IAS Prelims Geography Q.16 – 2024 | Atmospheric Dynamics: Coriolis Force
Authentic Classroom Explanation by IAS Monk
📍 The Question
With reference to the Coriolis force, which of the following statements is/are correct?
- It increases with increase in wind velocity.
- It is maximum at the poles and is absent at the equator.
Select the correct answer using the code given below:
(a) 1 only
(b) 2 only
(c) Both 1 and 2
(d) Neither 1 nor 2
Correct Answer: (c) Both 1 and 2
🎯 Theme of the Question
Physical Geography | Climatology | Wind Systems | Earth’s Rotation
This is a core conceptual question testing understanding of how Earth’s rotation influences wind direction.
🧠 Classroom Explanation
Let us examine each statement carefully.
🔹 Statement 1: Coriolis force increases with increase in wind velocity. ✅
- Coriolis force depends on:
- Speed of the moving air
- Latitude
- Earth’s rotation
- Faster winds experience greater deflection
- Slow-moving air shows minimal Coriolis effect
✔️ Statement 1 is correct
🔹 Statement 2: Coriolis force is maximum at the poles and absent at the equator. ✅
- Coriolis force is directly proportional to latitude
- At the equator (0°):
- Deflective force = zero
- Towards the poles (90°):
- Deflection reaches maximum
✔️ Statement 2 is correct
📊 Final Assessment
| Statement | Status |
|---|---|
| Increases with wind speed | ✅ Correct |
| Maximum at poles, zero at equator | ✅ Correct |
👉 Correct answer: (c)
🧠 Now, let us EXPLAIN THE IMAGE (very important)
The diagram you uploaded shows three key ideas simultaneously. I’ll decode it layer by layer.
🔁 1. Earth’s Rotation → Coriolis Force
- Earth rotates west to east
- Any freely moving object (wind, ocean current) appears to deflect due to this rotation
- This apparent deflection is called Coriolis force
🌍 2. Direction of Deflection (Shown by Arrows)
Northern Hemisphere
- Winds deflect to the RIGHT of their path
Southern Hemisphere
- Winds deflect to the LEFT of their path
This is clearly shown in the diagram with curved arrows.
📍 3. Latitude-wise Variation (Percentages in the diagram)
- 0% at the Equator (0°)
→ No Coriolis force
→ Winds move straight, perpendicular to isobars - Increasing effect at 30°, 60°
→ Deflection increases with latitude - 100% at the Poles (90°)
→ Maximum Coriolis force
→ Strongest deflection
This explains the “Maximum at pole” label in the image.
🧭 4. Interaction with Pressure Gradient Force
- Pressure Gradient Force (PGF):
- Pushes air from high pressure to low pressure
- Acts perpendicular to isobars
- Coriolis Force:
- Acts perpendicular to wind direction
Together, they cause:
- Winds to circulate around pressure systems
- Instead of moving straight into low pressure
This is why:
- Winds spiral around cyclones
- Anticyclones rotate in opposite directions in each hemisphere
🌪️ 5. Why Cyclones Do NOT Form at the Equator
From the diagram:
- At the equator → Coriolis force = 0
- Winds move straight into low pressure
- Low pressure gets filled, not intensified
👉 Hence:
Tropical cyclones do not form near the equator
This is a very common UPSC linkage.
🧩 Memory Hooks (Exam Gold)
- “Fast wind → more bend”
- “No Coriolis, no cyclone”
- Right in North, Left in South”
🧠 Prelims Strategy Insight
For Coriolis-based questions, always check:
- Wind speed
- Latitude
- Hemisphere
- Interaction with pressure gradient
If all four align → answer is clear.
🧭 IAS Monk Whisper
The wind thinks it moves straight — Earth gently proves it wrong.