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	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power
	??? Lighting - Inverse Square law Potential Energy Capacitive Reactance mechanical Pressure Resistivity Capacitors in series Synchronous speed (motors) Line voltage Inductive Reactance Force on a conductor SLIP (motors) Phase voltage Three-phase power Inductance EMF (self induced) Resistors in parallel EMF from a generator Resistors in series Induced EMF due to flux change Kinetic Energy transformer ratios mechanical Force Work Done (Energy) Stored Energy Efficiency Impedance in an RL circuit Temperature coefficient of resistance Power in an AC circuit Periodic time Total luminous flux electrical Power Impedance in an RLC circuit electrical charge (Q) Capacitors in parallel Lighting cosine law Magnetic flux density mechanical Power