When positioned at 135 degrees, how much magnetic force reaches the conductor?

When a conductor is positioned at 135 degrees relative to the magnetic field, it experiences an angle that is not aligned for optimal interaction. In the context of magnetic fields and forces, the effectiveness of the magnetic force acting on a conductor is influenced by the angle between the magnetic field and the current in the conductor.

At 135 degrees, the sine component of the angle, which is necessary for calculating the magnetic force (as described by the formula ( F = I \cdot L \cdot B \cdot \sin(\theta) )), is not at its maximum value. The angle suggests that there will be less effective interaction between the magnetic field and the current than if the angle were closer to 90 degrees, which would yield a maximum sine value and, therefore, a maximum magnetic force.

This positioning means that not all of the magnetic field lines are effectively interacting with the conductor in a way that would generate significant force. Although there may still be some magnetic force present due to the remaining sine component, the overall force produced will be less compared to more optimal angles, such as 90 degrees or other angles closer to that.

The conclusion is that while there is some magnetic force acting on the conductor, it is diminished, making