Mathematics for Circuits

a₁ amperes angular frequency applied average value behaviour capacitor voltage charge circuit current complete component conductor coulombs current r.m.s. cycles per second damping determine differential equation disc displacement dq/dt electrical elements energy evaluate example expression farads flux follows function given I₁ impedance induced e.m.f. inductive and capacitive inductive reactance inductor input current input voltage instant instantaneous joules k₁ k₂ lamp magnitude mathematical matrix non-linear resistor notation ohms oscillation output voltage parallel particular phase angle potential difference power dissipated quantities r.m.s. values R₁ R₂ rate of change relationship represented rotating series circuit shaft shown in Figure simple harmonic motion simultaneous equations solution Suppose switch torque torsional pendulum V₁ V₂ value of current value of resistance vary sinusoidally vector of reference Vm sin wt voltage and current voltage wave volts watts waveshapes Xs.s Z₁ zero