Block, Volcanic and Residual Mountains
Imagine you are a traveler exploring the vast landscapes of Earth. As you move through different terrains, you notice some mountains standing tall and rigid, split apart by deep valleys, while others rise dramatically from volcanic eruptions. Some appear old and worn down, as if time itself has chipped away at them.
These mountains, shaped by the forces of nature, can be classified into three major types:
- Block Mountains – born from Earth’s fractures, standing like giant blocks.
- Volcanic Mountains – fiery and dramatic, formed from the fury of eruptions.
- Residual Mountains – remnants of ancient landscapes, sculpted by erosion.
Let’s embark on a visual journey to understand how these mountains came into existence.
1. BLOCK MOUNTAINS
🔹 The Birth of Block Mountains
Imagine you are standing on a giant glass floor. If you suddenly push down on one side or pull apart two sections, cracks will form, and some pieces may rise or fall.
This is exactly what happens when the Earth’s crust undergoes faulting due to tensional or compressional forces.
🔹 How Does It Happen?
- The Earth’s crust is not a single solid piece but is divided into tectonic plates.
- Due to internal forces, sometimes these plates get stretched (tension) or squeezed (compression).
- This results in cracks (faults) forming in the crust.
- Some sections of land rise up, forming Block Mountains.
- Other sections sink down, forming rift valleys.
🔹 Examples of Block Mountains
- Vosges Mountains (France) and Black Forest (Germany)—both created due to faulting.
- Vindhyas and Satpuras (India)—formed due to crustal movements in the Indian subcontinent.
Note: In general, large scale Block Mountains & rift valleys are due to tension rather than compression
2. VOLCANIC MOUNTAINS: THE FIERY MONSTERS
Now, let’s travel to a volcanic island, where a massive mountain rises from the ocean. At its peak, a crater belches smoke and lava, shaping the land around it.
🔹 How Do Volcanic Mountains Form?
- These mountains are also called Mountains of Accumulation because they grow as lava piles up.
- When a volcano erupts, it releases molten rock (lava), ash, and gases.
- Over time, the lava cools and hardens, layer by layer, forming a mountain.
- This process can continue for thousands or even millions of years, making some of the tallest mountains on Earth.
🔹 Where Are They Found?
- Most volcanic mountains are found along tectonic plate boundaries, especially in the Pacific Ring of Fire, where frequent volcanic activity occurs.
🔹 Famous Volcanic Mountains
- Mount Fuji (Japan) – A sacred and iconic volcano.
- Mauna Loa (Hawaii, USA) – One of the largest volcanoes on Earth.
- Mount Mayon (Philippines) – Known for its near-perfect cone shape.
- Mount Cotopaxi (Ecuador) – One of the highest active volcanoes in the world.
💡 Analogy: Imagine you pour hot wax repeatedly on a surface. The wax cools and builds up over time, just like lava forming a volcanic mountain!
3. RESIDUAL MOUNTAINS: THE SURVIVORS OF TIME
Now, let’s move to an ancient landscape, where the once-mighty mountains have been slowly worn down by wind, water, and time.
🔹 How Do Residual Mountains Form?
- These mountains were once tall and imposing, but over millions of years, erosion has worn them down.
- The softer parts of the land eroded away, leaving behind harder rock structures.
- These remnants of old mountains are also called Mountains of Denudation.
🔹 Examples of Residual Mountains
- Nilgiri Hills (India) – A result of erosion over millions of years.
- Mount Monadnock (USA) – A classic example of an isolated erosion-resistant mountain.
- Hills of Peninsular India – The remains of ancient, worn-down mountains.
How Plate Tectonics Explains These Mountains
The Plate Tectonic Theory helps us understand why mountains form:
🔹 Block Mountains → Due to faulting in the crust (cracks formed by tectonic forces).
🔹 Volcanic Mountains → Due to magma from the mantle reaching the surface and accumulating.
🔹 Residual Mountains → Due to erosion wearing down old mountains over time.
