Gauss to Pull Force Calculator
Enter the values of magnetic field strength, G, the current, I(Amps) and distance, D(m) todetermine the value of force, F(N).
Gauss to Pull Force Formula
The Gauss to pull force conversion quantifies the force exerted by a magnetic field, measured in Gauss, as it acts over a certain distance and with a specific current, expressing the interaction’s strength in Newtons.
Force, F(N) in Newtons is calculated by multiplying the magnetic field strength, G in gauss with a conversion factor, the current, I(Amps) in amperes and the distance, D(m) in metres.
Force, F(N) = G * 0.0001 * I(Amps) * D(m)
F(N) = force in Newtons, N.
G = magnetic field strength in Gauss, G.
I(Amps) = current in amperes, Amps.
D(m) = distance in metres, m.
Gauss to Pull Force Calculation:
- Calculate the Pull Force of a 1000 Gauss Magnet with 2 Amps Current at a Distance of 0.05 metres.
Given: G = 1000G, I(Amps) = 2Amps, D(m) = 0.05m.
Force, F(N) = G * 0.0001 * I(Amps) * D(m)
F(N) = 1000 * 0.0001 * 2 * 0.05
F(N) = 0.01N.
- Let’s solve a problem where the force is 5 Newtons, the current is 10 Amperes, and the distance is 2 metres. Find magnetic field strength in Gauss, G.
Given: F(N) = 5N, I(Amps) = 10Amps, D(m) = 2m.
Force, F(N) = G * 0.0001 * I(Amps) * D(m)
G = F(N) / 0.0001 * I(Amps) * D(m)
G = 5 / 0.0001 * 10 * 2
G = 2500G.