The formula to calculate the Pull Force (F) is:
\[ F = G \times 0.0001 \times I \times D \]
Where:
A gauss is a unit of measurement used to express the density of a magnetic field. The gauss was named for Carl Friedrich Gauss, who first described the phenomenon and formulated mathematical descriptions of electromagnetism.
The gauss is defined as one maxwell per square centimeter. One maxwell represents a magnetic field in which a line of force (a flux) has an area of one square centimeter perpendicular to it. The maxwell is not generally used as a unit of measure. Still, it can be thought of as the flux generated by one coulomb of charge moving with a velocity of one centimeter per second and a wire one centimeter in length in a direction at right angles to that wire.
Definition: Converting gauss to pull force involves calculating the force exerted by a magnetic field on a conductor carrying an electric current.
Formula: \( F = G \times 0.0001 \times I \times D \)
Example: \( F = 500 \times 0.0001 \times 2 \times 0.5 \)
Definition: Calculating forces in a truss involves determining the internal forces in each member of the truss structure.
Formula: \( \sum F_x = 0 \) and \( \sum F_y = 0 \)
Example: For a simple truss with a load of 1000 N at the center, calculate the forces in each member using the method of joints.
Definition: Calculating the pull force involves determining the force required to pull an object using a magnet or other means.
Formula: \( F = \mu \times N \times g \)
Example: \( F = 0.5 \times 100 \times 9.81 \)