Home
Back
Pull Force Formula:
| From: | To: |
The Gauss to Pull Force calculation estimates the magnetic pull force based on Gauss (magnetic flux density), current, and distance. This formula is commonly used in electromagnetism and magnetic applications to determine the force exerted by a magnetic field.
The calculator uses the Pull Force formula:
Where:
Explanation: The equation calculates the pull force in Newtons based on the magnetic field strength (Gauss), current flowing through the conductor, and the distance from the magnetic source.
Details: Accurate pull force estimation is crucial for designing electromagnetic systems, magnetic levitation applications, and various industrial magnetic equipment where precise force measurement is required.
Tips: Enter Gauss in G, Current in Amperes, and Distance in meters. All values must be valid (positive numbers greater than 0).
Q1: What is the unit of measurement for pull force?
A: Pull force is measured in Newtons (N) in the International System of Units.
Q2: How does distance affect pull force?
A: Pull force decreases with increasing distance from the magnetic source, following an inverse relationship in most magnetic field configurations.
Q3: What factors can affect the accuracy of this calculation?
A: Magnetic material properties, temperature, and the specific geometry of the magnetic field can affect the accuracy of the calculation.
Q4: Can this formula be used for permanent magnets?
A: While the basic principles apply, permanent magnets may require additional considerations for remanence and coercivity in precise calculations.
Q5: What are typical applications of pull force calculations?
A: Electromagnetic design, magnetic separation systems, magnetic bearings, and various industrial automation applications.