LAKES

Definition of a Lake

By the end of the lesson, the learner should be able to:
Define a lake as a large mass of water occupying a depression. Distinguish between fresh water and salt water lakes. Explain reasons for lake salinity including lack of outlets, high evaporation, and underground salt sources.

Q/A to review hydrological cycle and water bodies. Discussion of lake characteristics with examples from Kenya. Listing fresh vs salt water lakes on chalkboard.

Chalkboard, textbooks, wall map of Kenya

KLB Secondary Geography Form 3, Pages 99-100

LAKES

Lakes Formed by Tectonic Movements - Rift Valley Lakes
Lakes Formed by Tectonic Movements - Downwarped Lakes

By the end of the lesson, the learner should be able to:
Describe formation of faulted/rift valley lakes through earth movements. Explain characteristics: narrow, steep-sided, alkaline, long, deep. Give examples from Kenya (Turkana, Baringo, Nakuru, Naivasha) and other African rift valleys.

Drawing rift valley formation diagrams on chalkboard. Discussion of Kenyan Rift Valley lakes with their characteristics. Students copy diagrams in exercise books.

Chalkboard, chalk, exercise books, wall map of East Africa
Chalkboard, chalk, exercise books, atlas

KLB Secondary Geography Form 3, Pages 100-102

LAKES

Lakes Formed by Volcanic Activity
Lakes Formed by Glaciation
Lakes Formed by River and Wave Deposition

By the end of the lesson, the learner should be able to:
Describe crater lake formation in volcanic craters. Explain lava dammed lake formation when lava blocks river courses. Give examples: crater lakes (Simbi, Paradise, Chala) and lava dammed lakes (Bunyonyi, Kivu, Tana).

Drawing crater lake formation on chalkboard. Discussion of lava dam formation across rivers. Students sketch volcanic lake types in exercise books.

Chalkboard, chalk, exercise books, textbooks
Chalkboard, chalk, exercise books, atlas
Basin, clay/soil, water, chalkboard, chalk, exercise books

KLB Secondary Geography Form 3, Pages 103-106

LAKES

Other Lake Types - Wind Erosion, Solution, and Human-made
Landslide and Meteorite Lakes

By the end of the lesson, the learner should be able to:
Describe wind erosion lakes through deflation to water table. Explain solution lakes in limestone areas (sink holes). Identify human-made lakes behind dams (Masinga, Volta, Kariba, Nasser).

Discussion of oasis formation through wind erosion. Explanation of solution processes in limestone using chalk demonstration. Review of major African dams and their lakes.

Pieces of chalk, water container, chalkboard, atlas
Sand tray, small stones, chalkboard, internet access (if available)

KLB Secondary Geography Form 3, Pages 108-109

LAKES

Lake Classification Summary and Regional Examples

By the end of the lesson, the learner should be able to:
Consolidate all lake formation types. Compare characteristics of different lake types. Analyze distribution patterns of lakes in East Africa and beyond.

Creating comprehensive classification table on chalkboard. Students copy into exercise books. Group discussions on different lake formation processes.

Chalkboard, chalk, exercise books, atlas

KLB Secondary Geography Form 3, Pages 100-109

LAKES

Significance of Lakes - Economic Importance
Significance of Lakes - Social and Environmental Benefits

By the end of the lesson, the learner should be able to:
Explain lakes as sources of fish, water supply, and irrigation. Describe hydroelectric power generation from lakes. Analyze transport and navigation benefits. Discuss mineral extraction (soda ash, salt) from lakes.

Discussion of Lake Victoria fisheries and water supply to cities. Analysis of Owen Falls and Seven Forks power generation. Case study of Lake Magadi salt and soda ash mining using textbook examples.

Chalkboard, chalk, textbooks, exercise books

KLB Secondary Geography Form 3, Pages 109-111

LAKES

Negative Effects of Lakes

By the end of the lesson, the learner should be able to:
Identify disease vectors (mosquitoes, snails) around lakes causing malaria and bilharzia. Describe dangerous wildlife habitats (crocodiles, hippos). Explain displacement issues from human-made lakes.

Discussion of health challenges in lake regions. Analysis of human-wildlife conflict around lakes. Case study of resettlement during dam construction projects using textbook examples.

Chalkboard, chalk, textbooks, exercise books

KLB Secondary Geography Form 3, Page 111

OCEANS, SEAS AND THEIR COASTS

Distinction Between Oceans and Seas
Nature of Ocean Water - Salinity and Temperature
Nature of Ocean Water - Ocean Life and Topography

By the end of the lesson, the learner should be able to:
Distinguish between oceans and seas based on size, location, and connection. Identify the four major oceans and their characteristics. Compare similarities and differences between oceans and seas.

Q/A to review water bodies from previous chapters. Discussion of ocean vs sea characteristics using world map. Students list major oceans and seas in exercise books.

Chalkboard, world map, atlas, exercise books
Chalkboard, chalk, exercise books, thermometer for demonstration
Chalkboard, chalk, exercise books, textbooks

KLB Secondary Geography Form 3, Pages 113-114

OCEANS, SEAS AND THEIR COASTS

Islands and Ocean Pollution
Water Movement - Vertical Movement

By the end of the lesson, the learner should be able to:
Classify islands as continental, oceanic, and coral islands. Give examples from East Africa and globally. Explain ocean pollution sources and effects.

Discussion of island formation types with examples. Analysis of pollution sources from industries and human activities. Students list local pollution examples.

Chalkboard, chalk, exercise books, atlas
Containers, warm and cold water, chalkboard, atlas

KLB Secondary Geography Form 3, Pages 119-120

OCEANS, SEAS AND THEIR COASTS

Water Movement - Ocean Currents
Major Ocean Currents
Tides - Formation and Causes

By the end of the lesson, the learner should be able to:
Explain ocean current formation by winds, earth's rotation, land masses, and temperature. Describe Coriolis effect and its impact on current direction. Distinguish between warm and cold currents.

Drawing ocean current formation diagrams on chalkboard. Discussion of Coriolis effect using globe demonstration. Students identify current types on world map.

Chalkboard, chalk, globe, world map, exercise books
World map, atlas, chalkboard, exercise books
Chalkboard, chalk, exercise books, stones for demonstration

KLB Secondary Geography Form 3, Pages 122-124

OCEANS, SEAS AND THEIR COASTS

Types of Tides

By the end of the lesson, the learner should be able to:
Distinguish between perigean, apogean, spring, and neap tides. Explain semi-diurnal, mixed, and diurnal tide patterns. Describe tidal significance for coastal activities.

Drawing different tide type diagrams on chalkboard. Discussion of tidal patterns with examples. Students create tidal cycle charts in notebooks.

Chalkboard, chalk, exercise books, textbooks

KLB Secondary Geography Form 3, Pages 127-128

OCEANS, SEAS AND THEIR COASTS

Wave Formation and Types

By the end of the lesson, the learner should be able to:
Explain wave formation through wind friction on water surface. Describe wave components: crest, trough, wavelength, height. Distinguish between constructive and destructive waves.

Simple demonstration of wave formation using water basin and fan/breath. Drawing wave diagrams showing crest and trough. Discussion of wave breaking processes.

Water basin, chalkboard, chalk, exercise books

KLB Secondary Geography Form 3, Pages 128-130

OCEANS, SEAS AND THEIR COASTS

Wave Erosion Processes and Features
Wave Transportation and Deposition

By the end of the lesson, the learner should be able to:
Describe wave erosion processes: corrasion, hydraulic action, attrition, solution. Identify erosional features: cliffs, wave-cut platforms, caves, arches, stacks, stumps.

Discussion of erosion processes with practical examples. Drawing formation sequence of coastal erosional features on chalkboard. Students sketch feature formation stages.

Chalkboard, chalk, exercise books, pictures from textbook
Sand, water container, chalkboard, chalk, exercise books

KLB Secondary Geography Form 3, Pages 130-134

OCEANS, SEAS AND THEIR COASTS

Coastal Depositional Features - Beaches and Spits

By the end of the lesson, the learner should be able to:
Describe beach formation and characteristics. Explain spit formation at coastline direction changes. Identify beach features: ridges, cusps, berms, beach rock.

Discussion of beach formation conditions and processes. Drawing spit formation diagrams showing longshore drift effects. Students identify local beach examples.

Chalkboard, chalk, exercise books, sand for demonstration

KLB Secondary Geography Form 3, Pages 135-137

OCEANS, SEAS AND THEIR COASTS

Coastal Depositional Features - Bars and Other Features

By the end of the lesson, the learner should be able to:
Explain bar formation: bay bars and offshore bars. Describe tombolo, cuspate foreland, mudflats, salt marshes, and dune belts formation.

Drawing different bar formation types on chalkboard. Discussion of lagoon formation behind bars. Students sketch various depositional features.

Chalkboard, chalk, exercise books, textbooks

KLB Secondary Geography Form 3, Pages 137-139

OCEANS, SEAS AND THEIR COASTS

Types of Coasts - Concordant and Discordant

By the end of the lesson, the learner should be able to:
Distinguish between concordant and discordant coasts. Explain factors determining coast types: wave action, tidal currents, rock nature, alignment.

Discussion of coast types with Kenya examples (Malindi-Lamu vs Mombasa). Analysis of factors affecting coastal development. Students identify coast types on maps.

Atlas, chalkboard, chalk, exercise books

KLB Secondary Geography Form 3, Pages 139-140

OCEANS, SEAS AND THEIR COASTS

Submerged Coasts - Highland and Lowland
Emerged Coasts

By the end of the lesson, the learner should be able to:
Explain submerged coast formation through base level changes. Describe rias, fjords, and Dalmatian coasts in highland areas. Identify fjards in lowland submergence.

Drawing submerged coast formation diagrams on chalkboard. Discussion of East African rias (Kilindini, Lamu). Students analyze submergence causes.

Chalkboard, chalk, exercise books, maps of Kenya coast
Chalkboard, chalk, exercise books, local examples

KLB Secondary Geography Form 3, Pages 140-142

OCEANS, SEAS AND THEIR COASTS

Coral Coasts and Reef Formation

By the end of the lesson, the learner should be able to:
Explain coral polyp requirements for growth: temperature, clean water, shallow depth, salinity. Describe conditions favoring coral development.

Discussion of coral growth conditions and requirements. Analysis of tropical coral distribution patterns. Students list coral growth requirements.

Chalkboard, chalk, exercise books, world map

KLB Secondary Geography Form 3, Pages 143-144

OCEANS, SEAS AND THEIR COASTS

Types of Coral Reefs

By the end of the lesson, the learner should be able to:
Distinguish between fringing reefs, barrier reefs, and atolls. Explain formation processes and characteristics of each reef type. Give examples from East Africa and globally.

Drawing coral reef formation diagrams on chalkboard. Discussion of Great Barrier Reef and local examples. Students sketch reef formation sequences.

Chalkboard, chalk, exercise books, atlas

KLB Secondary Geography Form 3, Pages 144-146

OCEANS, SEAS AND THEIR COASTS

Coral Reef Formation Theories

By the end of the lesson, the learner should be able to:
Explain Darwin's, Daly's, and Murray's theories of coral reef formation. Compare different explanations for barrier reef and atoll development.

Discussion of different coral formation theories with diagrams. Comparison of theory strengths and limitations. Students create theory comparison charts.

Chalkboard, chalk, exercise books, textbooks

KLB Secondary Geography Form 3, Pages 146-148

OCEANS, SEAS AND THEIR COASTS

Significance of Oceans - Economic Importance

By the end of the lesson, the learner should be able to:
Explain ocean significance for climate modification, fishing, transport, and mineral extraction. Describe HEP generation from tides and tourism benefits.

Discussion of ocean economic activities and benefits. Analysis of global fishing grounds and shipping routes. Students list ocean economic uses.

Chalkboard, chalk, exercise books, world map

KLB Secondary Geography Form 3, Pages 148-149

OCEANS, SEAS AND THEIR COASTS

Significance of Coasts and Coastal Features
Unit Assessment

By the end of the lesson, the learner should be able to:
Describe coastal benefits: ports, harbours, fishing grounds, tourism, building materials. Explain marine life habitats and transport challenges.

Discussion of coastal economic activities with Kenya examples. Analysis of port development and coastal tourism. Students evaluate coastal significance.

Chalkboard, chalk, exercise books, maps of Kenya
Assessment papers, atlas, exercise books, maps

KLB Secondary Geography Form 3, Pages 149-150

ACTION OF WIND AND WATER IN ARID AREAS

Definition of Terms and Types of Deserts
Wind Erosion Processes

By the end of the lesson, the learner should be able to:
Define arid lands and aridity as areas receiving less than 250mm annual rainfall. Classify deserts: hot continental interior, coastal, mid-latitude, and ice/snow deserts. Identify examples globally and in Kenya (ASAL areas, Chalbi, Kaisut, Karoli).

Q/A to review climate and aridity concepts from Form 2. Discussion of world desert distribution using atlas. Students list desert types and examples in exercise books.

Chalkboard, world map, atlas, exercise books
Sand, small container, chalkboard, chalk, exercise books

KLB Secondary Geography Form 3, Pages 151-152

ACTION OF WIND AND WATER IN ARID AREAS

Wind Erosion Features - Small Scale
Wind Erosion Features - Large Scale

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

KLB Secondary Geography Form 3, Pages 153-155

ACTION OF WIND AND WATER IN ARID AREAS

Wind Transportation and Deposition
Sand Dunes - Barchans and Seif Dunes
Other Dune Types, Draas, and Loess

By the end of the lesson, the learner should be able to:
Explain wind transportation methods: suspension, saltation, surface creep. Describe factors influencing transportation: wind speed, load nature, obstacles, particle state. Explain deposition conditions.

Demonstration of particle movement using sand and fan/breath. Discussion of transportation distances for different particle sizes. Students create transportation process diagrams.

Sand, fan or strong breath, chalkboard, chalk, exercise books
Sand, small obstacles, chalkboard, chalk, exercise books
Chalkboard, chalk, exercise books, world map

KLB Secondary Geography Form 3, Pages 156-157

ACTION OF WIND AND WATER IN ARID AREAS

Water Action in Arid Areas - Wadis and Inselbergs
Pediments, Pediplains, and Plateau Features

By the end of the lesson, the learner should be able to:
Explain wadi formation through flash floods creating steep dry valleys. Describe inselberg development as residual rock masses through slope retreat. Give examples from Algeria, Egypt, Saudi Arabia, and Kenya (Nzambani Rock).

Discussion of flash flood processes and erosional effects. Drawing wadi and inselberg formation diagrams on chalkboard. Analysis of water action despite aridity.

Chalkboard, chalk, exercise books, pictures from textbook
Chalkboard, chalk, exercise books, textbooks

KLB Secondary Geography Form 3, Pages 160-161

ACTION OF WIND AND WATER IN ARID AREAS

Water Deposition Features and Dry Valleys

By the end of the lesson, the learner should be able to:
Describe alluvial fan and bajada formation at upland feet. Explain playa and salina development in basins. Identify dry river valleys (laghs/lagas) common in northern Kenya counties.

Discussion of seasonal water flow and deposition patterns. Analysis of Kenya's northern dry valleys with county examples. Students map regional examples of water features.

Maps of Kenya, chalkboard, chalk, exercise books

KLB Secondary Geography Form 3, Pages 163-164

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
Features Resulting from 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
Topographical maps, Geological cross-sections, Textbook diagrams, 3D models, World maps

KLB Secondary Geography Form 3, Pages 166-170

Action of Water in Limestone Areas

Importance of Underground Water

By the end of the lesson, the learner should be able to:
Explain ways underground water is important to humankind and countries. Give specific examples of underground water significance including settlement, irrigation, domestic/industrial supply, geothermal energy, mineral deposits.

Brain storming on underground water uses. Detailed discussion on importance aspects including settlement sites like spring-line settlements, irrigation in dry areas like Sahara oases, domestic/industrial water like Mzima Springs supplying Mombasa, river sources in Kenyan Highlands, geothermal power like Olkaria near Naivasha, mineral deposits like salt at Homa Hills, underground streams keeping lakes fresh like Lake Naivasha.

Photographs of key sites, Maps of Kenya, Case study materials, Charts showing applications

KLB Secondary Geography Form 3, Pages 172-173

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

Significance of Resultant Features

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

KLB Secondary Geography Form 3, Pages 178-179

Glaciation

Definition of Terms

By the end of the lesson, the learner should be able to:
Define glaciation, ice, snow, snowline, firn, neve fields. Distinguish between permanent and temporary snowlines. Explain glacier formation conditions.

Q/A to review ice formation concepts. Exposition on glaciation definition and related terminology. Discussion on snowline variations with latitude and altitude. Explanation of firn formation through compaction processes. Discussion on glacier formation conditions and avalanche effects.

Charts showing snowline variations, Diagrams of ice formation, Maps showing ice distribution, Safety materials

KLB Secondary Geography Form 3, Pages 180-182

Glaciation

Types of Glaciers and Ice Masses
Icebergs and Ice Movement

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

KLB Secondary Geography Form 3, Pages 182-183

Glaciation

Processes of Glaciation

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

KLB Secondary Geography Form 3, Pages 184-186

Glaciation

Glacial Features and Significance

By the end of the lesson, the learner should be able to:
Describe highland and lowland glacial features. Analyze positive and negative significance of glaciation.

Discussion on highland feature formation processes and characteristics. Description of lowland glacial features and formation. Analysis of glaciation significance including economic benefits and challenges. Examples from East African mountains and world locations. Group work on significance evaluation and local applications.

Formation diagrams, Feature photographs, Economic impact charts, Maps showing benefits, East African examples

KLB Secondary Geography Form 3, Pages 186-194

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

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

KLB Secondary Geography Form 3, Pages 200-203

Soil

Factors Influencing Soil Formation
Properties and Profile

By the end of the lesson, the learner should be able to:
Identify five soil formation factors. Explain parent material influence on soil type. Analyze climate and organism effects. Describe topography and time factors.

Exposition on parent material as key factor determining soil type. Discussion on climate effects including rainfall and temperature variations. Analysis of vegetation and micro-organism roles. Explanation of slope and time influences on soil development.

Parent rock samples, Climate charts, Vegetation specimens, Maps, Time examples
Soil structure samples, pH materials, Colour charts, Profile diagrams, Catena illustrations

KLB Secondary Geography Form 3, Pages 203-205

Soil

Soil Degeneration and Erosion
Classification and Management

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
Classification charts, Distribution maps, Conservation photographs, Practice examples

KLB Secondary Geography Form 3, Pages 209-214