• When dropping a rock in to water consider transverse waves (the ripple) but also longitudinal waves (ray-casts which go in straight lines; essentially pointing which ways the ripples should go.)
• Imperfection in the wire retards electricity which otherwise wants to travel the speed of light.
• Scalar waves appear to move faster than light after accounting for frequency/velocity formulas.
• Voltage measurements of scalar instruments are very sensitive; when Dollar reaches near the coils the voltage drops. He explains this as the field going "out of resonance."
• Use of analogue computers to produce the effect being studied.
• Use of neon bulbs when detecting transverse waves.
• Magnetism rises towards the source and dielectrics rise towards the load.

TODO link not implemented: => dollard-computer-transverse.png Dollard's LMD in transverse modeTODO link not implemented: => dollard-computer-longitude.png Dollard's LMD in longitudinal mode

• Whenever inductors grow hotter, capcitors grow golder.
• Switching between transverse and longitudinal mode changes whether inductor or capcitor goes towards heat.
• The LMD in longitudinal mode resulted in light tubes glowing without being plugged in.

Analogue computer

• One pair of wires, the "element of transmission."
• Pair of inductance coil or chokes, analogue of the magnetic field for wires.
• Pair of capacitors, analogue of the dielectric of wires.
• Wired with capacitors in series will produce transverse waves, while inductors produce longitudinal waves.

10mH inductance coils

0.47mF capacitors