WHAT IS IT?
UNITS & SYMBOLS
WATER‑PIPE ANALOGY
OHM’S LAW RULES
REAL‑WORLD CIRCUITS
100

This is defined as the flow or movement of electric charge.

Electricity

100

Standard unit used to measure voltage.

Volt (V)

100

Voltage matches this water property.

Pressure

100

If R stays same, V increases → I does this.

Increases

100

Thin, high‑resistance wire inside a bulb.

Filament

200

Term for the “electrical push” or pressure that makes charges move.

Voltage

200

 Letter symbol used in formulas for current.

I

200

Current matches this water property.

Flow rate / amount moving

200

Rearrange V = I×R to solve for R.

 R = V ÷ I

200

Why are connecting wires made low‑resistance?

So current flows easily & less energy lost

300

The amount or rate of charge passing through a point every second.

Electric Current

300

Full name and symbol for resistance’s measurement unit.

Ohm (Ω)

300

Resistance matches this pipe feature. 

Narrowness / friction / blockage

300

Rearrange V = I×R to solve for I.

I = V ÷ R

300

Component added on purpose to limit current.

Resistor

400

Any property or part that slows or opposes charge flow.

Resistance

400

Unit of Electric current

Ampere

400

Same pipe size, higher water pressure → what happens to flow?

It increases / more flow

400

12 V, 4 Ω → find current.

3 A

400

Wire directly across battery, almost zero resistance → dangerous?

Short circuit / very high current / overheat

500

Negatively‑charged tiny particles that actually move inside wires.

Electrons

500

Formula form of Ohm’s Law.

V = I × R

500

Same pressure, pipe becomes much narrower → result for resistance and current?

Resistance rises, current or flow decreases

500

6 V vs 12 V, same wire/resistance → how much more current?

Twice as much / 2×

500

How does resistance make a bulb light?

Opposes electrons → energy changes to heat & light