[
  // Coulomb's Law
  {
    "name": "Coulomb's Law",
    "description": r"""
Calculates the magnitude of the electrostatic force between two point charges.

Formula: $F = k \dfrac{q_1 q_2}{r^2}$ where $k = 8.9875517923\times10^9\ \mathrm{N\,m^2/C^2}$.

Inputs: $q_1$, $q_2$ in coulombs; $r$ in meters.
Output: Force `F` in newtons (N).""",
    "input": [
      {"name": "q1", "unit": "coulomb"},
      {"name": "q2", "unit": "coulomb"},
      {"name": "r", "unit": "meter"}
    ],
    "output": {"name": "F", "unit": "newton"},
    "d4rtCode": "F = (8.9875517923e9 * q1 * q2) / pow(r, 2);",
    "tags": ["physics", "electricity", "electrostatics"]
  },

  // Ohm's Law
  {
    "name": "Ohm's Law",
    "description": r"""
Relates voltage, current and resistance for a linear resistor.

Formula: $V = I\,R$.

Inputs: current `I` in amperes (A), resistance `R` in ohms (Ω).
Output: voltage `V` in volts (V).""",
    "input": [
      {"name": "I", "unit": "ampere"},
      {"name": "R", "unit": "ohm"}
    ],
    "output": {"name": "V", "unit": "volt"},
    "d4rtCode": "V = I * R;",
    "tags": ["physics", "electricity", "electronics"]
  },

  // Electric Power
  {
    "name": "Electric Power",
    "description": r"""
Calculates electrical power delivered to a load.

Formula: $P = V\,I$ (also $P = I^2 R$ or $P = V^2 / R$ when substituting Ohm's law).

Inputs: voltage `V` in volts (V), current `I` in amperes (A).
Output: power `P` in watts (W).""",
    "input": [
      {"name": "V", "unit": "volt"},
      {"name": "I", "unit": "ampere"}
    ],
    "output": {"name": "P", "unit": "watt"},
    "d4rtCode": "P = V * I;",
    "tags": ["physics", "electricity", "electronics"]
  }
]