01-08-2026, 12:46 PM
## Kepler’s Laws — Why Orbits Look the Way They Do
### 1. The Key Equation
Orbital period relation:
T² ∝ r³
---
### 2. What This Means
The farther a planet is from the Sun:
- the longer its orbit
- the slower it moves
---
### 3. Where It Comes From
This relationship emerges from gravity and orbital motion combined.
It was later explained fully by Newton.
---
### 4. What This Tells Us
- Orbits are predictable
- Gravity governs motion
- Nature follows simple mathematical rules
---
### 5. Real-World Applications
- Planetary motion
- Satellite timing
- Space mission planning
---
### 6. Common Misconceptions
- Orbits are perfect circles → false
- Faster orbits mean higher orbits → false
---
### Try It Yourself
Why does Mercury orbit much faster than Neptune?
### 1. The Key Equation
Orbital period relation:
T² ∝ r³
---
### 2. What This Means
The farther a planet is from the Sun:
- the longer its orbit
- the slower it moves
---
### 3. Where It Comes From
This relationship emerges from gravity and orbital motion combined.
It was later explained fully by Newton.
---
### 4. What This Tells Us
- Orbits are predictable
- Gravity governs motion
- Nature follows simple mathematical rules
---
### 5. Real-World Applications
- Planetary motion
- Satellite timing
- Space mission planning
---
### 6. Common Misconceptions
- Orbits are perfect circles → false
- Faster orbits mean higher orbits → false
---
### Try It Yourself
Why does Mercury orbit much faster than Neptune?