$$ J \fracd^2\thetadt^2 + b \fracd\thetadt + k\theta = N B I A $$
Some simulations include a temperature slider. As the coil heats up, the copper resistance increases, and the spring constant slightly changes. The student must compensate by adjusting series resistors.
Moving Coil Galvanometer Simulation: A Digital Deep Dive into Electromagnetism
$$ J \fracd^2\thetadt^2 + b \fracd\thetadt + k\theta = N B I A $$
Some simulations include a temperature slider. As the coil heats up, the copper resistance increases, and the spring constant slightly changes. The student must compensate by adjusting series resistors. moving coil galvanometer simulation
Moving Coil Galvanometer Simulation: A Digital Deep Dive into Electromagnetism $$ J \fracd^2\thetadt^2 + b \fracd\thetadt + k\theta
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