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- Magnetscape Vs. Magnetic Field of a Wire Calc
Magnetscape 对比 Magnetic Field of a Wire Calc 的使用情况和统计数据
"Magnetscape" is a new measurement app that observes invisible magnetic fields using the iPhone's built-in magnetic sensor.
There are various magnetic fields around us. For example, the magnetic field fluctuates even when a large motor, compressor, or metal is nearby. The earth's magnetic field exists even in places where there is nothing, and we are affected by this magnetic field.
"Magnetscape" can monitor the surrounding magnetic field in real time, it can be used for various purposes in real life. For example, it can be used to investigate static magnetic field, search for low electromagnetic field in alternating magnetic field (electromagnetic field), metal detection and more.
"Magnetscape" has three kinds of measurement modes for magnetic field observation, please use it according to your purpose.
- Scope
Perform a graphical display showing the magnitude and direction of the magnetic field.
In Scope, the magnetic flux density of the magnetic field is expressed by the size and color of the graphic circle.
The display position of the graphic circle will move according to the polarity of the magnetic source, the polarity will be attracted to the N pole if it is the same direction as the geomagnetic field, the polarity will be reversed away if it is the opposite (S pole). If there is no metal or magnetic field nearby, it will be shifted in the direction of the geomagnetism (N pole).
- Time
Trace the RAW data from the magnetic sensor and its corrected data. It is a time displacement graph of each axis value (Bx / By / Bz) and composite magnetic flux density (Bcomp) in three-dimensional space. You can scroll up to 180 seconds.
- FFT
Perform frequency analysis on the changing magnetic field. It displays the result of FFT analysis of the composite magnetic flux density.
Horizontal axis: Frequency 1 - 16 Hz (0.5 Hz)
Vertical axis: dB (ratio to default standard value 45 μT). Reference value can be set in units of 45 ± 15 μT / 1 μT.
Features:
- Graphical display of magnetic field observation by magnetic sensor (Scope)
- Time displacement graph display of magnetic field observation (Time)
- FFT analysis (FFT)
- Magnetic field observation
X axis: Intensity (Bx) of the magnetic field of (the right direction toward the screen)
Y axis: Intensity (By) of the magnetic field of (upward toward the screen)
Z axis: magnetic field strength (Bz) in the of (vertical upward direction of the screen)
Composite magnetic flux density: The magnetic field strength (Bcomp) taking into account all three components of the x-axis, y-axis and z-axis.
Sampling frequency: 32 Hz
Unit of observation value: uT
- Measurement time: 3 minutes
- Alert function: A warning message will be displayed if the composite magnetic flux density exceeds 300 μT.
- Alert sound function. (Sound Off/On)
- Peak hold function on FFT mode.
- Angle display function in Scope mode (Angle)
- Clock display function in Scope mode.
Notes:
- The display value of this application is the RAW output data from the magnetic sensor itself. It does not perform any processing such as filter processing within the application.
- Since the magnetic sensor is a sensitive device, the internal reference value of the magnetic sensor may be disturbed if exposed to extremely strong magnets and magnetic fields for a long time.
- If the reference value of the magnetic sensor becomes incorrect, the magnetic sensor will be automatically readjusted after you stop the application and leave it for a while. If the magnetic sensor is still unstable, please try the electronic compass calibration and reset procedure.
Please visit our iOS App Support page for more information on this app.
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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.
- Apple 应用商店
- 付费
- 公共事业
商店排名
- -
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Magnetscape VS.
Magnetic Field of a Wire Calc
十二月 19, 2024