__Gauss to Pull Force Calculator:__>

__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:__

__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:__

__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.