# Week(s) Wks 1-3 CAPE Unit 1 Module 2 & 3 Topic Specific Objectives Content Explain the main concepts, flows and processes associated with coastal environments Wave formation, structure, types Textbook Readings (D. Waugh) pages 140-141, 144-145 Coastal Processes & Landforms Explain coastal processes which influence the development of related landforms Analyse the factors which affect the processes operating within coastal environments Explain the effects of human and physical interactions within coastal environments over time Major flows (for example, longshore drift) and processes (for example, marine erosion, deposition and wave refraction) operating in coastal environments The influence of the processes of erosion, transportation and deposition on the development of related landforms, including cliffs, beaches, bars Formation and distribution of coral reefs (including the theories). Threats to coral reefs pages 142, 149-150, 153 pages 143, 145-146, 151-152, 154 In class notes 1 Apply concepts and processes related to coastal environments at different geographical scales Analyse the effect of sea level changes on coastal landforms The influence of human and geological factors (rock type and structure) on the shape and form of coastal landforms The influence of sea level changes on coastal landforms page 167 pages 162, 168-169 2 Wk 4 Natural Events, Hazards & Disasters Distinguish among a natural event, a natural hazard and a disaster Describe the different types of hazards Concept of a natural event, hazard and disaster Types of hazards- technological, tectonic, climatic and geomorphological pages 31-32 3 Wks 5-7 Plate Tectonics & Volcanoes & Earthquakes as Hazards Explain as natural events, the formation of plates and the processes involved in the movement of plates Continental drift and plate tectonics The formation of plates, global distribution and the direction of movement of plates pages 8-30
Describe the distribution and characteristics of landforms resulting from plate movement Describe the impact of volcanoes and earthquakes as hazards Processes operating at different types of plate margins and hot spots Earthquakes - magnitude, relationship to plate boundaries, seismic waves and faulting Distribution and characteristics of volcanoes in relation to plate boundaries Formation of island arcs and origin of fold mountains Positive impact of volcanic and earthquake activity Value of folded and faulted landscapes Earthquakes - primary and secondary effects and factors influencing these effects Types of volcanic eruptions, characteristics of volcanic material, nature of the hazards Case studies of the negative impact of earthquakes and volcanic eruptions 4 Wks 8-10 Hydrology & Fluvial Processes & Landforms Explain the main concepts, flows and processes associated with the hydrological cycle & fluvial environments Explain hydrological & fluvial processes which influence the development of related landforms Analyse the factors which affect the processes operating within drainage basins environments Explain the effects of human and physical interactions within drainage basins over time Concepts associated with the hydrological cycle and the river basin Major flows and factors influencing flows within the hydrological cycle, including precipitation, stem flow, interception, channel precipitation, pathways of water movement, storage The storm hydrograph and water budgets (spatial and temporal changes) Climatic, physical and biotic (human and vegetation) factors affecting drainage basin characteristics and flows Factors influencing drainage patterns, drainage density and their measurements, including stream ordering pages 58-59 pages 60-64 pages 60-64/84-85
Apply concepts and processes related to drainage basins & rivers environments at different geographical scales Concepts associated with fluvial landforms and processes, (include competence and capacity) erosion, transportation, deposition. The major flows and processes operating within the river channel, including types of flow and variations of flow Stream channel morphology, including width, depth and wetted perimeter. Stream channel characteristics, including meandering The measurement and calculation of stream velocity, stream width, and channel geometry The influence of physical, biotic (human and vegetation) and geological factors on the long and cross-profiles of rivers, valleys and changes over time. Include sea level changes Weathering and its influence on river basins: aerial and sub-aerial processes pages 65-74 pages 40-44/194-195 5 Wk 10* Flooding & Floods as Hazards Explain the causes and consequences of flooding Describe the impact of floods as hazards Types of floods - riverine, coastal, estuarine Causes of floods - types of precipitation events, influence of human activity, sea level changes, drainage basin characteristics Case studies of the negative impact of floods pages 87-96 6 Wk* 10/11 Processes & Landforms in Limestone Environments Explain the main concepts, flows and processes associated limestone environments Explain limestone processes which influence the development of related landforms Analyse the factors which affect the processes operating within limestone environments Characteristics of limestone as a rock Chemical weathering processes and limestone. Include formula Characteristics and development of limestone landscapes. Cite specific examples. pages 196-200
Explain the effects of human and physical interactions within limestone environments over time Factors affecting the development of limestone landscapes Apply concepts and processes related to limestone environments at different geographical scales 7 Term 2 Response to Hazards Assess the responses to hazards Use topographical maps to analyse vulnerability to hazards Current capabilities in predicting earthquake, flooding and volcanic activities Individual and collective responses to earthquake, floods and volcanic hazards before the occurrence and after the occurrence Government responses to hazards - earthquakes, floods and volcanoes pages 31-32/33-36
# 1 Week (s) Distribution Module 1 Topic Specific Objectives Content Explain the factors that influence population distribution using case studies Factors influencing population distribution on a global scale Assess the methods that depict population distribution Case studies of factors affecting population distribution at a local and regional sale Methods of depicting population distribution (dot maps, Lorenz curves) The merits and demerits of the methods of depicting population distribution Textbook Readings (D. Waugh) pages 344-348 page 349 + notes & Resources Assess the method of depicting population density Explain the factors that influence population density Explain the relationship between population density and resources density and method of depicting population density-choropleth maps The merits and demerits of choropleth maps In class notes Optimum population, underpopulation and overpopulation pages 376-377 Carrying capacity and factors influencing changes in carrying capacity page 378 2 Models of population growth in relation to resources- Boserup and Malthus page 378 + notes 3 Change- Natural Analyse the components of population change Explain the causes and consequences of population change Factors influencing birth rate, death rate, natural increase, fertility rate, life expectancy, doubling time pages 349,357-360 + notes The Demographic Transition Model and its applicability to the experiences of developed and developing countries pages 350-352 policy- case studies of pro-natalist and antinatalist policies Cases studies on website
4 Structure Analyse the components of population structure structure in LDCs and MDCs Construction and interpretation of population pyramids Interpretation of population structure in LDCs and MDCs page 352-355 Dependency ratios- calculation and implications page 354 pages 359-360 + Youthful and ageing populations (case studies) case studies 5 Change- Migration Analyse components of population change Types of migration: international, internal, permanent, temporary, voluntary, forced Causes and consequences to source (sending) and host (receiving) countries. Case Studies Calculation of population growth rates and construction of flow lines pages 361-375 In class notes 6 Settlement Processes Analyse the types, patterns and factors affecting the location of rural settlements Analyse changes in rural settlements in more developed countries (MDCs) Apply urban models to the growth of the city and the development of functional zones in less developed countries (LDCs) Explain the processes and problems of urbanisation in MDCs and LDCs and the solutions to urban growth Rural settlements- types and patterns Physical and human factors affecting the location or rural settlements The effects of changes in rural settlements in MDCs pages 388-401 The process and problems of urbanisation in MDCs and pages 404, 418- LDCs, including rank-size rule and primacy 419, Causes and consequences of sub-urbanisation, counterurbanisation, re-urbanisation or gentrification in MDCs pages 432-451 The models of Burgess, Hoyt, Ullman & Harris and their applicability to cities in the developing world pages 420-426 Solutions to urban growth in MDCs and LDCs. pages 432-451