What are the steps in the weathering process?

What are the steps in the weathering process?

Physical Weathering

1. Exfoliation: When temperature of rocks rapidly changes that can expand or crack rocks.
2. Freeze-thaw: When water freezes, it expands.
3. Abrasion: When the wind blows, it can pick up sand and silt, and literally sandblast rocks into pieces.
4. Root Expansion: Like freeze thaw, roots grow bigger every year.

What are the 4 weathering processes?

With weathering, rock is disintegrated into smaller pieces. Once these sediments are separated from the rocks, erosion is the process that moves the sediments away from it’s original position. The four forces of erosion are water, wind, glaciers, and gravity.

What are 3 weathering processes?

There are three types of weathering, physical, chemical and biological.

What is the speed of weathering?

Moisture speeds up chemical weathering. Weathering occurs fastest in hot, wet climates. It occurs very slowly in hot and dry climates. Without temperature changes, ice wedging cannot occur.

What happens to sediment over time?

Over time, sediment accumulates in oceans, lakes, and valleys, eventually building up in layers and weighing down the material underneath. This weight presses the sediment particles together, compacting them. This process of compacting and cementing sediment forms sedimentary rock.

What are the 5 agents of weathering?

Water, ice, acids, salts, plants, animals, and changes in temperature are all agents of weathering.

What are the 3 types of chemical weathering?

The major reactions involved in chemical weathering are oxidation, hydrolysis, and carbonation. Oxidation is a reaction with oxygen to form an oxide, hydrolysis is reaction with water, and carbonation is a reaction with CO2 to form a carbonate.

What determines the rate of weathering?

Rainfall and temperature can affect the rate in which rocks weather. High temperatures and greater rainfall increase the rate of chemical weathering. Rocks in tropical regions exposed to abundant rainfall and hot temperatures weather much faster than similar rocks residing in cold, dry regions.

Which rock weathers most slowly?

Certain types of rock are very resistant to weathering. Igneous rocks, especially intrusive igneous rocks such as granite, weather slowly because it is hard for water to penetrate them. Other types of rock, such as limestone, are easily weathered because they dissolve in weak acids.

Where does chemical weathering of silicate-bearing rocks occur?

The most intense chemical weathering of silicate-bearing rocks instead occurs where temperatures are well above freezing for prolonged periods and rainfall is high, conditions that are especially satisfied in the Tropics – where deeply weathered profiles can extend down from the ground surface to well over a hundred metres depth.

How do silicate materials weather?

Silicates weather via rather more complex reactions, but let’s simplify things with a generalised equation for the process using the calcium silicate CaSiO 3, which occurs naturally as the mineral wollastonite: carbon dioxide + water + calcium silicate = calcium ions + bicarbonate ions + silicic acid (in solution)

What are some examples of sulphide weathering?

Sulphides readily weather in the surface or near-surface environment, so that most ore-deposits have near-surface zones in which the products of primary sulphide weathering – the secondary minerals – are to be found. The copper carbonates, azurite and malachite, are examples of secondary minerals that will be familiar to most readers.