Magnetic Field of a Wire Calc vs Electronic Circuits Calc Pro Usage & Stats

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.
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The app is an excellent reference for electronic engineers. It will be useful for both beginners and experienced electronics hobbists. The app contains more than 130 manuals and calculators for various areas of electronics, and also includes a full-text search function. This program contains the following calculators and guides: Basic calculators -Ohm's law -Power, voltage and current -Resistive voltage divider -Wheatstone Bridge -RC circuit time constant -Battery life -Additional resistor for voltmeter -Shunt resistor for ammeter. Resistors -Resistor color codes -SMD resistor codes -EIA-96 encoding -Selection of standard resistor values -Series connection of resistors -Parallel connection of resistors -E-series Capacitors -Ceramic disc capacitor codes -Film capacitor codes -Capacitor operating voltage codes -Color codes of film capacitors -SMD capacitor codes -Series connection of capacitors -Parallel connection of capacitors Inductors -Inductor color codes -SMD inductor codes -Parallel connection of inductors Diodes -Diodes -Rectifier diodes -Signal diodes -Schottky diodes -Tunnel diodes -Varicaps -Zener diodes Transistors -Bipolar transistors -MOSFETs -JFET transistors -Unijunction transistors -Bipolar transistors with insulated gate. -Darlington transistor pair Thyristors -Thyristors -Lockable thyristors -IGCT thyristors -MOS-controlled thyristors Power supplies -AC parameters -Half-wave rectifier -Full-wave rectifier -Bridge rectifier -Quenching capacitor -Internal resistance of the power supply -Symmetrical voltage doubling rectifier circuit -Three-phase half-wave rectifier -Three-phase bridge rectifier -Voltage multiplier Voltage and current regulators -Voltage regulator on LM317 -Bipolar voltage regulator for LM317 and LM337 -Current source on LM317 -Zener diode reference voltage source -Temperature compensated reference voltage source -TL431 regulator -TL431 regulator with additional transistor Light Emitting Diodes -Resistor for one LED -Resistor for serial connection of LEDs -Resistor for parallel connection of LEDs -7 segment LED display -Decoder for 7-segment displays CD4511 Photocells -Photodiodes -Photoresistors -Phototransistors -Optocouplers Operational amplifiers -Gain of non-inverting op-amp -Gain of inverting op-amp -Inverting op-amp with T-bridge in feedback. -Inverting summing op-amp -Differential op-amp -Voltage integrator -Voltage differentiator -Voltage comparator High frequency circuits -Capacitor reactance -Inductor reactance -Convert gain to decibels -Convert dBm to watts -T-Attenuator -Pi attenuator -L-Attenuator -Bridge T-attenuator -Capacitive AC voltage divider -Inductive voltage divider -Frequency and wavelengths Filters -RC low-pass filter -RC high-pass filter -RC bandpass filter -RL low-pass filter -RL high-pass filter -LC low-pass filter -LC high-pass filter Multivibrators -Self-oscillating Multivibrator -Monostable multivibrator -Bistable multivibrator -Multivibrator with diodes 555 Timer -Astable mode -Monostable mode -Bistable mode -Schmitt trigger -Connecting LEDs -Light detector -Relay control Logics -AND logic gate -OR logic gate -NOT logic gate -NAND logic gate -NOR logic gate -XOR logic gate -XNOR logic gate, -Combination circuits -Transistor-transistor logic -Complementary metal-oxide-semiconductor -Open Collector TTL Logic Gates The content of the application is updated and supplemented with the release of each new version.
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Magnetic Field of a Wire Calc VS.
Electronic Circuits Calc Pro

December 19, 2024