6. IELTS Academic Reading Practice: Matching Headings on The Evolution of the English Language

Paragraph A — Coal ignited the industrial era and oil propelled the transport revolution; together they supplied dense, portable energy that remade economies and daily life. Steam engines, steel mills, container ships, and jet aircraft were all built around combustible fuels that were, for a time, plentiful and cheap. Institutions, trade routes, and even geopolitics grew around these energy sources, locking in infrastructure that still frames our choices. The ease of storing liquids and the reliability of burning solids created habits that persisted long after cleaner options existed. That long ascendancy explains why debates over alternatives must contend with a century of sunk costs and familiar routines.

Paragraph B — As populations expanded and incomes rose, energy demand climbed with them. Factories added shifts, households bought appliances, and commuters travelled farther, each decision drawing more power into the system. For governments, the promise of growth has often outweighed the risks of delay in reform: reliable electricity and affordable fuels win elections. In many regions, renewables have not yet matched the round-the-clock dependability of coal or gas, so planners keep legacy plants online. The link between prosperity and consumption is not inevitable, but breaking it requires policies that reward efficiency as strongly as production.

Paragraph C — Fossil energy’s low sticker price hides costs that the atmosphere, soils, waters, and lungs pay. Burning carbon releases greenhouse gases that warm the planet; mining and drilling can fragment habitats and pollute aquifers; fine particles from combustion penetrate deep into the lungs, shortening lives. These burdens accumulate slowly and unevenly, often falling hardest on communities least able to relocate or advocate. Critics argue that when these “externalities” are counted fairly, the bargain of cheap fuel dissolves. The argument is not only environmental; it is also economic and ethical, asking who benefits now and who bears the bill later.

Paragraph D — Renewable resources—sunlight, wind, flowing water, underground heat—do not deplete on human timescales. Once turbines spin or panels are installed, their fuel arrives free, carried by weather and planetary cycles. Emissions fall sharply compared with coal or oil, and local air quality improves. Regions that command strong sun or steady wind can, with planning, build portfolios that meet a large share of demand. Yet renewables are more than devices: they entail grid upgrades, skilled maintenance, forecasting, and markets that value flexibility. When those pieces align, the result is cleaner power and greater resilience.

Paragraph E — The formidable obstacle is variability. Clouds dim panels; calm days still turbines; rivers ebb. To bridge these swings, systems need storage and smarter networks: batteries, pumped hydro, thermal reservoirs, demand-response contracts, and inter-regional cables that shift power from where it is windy to where it is not. Costs have fallen quickly, but scaling to national grids remains expensive, and poor design can strand assets. Engineers note that diversity helps—mixing wind with solar and flexible generation narrows the gaps—but until storage becomes widespread, reliability remains a central concern for industries that cannot afford blackouts.

Paragraph F — No two transitions look alike. A sunny desert may harvest solar at world-leading prices, while a cloudy coast wagers on offshore wind; a mountainous country adds hydropower, whereas a flat nation leans on interconnectors. Policy also sets the tempo: clear permitting rules, research funding, and carbon pricing accelerate adoption; uncertainty slows it. Wealthier states may absorb early costs and export technology; resource-constrained ones must sequence reforms carefully to avoid price shocks. Geography, institutions, and investment climate therefore combine to produce contrasting energy maps, each reflecting local constraints and ambitions.

Paragraph G — Governments possess levers that can tilt markets: standards for efficiency, targets for clean shares of electricity, auctions that reward the cheapest low-carbon kilowatt-hour, tax credits that unlock private capital, and public finance that de-risks first-of-a-kind projects. International agreements signal direction, but domestic execution decides results. Effective policy balances short-term affordability with long-term security and climate goals, smoothing the path for workers and regions tied to fossil industries. Poorly designed rules, by contrast, can raise bills without cutting emissions, eroding trust. The craft of transition is as much administrative as it is technological.

Paragraph H — Even as cleaner options proliferate, the magnetism of low upfront cost keeps fossil fuels in play. Existing pipelines, refineries, and power stations are paid for; their output is familiar; spare parts and skills are nearby. For cash-constrained utilities or governments, extending the life of such assets may seem prudent. Yet each extension entrenches risks—price volatility, pollution, and the growing mismatch with climate objectives. The central dilemma is tempo: how to retire what is cheap today without burdening consumers, while building systems that will prove cheaper and cleaner tomorrow.