devices.
- Minor UI update.
- Minor bugs fixed.
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