External Land Forming Processes

Introduction and Definition of Weathering
Agents of Weathering

By the end of the lesson, the learner should be able to:
Define weathering as process of rock breakdown in situ
Explain denudation as collective term for external processes
Distinguish between weathering and other external processes
Identify weathering agents: heat, water, dissolved substances, plants and animals

Q/A session reviewing internal land forming processes from Form Two; Exposition of denudation concept and external processes; Definition of weathering and regolith formation; Discussion of weathering agents and their effects on rocks

Charts showing external vs internal processes, Rock samples showing weathering effects, Diagrams of weathering agents
Rock samples, Temperature demonstration materials, Water pH testing materials, Examples of plant root damage to rocks

Secondary Geography Form 3 Student's Book, Pages 41-42

External Land Forming Processes

Factors Influencing Weathering

By the end of the lesson, the learner should be able to:
Explain how climate elements influence weathering rates
Analyze role of plants and animals in weathering processes
Describe how relief affects weathering on different slopes
Examine chemical composition effects: color differences and mineral composition

Brain storming on weathering factors; Discussion of climatic elements: sunshine, rain, frost, temperatures; Analysis of plant and animal contributions; Study of relief influence on weathering rates; Examination of rock color absorption and mineral composition effects

Climate charts, Relief diagrams, Rock samples of different colors and compositions, Examples from highland and lowland areas

Secondary Geography Form 3 Student's Book, Pages 44-45

External Land Forming Processes

Rock Structure, Texture and Physical Weathering Introduction

By the end of the lesson, the learner should be able to:
Explain rock structure as mode of jointing and planes of weakness
Describe texture as crystal size and its weathering effects
Define mechanical weathering as disintegration without chemical changes
Identify areas where physical weathering is common

Exposition of rock structure using Figures 3.1(a), (b) showing spheroidal weathering; Discussion of jointing patterns and resulting weathering types; Analysis of crystal size effects on weathering rates; Introduction to mechanical weathering in vegetation-free areas

Figures 3.1(a), (b), Rock samples showing different crystal sizes, Examples from Bunyore, Seme Hills, Sang'alo areas

Secondary Geography Form 3 Student's Book, Pages 45-47

External Land Forming Processes

Physical Weathering Processes - Block Disintegration and Exfoliation
Physical Weathering - Granular Disintegration, Frost Action and Crystal Growth

By the end of the lesson, the learner should be able to:
Describe block disintegration through temperature changes and diurnal ranges
Explain exfoliation as peeling off of rock surfaces
Identify formation of exfoliation domes
Analyze conditions leading to these weathering processes

Detailed discussion of block disintegration using Figure 3.3; Analysis of desert temperature conditions and rock expansion/contraction; Study of exfoliation process using Figure 3.4; Examination of exfoliation dome formation using Figure 3.5

Figure 3.3 rock blocks, Figures 3.4 and 3.5 exfoliation examples, Temperature demonstration materials, Examples from desert regions
Figure 3.6 granular disintegration, Figure 3.7 frost action, Figure 3.8 Ol Njorowa Gorge, Examples from East African mountains

Secondary Geography Form 3 Student's Book, Pages 47-48

External Land Forming Processes

Physical Weathering - Slaking and Pressure Release

By the end of the lesson, the learner should be able to:
Describe slaking as water uptake and loss in clay-containing rocks
Explain pressure release or unloading in exposed rocks
Identify areas experiencing these weathering processes
Analyze sheeting effects in granitic rocks

Discussion of slaking process in clay rocks during wet and dry seasons; Analysis of coastal Jurassic rocks examples: Miritini, Tudor, Port Reitz; Explanation of pressure release as denudation removes overlying rocks; Study of sheeting in granitic areas: Nyika plateau, Machakos, Maragoli, Bunyore

Examples from coastal Kenya, Granitic rock samples, Areas experiencing pressure release, Activity 3.4 practical demonstration

Secondary Geography Form 3 Student's Book, Pages 50-51

External Land Forming Processes

Chemical Weathering Processes - Solution and Hydrolysis
Chemical Weathering - Oxidation, Carbonation and Hydration

By the end of the lesson, the learner should be able to:
Define chemical weathering as actual decay involving chemical reactions
Explain solution affecting rocks with soluble minerals
Describe hydrolysis as major process in feldspar decay
Analyze chemical equations and products of hydrolysis

Exposition of chemical weathering in humid climates; Discussion of solution process and salt pan formation; Detailed analysis of hydrolysis chemical equation; Study of feldspar breakdown products: clay minerals, potassium carbonate, silica; Examples from North Eastern Kenya, Etosha Pan, Makgadikgadi

Chemical equation charts, Examples of salt pans, Rock samples containing feldspar, Areas showing hydrolysis: Wundanyi, Bunyore
Chemical equation demonstrations, Rock samples showing oxidation effects, Limestone samples, Examples of spheroidal weathering in basalt

Secondary Geography Form 3 Student's Book, Pages 51-53

External Land Forming Processes

Chemical Weathering Results and Biological Weathering

By the end of the lesson, the learner should be able to:
Identify formation of tors through deep weathering processes
Explain biological weathering through plant action
Describe animal contributions to weathering
Analyze human activities causing weathering

Analysis of tor formation using Figure 3.9; Study of examples: Bunyore, Maragoli, Amukura, Taita Hills, Lukenya, Mavoloni; Detailed discussion of tree root action using Figure 3.10; Examination of plant chemical contributions: algae, mosses, lichen; Analysis of animal effects: cattle pressure, burrowing, chemical excretions

Figure 3.9 tors examples, Figure 3.10 tree root action, Examples of biological weathering in local environment, Human activity examples

Secondary Geography Form 3 Student's Book, Pages 56-58

External Land Forming Processes

Biological Weathering - Human Activities and Significance of Weathering

By the end of the lesson, the learner should be able to:
Identify human activities causing weathering: deforestation, blasting, industrialisation
Explain acid rain effects from industrial emissions
Analyze burning and irrigation contributions to weathering
Discuss significance of weathering in soil formation, construction, tourism and economics

Study of human weathering activities using Figure 3.11 quarrying; Discussion of industrialisation effects: Carbon IV Oxide, sulphur dioxide emissions; Analysis of acid rain formation and corrosive effects; Examples from Copper Belt Zambia, Webuye Kenya; Study of agricultural burning and irrigation effects

Figure 3.11 quarrying, Examples of industrial weathering, Acid rain demonstration materials, Local examples of human-induced weathering

Secondary Geography Form 3 Student's Book, Pages 58-60

External Land Forming Processes
ACTION OF WIND AND WATER IN ARID AREAS
ACTION OF WIND AND WATER IN ARID AREAS

Significance of Weathering and Economic Importance
Definition of Terms and Types of Deserts
Wind Erosion Processes

By the end of the lesson, the learner should be able to:
Explain weathering importance in soil formation processes
Describe weathering role in quarrying and construction industries
Identify weathering creating tourist attractions
Analyze economic products from weathering: bauxite, kaolite, clay

Exposition of weathering as initial stage in soil formation; Discussion of quarrying importance for building and construction; Analysis of tourist attractions: Kit Mikayi, Crying Stone using Figure 3.12; Study of economic products: bauxite from hydrolysis, kaolite from granite rotting, clay for pottery and bricks

Figure 3.12 Crying Stone of Kakamega, Examples of weathering tourist sites, Economic product samples, Engineering consideration examples
Chalkboard, world map, atlas, exercise books
Sand, small container, chalkboard, chalk, exercise books

Secondary Geography Form 3 Student's Book, Pages 60-61

ACTION OF WIND AND WATER IN ARID AREAS

Wind Erosion Features - Small Scale
Wind Erosion Features - Large Scale
Wind Transportation and Deposition

By the end of the lesson, the learner should be able to:
Describe formation of "millet seed" sand grains, rock pedestals (gours), and ventifacts. Explain undercutting and abrasion effects up to 2 meters above ground. Include dreinkanter formation.

Drawing formation diagrams of small-scale erosional features on chalkboard. Discussion of differential erosion on hard and soft rocks. Students sketch feature formation stages.

Chalkboard, chalk, exercise books, small stones for demonstration
Chalkboard, chalk, exercise books, atlas
Sand, fan or strong breath, chalkboard, chalk, exercise books

KLB Secondary Geography Form 3, Pages 153-155

ACTION OF WIND AND WATER IN ARID AREAS

Sand Dunes - Barchans and Seif Dunes
Other Dune Types, Draas, and Loess
Water Action in Arid Areas - Wadis and Inselbergs

By the end of the lesson, the learner should be able to:
Describe barchan formation around obstacles creating crescent shapes. Explain seif dune development as parallel ridges aligned with prevailing winds. Give examples from Sahara, Arabian deserts, and Kenya (Lamu, Chalbi).

Drawing detailed barchan and seif dune formation diagrams on chalkboard. Discussion of wind direction effects on dune shapes. Students model dune formation with sand.

Sand, small obstacles, chalkboard, chalk, exercise books
Chalkboard, chalk, exercise books, world map
Chalkboard, chalk, exercise books, pictures from textbook

KLB Secondary Geography Form 3, Pages 157-159

ACTION OF WIND AND WATER IN ARID AREAS

Pediments, Pediplains, and Plateau Features
Water Deposition Features and Dry Valleys

By the end of the lesson, the learner should be able to:
Explain pediment formation as gently sloping rock surfaces through lateral planation or slope retreat. Describe pediplain development through coalescence of pediments. Explain mesa and butte formation from resistant-capped plateaus.

Drawing pediment and pediplain formation sequences on chalkboard. Discussion of differential erosion on sedimentary rocks. Students analyze plateau evolution stages.

Chalkboard, chalk, exercise books, textbooks
Maps of Kenya, chalkboard, chalk, exercise books

KLB Secondary Geography Form 3, Pages 161-163

ACTION OF WIND AND WATER IN ARID AREAS

Significance of Arid Features

By the end of the lesson, the learner should be able to:
Explain positive significance: solar energy potential, mineral resources, tourism attractions, unique ecosystems. Describe negative impacts: sand dune migration, agricultural threats, water scarcity challenges, settlement difficulties.

Discussion of arid area opportunities and challenges with global and local examples. Analysis of Kenya's ASAL development potential and problems. Students evaluate significance balance.

Chalkboard, chalk, exercise books, pictures of solar panels

KLB Secondary Geography Form 3, Pages 164-165

Action of Water in Limestone Areas

Surface and Underground Water

By the end of the lesson, the learner should be able to:
Describe processes leading to surface and underground water. Distinguish between surface and underground water types. Identify sources of underground water including rain, snow melt, lake/sea water, and magmatic water. Define water table, aquifer and aquifuge. Explain factors affecting occurrence of underground water.

Q/A to review hydrological cycle processes. Exposition on underground water as "body of water derived from percolation and contained in soil, sub-soil and underlying rocks above impermeable layer". Discussion on surface water types and saltiness from weathering. Detailed explanation of water infiltration through permeable rocks and joints/faults. Discussion on factors affecting occurrence including precipitation, evaporation, porosity, permeability, slope, vegetation, saturation levels, evapotranspiration.

Charts showing water sources, Rock samples, Diagrams of percolation and water table, Transparent containers

KLB Secondary Geography Form 3, Pages 166-170

Action of Water in Limestone Areas

Features Resulting from Underground Water
Importance of Underground Water

By the end of the lesson, the learner should be able to:
Identify features resulting from underground water: springs, wells, artesian basins and wells. Describe spring formation in well-jointed limestone, at scarp slopes, and spring-lines. Explain well construction and distinguish permanent, intermittent and dry wells. Define artesian basin structure and conditions for artesian well location.

Exposition on springs as "natural outflow of water from rocks" with formation methods in limestone areas. Discussion on bournes as intermittent streams in chalk areas. Explanation of wells as "holes sunk into permeable rock to reach water table" using textbook diagrams. Detailed discussion on artesian basin structure and examples including London Basin, Great Australian Basin, Sahara, Kalahari.

Topographical maps, Geological cross-sections, Textbook diagrams, 3D models, World maps
Photographs of key sites, Maps of Kenya, Case study materials, Charts showing applications

KLB Secondary Geography Form 3, Pages 170-172

Action of Water in Limestone Areas

Action of Water in Limestone Areas and Resultant Features

By the end of the lesson, the learner should be able to:
Define karst as area with limestone, chalk or dolomite. Explain chemical processes forming carbonic acid and calcium bicarbonate. Identify conditions for karst development. Describe surface features: grikes/clints, swallow holes, dolines, uvalas, poljes, gorges. Describe underground features: caves, underground rivers, stalactites, stalagmites, limestone pillars.

Q/A to review limestone characteristics from Form 1. Exposition on karst origin and chemical equations. Discussion on development conditions including jointed rocks, humid climate, deep water table. Progressive explanation of surface features using textbook diagrams and formation table. Exposition on underground features with stalactite/stalagmite formation processes. Examples from various countries including Kenya's Marafa Cave.

Limestone samples, Weak acids, Sequential diagrams, Clay for modeling, Salt solution setup, Cave photographs, Safety equipment

KLB Secondary Geography Form 3, Pages 172-178

Action of Water in Limestone Areas
Glaciation

Significance of Resultant Features
Definition of Terms

By the end of the lesson, the learner should be able to:
Explain significance of karst landscape features to humankind and countries. Analyze positive and negative impacts of karst features. Evaluate economic importance of limestone areas including tourism, water supply challenges, industrial uses, grazing potential.

Probing questions on karst landscape significance. Detailed discussion on significance aspects including tourism attractions like caves and gorges, solution lakes providing water sources, water scarcity due to intermittent streams, infrastructure development challenges, limestone use in iron/steel industry, grazing suitability for sheep, cement production like Bamburi and Athi River factories, environmental management challenges. Q/A on sustainable use of limestone resources. Topic assessment.

Economic charts, Photographs of industries, Tourism materials, Infrastructure maps, Assessment worksheets
Charts showing snowline variations, Diagrams of ice formation, Maps showing ice distribution, Safety materials

KLB Secondary Geography Form 3, Pages 178-179

Glaciation

Types of Glaciers and Ice Masses

By the end of the lesson, the learner should be able to:
Distinguish between valley and piedmont glaciers. Define ice sheets and ice caps. Identify African glacier examples. Describe nunataks.

Exposition on glacier types with African examples. Discussion on ice sheet characteristics and global distribution. Explanation of ice cap types and locations. Reference to textbook glacier table showing major examples worldwide. Group work identifying glacier locations on maps.

Glacier example tables, World maps, Photographs of mountain glaciers, Distribution charts

KLB Secondary Geography Form 3, Pages 182-183

Glaciation

Icebergs and Ice Movement

By the end of the lesson, the learner should be able to:
Define icebergs and explain their formation. Describe iceberg distribution. Explain three ways ice moves. Analyze factors affecting ice movement speed.

Exposition on iceberg formation and distribution. Discussion on iceberg movement by ocean currents. Explanation of ice movement mechanisms including freeze-thaw action, basal slip, and extrusion flow. Analysis of movement speed factors and rates. Comparison of different glacier movement speeds.

World maps showing icebergs, Ocean current charts, Movement mechanism diagrams, Speed comparison data

KLB Secondary Geography Form 3, Pages 183-184

Glaciation

Processes of Glaciation
Glacial Features and Significance

By the end of the lesson, the learner should be able to:
Explain glacial erosion through plucking and abrasion. Identify factors influencing erosion. Describe glacial transportation and moraine types.

Discussion on glacial erosion processes of plucking and abrasion. Analysis of factors affecting erosion effectiveness. Explanation of glacial transportation and moraine classification. Reference to textbook diagrams showing moraine types. Q/A on glacial processes and debris movement.

Rock samples, Process diagrams, Moraine type charts, Glacial debris photographs
Formation diagrams, Feature photographs, Economic impact charts, Maps showing benefits, East African examples

KLB Secondary Geography Form 3, Pages 184-186

Soil

Definition and Composition of Soil

By the end of the lesson, the learner should be able to:
Define soil and its components. Distinguish between soil and land. Explain soil composition percentages and constituent importance.

Q/A to review weathering concepts. Exposition on soil definition and regolith formation. Discussion on soil composition including organic matter, inorganic matter, water, air percentages. Analysis of humus importance for plant nutrition.

Soil samples, Composition diagrams, Constituent charts, Microscopes

KLB Secondary Geography Form 3, Pages 198-200

Soil

Soil Forming Processes
Factors Influencing Soil Formation

By the end of the lesson, the learner should be able to:
Explain soil formation through weathering and decomposition. Describe leaching processes including ferralisation, eluviation, podzolisation, calcification.

Discussion on weathering as primary formation process. Exposition on decomposition stages: mineralisation and humification. Explanation of leaching types with climatic examples. Reference to formation diagrams.

Rock samples, Decomposition diagrams, Leaching process charts, Formation illustrations
Parent rock samples, Climate charts, Vegetation specimens, Maps, Time examples

KLB Secondary Geography Form 3, Pages 200-203

Soil

Properties and Profile

By the end of the lesson, the learner should be able to:
Describe soil properties and structure types. Define soil profile and horizons. Explain soil catena formation.

Discussion on soil structure, texture, acidity, colour, porosity. Explanation of profile as vertical layer arrangement with horizons A-D. Description of catena as slope arrangement and formation processes.

Soil structure samples, pH materials, Colour charts, Profile diagrams, Catena illustrations

KLB Secondary Geography Form 3, Pages 205-209

Soil

Soil Degeneration and Erosion

By the end of the lesson, the learner should be able to:
Define soil degeneration and classify types. Describe erosion types and processes. Identify conditions favouring soil erosion.

Exposition on degeneration types: physical, chemical, biological with causes. Discussion on erosion processes from splash to gully formation. Analysis of erosion factors with Kenyan examples.

Erosion photographs, Degeneration charts, Local examples, Process diagrams

KLB Secondary Geography Form 3, Pages 209-214

Soil
AGRICULTURE
AGRICULTURE

Classification and Management
Introduction and Definition of Agriculture
Physical Factors: Climate

By the end of the lesson, the learner should be able to:
Classify soils by order: zonal, intrazonal, azonal. Describe major soil types and their characteristics. Explain soil management and conservation methods.

Exposition on soil classification based on formation conditions. Discussion on major Kenyan soil types and distribution. Analysis of management techniques and conservation methods. Examples of Kenyan conservation practices.

Classification charts, Distribution maps, Conservation photographs, Practice examples
Charts showing agricultural activities, Pictures of crops and livestock, Map of Kenya
Maps showing climate zones, Rainfall charts, Pictures of crops, Thermometers

KLB Secondary Geography Form 3, Pages 214-228

AGRICULTURE

Physical Factors: Relief and Soil
Biotic and Human Factors
Types of Agriculture: Simple Subsistence and Sedentary Agriculture

By the end of the lesson, the learner should be able to:
Describe relief types; Explain lowland cultivation advantages; Analyze soil composition and weathering; Evaluate soil properties

Q/A on relief and mechanization; Study lowland advantages in Monsoon Asia; Examine soil formation from rocks; Discuss hygroscopic water and temperature

Soil samples, pH testing materials, Maps of Pampas and Prairies, Terraced farming pictures
Pictures of pests, Insect specimens, Wilson Airport maps, Price charts
Maps of tropical lands, Slash-and-burn pictures, Farming systems diagrams

KLB Secondary Geography Form 3, Pages 236-238

AGRICULTURE

Intensive Subsistence Agriculture and Plantation Agriculture
Mediterranean Agriculture, Mixed Farming, and Livestock Farming
Distribution of Major Cash Crops in Kenya

By the end of the lesson, the learner should be able to:
Describe intensive subsistence in Monsoon Asia; Explain wet padi cultivation; Define plantation agriculture; Identify plantation crops

Study oriental agriculture; Analyze farm sizes and cropping; Study of plantation areas; Discuss foreign ownership

Monsoon Asia maps, Rice terraces pictures, Plantation distribution charts
Mediterranean maps, Olive grove pictures, Crop combination charts
Figure 13.7 map, Cash crop pictures, Colonial agriculture photos

KLB Secondary Geography Form 3, Pages 244-248

AGRICULTURE

Tea Farming in Kenya
Tea Marketing and Sugar-cane Farming

By the end of the lesson, the learner should be able to:
Identify tea growing highlands; Explain growing conditions (21°C, 1000-2000mm, 1000-1700m); Describe cultivation and processing

Study Figure 13.8 tea areas; Discuss tea varieties; Analyze cultivation process; Step-by-step processing at 100°C

Figure 13.8 map, Plantation pictures, Processing flow chart, Tea samples
KTDA charts, Figure 13.10 map, Factory pictures, Processing diagrams

KLB Secondary Geography Form 3, Pages 253-257

AGRICULTURE

Maize Growing and Cocoa in Ghana

By the end of the lesson, the learner should be able to:
Identify maize areas and Katumani variety; Describe growing conditions; Identify Ghana cocoa triangle; Explain cocoa conditions

Study Figure 13.14 maize areas; Discuss Portuguese introduction; Analyze Ghana cocoa using Figure 13.15; Cocoa processing to export

Figure 13.14 map, Maize pictures, Figure 13.15 Ghana map, Processing charts

KLB Secondary Geography Form 3, Pages 262-270

AGRICULTURE

Oil Palm in Nigeria and Coffee Farming

By the end of the lesson, the learner should be able to:
Describe oil palm areas and conditions; Identify coffee regions in Kenya; Explain growing conditions and processing

Study oil palm distribution; Analyze tenera variety yields; Coffee processing steps; Compare with Brazil's Fazendas

Oil palm pictures, Figure 13.18 coffee map, Processing charts, pH testing materials

KLB Secondary Geography Form 3, Pages 270-283

AGRICULTURE

Wheat Growing and Horticulture
Pastoral Farming and Dairy Farming

By the end of the lesson, the learner should be able to:
Identify wheat areas and conditions; Compare with Canada's advantages; Define horticulture; Identify horticultural areas

Study Figure 13.20 wheat areas; Analyze Canadian Prairie advantages; Discuss horticultural companies; Export market analysis

Figure 13.20 map, Harvester pictures, Figure 13.25 horticulture map, Export charts
Figure 13.29 map, Pastoral pictures, Table 13.1, Cattle breed photos

KLB Secondary Geography Form 3, Pages 283-299

AGRICULTURE

Beef Farming and Agricultural Fieldwork

By the end of the lesson, the learner should be able to:
Compare traditional and commercial beef farming; Describe Argentina's Pampas system; Plan agricultural fieldwork

Analyze KMC operations; Study Argentine estancias; Discuss Kaputiei Scheme; Practice fieldwork planning

Cattle breed pictures, Figure 13.40 Pampas map, Sample questionnaires, Data sheets

KLB Secondary Geography Form 3, Pages 313-327