⚡ Electricity & Circuits

Ohm's Law
Virtual Experiment

Vary voltage and resistance, watch current change in real time, take readings in the observation table, and plot a live V–I graph to verify that V = IR.

V = IR Virtual Lab FYUGP Physics
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Live Circuit Diagram
Ammeter in series · Voltmeter in parallel
🎛️
Controls
Adjust voltage and select resistance
V = I × R
Ohm's Law — voltage, current, resistance
Voltage
0.0
Volts (V)
Current
0.00
Amperes (A)
Resistance
10
Ohms (Ω)
Supply Voltage
Voltage (V) 0.0 V
Select Resistor
Resistor R₁
5 Ω
Resistor R₂
10 Ω
Resistor R₃
20 Ω
Resistor R₄
50 Ω
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Observation Table
Recorded V, I and calculated R readings
Sl. Resistor Voltage V (V) Current I (A) R = V/I (Ω) Delete
No readings yet. Set voltage, select resistor and click "Take Reading".
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V–I Graph
Straight line → Ohm's Law verified
Resistor (active)
Verification Result
Based on recorded readings
Take at least 3 readings to see the verification result.
Theory & Notes
📖 What is Ohm's Law?

Ohm's Law states that the electric current flowing through a metallic conductor is directly proportional to the potential difference applied across its ends, provided the physical conditions (temperature, pressure) remain constant.

V = I × R

Where V = Potential difference (Volts), I = Current (Amperes), R = Resistance (Ohms Ω).

Named after German physicist Georg Simon Ohm (1789–1854), who published the relationship in 1827.

🔌 Circuit Connections

In the Ohm's Law experiment, components are connected as follows:

  • Ammeter — in series with the resistor
  • Voltmeter — in parallel across the resistor
  • Battery/Power supply — provides variable EMF
  • Rheostat/Variable resistance — controls current

An ideal ammeter has zero resistance; an ideal voltmeter has infinite resistance.

📐 V–I Graph Analysis

Plot V on the Y-axis and I on the X-axis.

  • If the graph is a straight line through the origin → Ohm's Law is verified
  • The slope = V/I = R (resistance)
  • Steeper slope → higher resistance
  • A curved graph → non-ohmic conductor (e.g. diode, bulb filament)

Use the compare option to plot two resistors on the same graph and observe the different slopes.

⚠️ Precautions
  • Connections should be neat and tight
  • Ammeter must be in series only
  • Voltmeter must be in parallel only
  • Always start from minimum voltage
  • Do not exceed the rated current of the ammeter
  • The key should be opened when not taking readings
  • Take readings quickly to avoid heating of resistor
  • At least 5–6 readings should be taken for a reliable graph
🧮 Derivations & Related Formulas
Current from V and R:
I = V / R
Resistance from V and I:
R = V / I
Resistors in Series:
Rtotal = R₁ + R₂ + R₃
Resistors in Parallel:
1/R = 1/R₁ + 1/R₂
Power Dissipated:
P = V × I = I²R = V²/R
Resistivity:
R = ρL / A