Franklin
~1755: lowered a charged ball into an electrified can; it felt no pull from the walls. Puzzled him.
first glimpse
Faraday
1836: built a foil-lined room, blasted it with charge, sat inside measuring zero. Named for him.
the proof
The conductor
Any metal shell. Its free charges rush to the surface and cancel the field within.
does the work
The interior
The shadowed, field-free space — the prize the whole thing protects.
the quiet
01Franklin's can
He lowered a cork ball on silk into a charged metal can — and inside, it felt no attraction at all.
when ~1755 · Philadelphia
saw the inside of a charged conductor seems to carry no force.
+1 Franklin reported it as a curiosity he couldn't fully explain — the observation came decades before the theory.
02The ice-pail echo
Faraday's later "ice-pail experiment" pinned down where the charge actually sits.
tool a metal pail · a charged ball · an electroscope
showed the induced charge lives on the outer surface, exactly mirroring the charge inside.
+1 it proved charge is conserved and redistributed, not created — a cornerstone of electrostatics.
03The 1836 cage
Faraday lined a whole room with metal foil and hit the outside with an electrostatic machine.
tool a foil room · a high-voltage generator · himself + instruments
found the discharge stayed on the skin; instruments inside read nothing.
+1 he trusted the principle enough to sit inside while it was blasted — the experiment was also an act of nerve.
04Why his name
Franklin saw it; Faraday explained it and proved it inside a full theory of fields.
why systematic demonstration beats a lone curiosity
so the effect carries Faraday's name, not Franklin's.
+1 credit in science tends to land on whoever makes a result repeatable and explained, not whoever first noticed it.
05Not shielding — physics
Faraday wasn't trying to invent a shield. He was probing what electricity is.
question does charge act at a distance, or through matter?
answer it rearranges the charges in matter — the field is local and real.
+1 the shielding we use everywhere today was a by-product of pure curiosity about nature.
06The field idea
The cage was evidence for Faraday's radical notion: space around charges is filled with a field.
idea lines of force, not action-at-a-distance
led to Maxwell, who turned Faraday's pictures into equations.
+1 Faraday couldn't do the math — Maxwell formalized his intuitions a generation later.
07Equilibrium
Leave a charged conductor alone and it settles so the inside field is exactly zero.
state electrostatic equilibrium
means no net field can persist inside a closed conductor at rest.
+1 if any field remained inside, the free charges would still be moving — so "at rest" forces it to zero.
08Charge on the skin
All the excess charge ends up on the outer surface — none in the bulk or the cavity.
rule like charges repel to the farthest reach
so they spread to the outside and leave the interior clean.
+1 this is why touching the inside of a charged hollow sphere is safe while the outside crackles.
workbench series · no. 0 · Franklin glimpsed it, Faraday proved it · the shell does the work