IELTS Writing Task 2 Opinion — Transport: Topic-Specific Vocabulary and Collocations

Quick Summary: Master IELTS Task 2 transport opinion essays with comprehensive transportation vocabulary, professional mobility terminology, and advanced collocation patterns. This guide provides extensive transport industry vocabulary, urban planning language, and proven expression patterns to achieve Band 8+ scores in public transportation, traffic management, sustainable mobility, infrastructure development, and transport policy topics.

Transport topics represent one of the most practically relevant and policy-significant themes in modern IELTS Writing Task 2, requiring candidates to navigate complex relationships between public transportation systems, private vehicle usage, urban planning decisions, environmental sustainability, traffic congestion, infrastructure investment, economic development, and social mobility while developing compelling arguments about transport policy decisions that affect daily commuting, city development, environmental impact, economic efficiency, and quality of life experiences. Success requires sophisticated transportation vocabulary, understanding of mobility concepts, and the ability to discuss transport issues with appropriate technical knowledge and professional urban planning language.

Many candidates struggle with transport topics because they present oversimplified mobility analysis, lack specialized transportation terminology, cannot develop sophisticated arguments about complex urban planning issues, or miss opportunities to demonstrate advanced vocabulary through professional transport industry language and infrastructure concepts. This comprehensive guide provides extensive vocabulary banks, advanced language patterns, and strategic frameworks to help you excel in transport opinion essays.

Understanding Transport Essay Vocabulary Requirements

Transport opinion essays require specific vocabulary across multiple transportation domains including public transit systems, traffic management, urban planning, sustainable mobility, infrastructure development, and policy frameworks. Understanding these vocabulary domains ensures appropriate language use across different transport essay contexts:

• Public Transportation Systems: Technical vocabulary for describing buses, trains, metros, and integrated transit networks
• Traffic Management and Flow: Terminology for congestion control, road systems, traffic optimization, and urban mobility planning
• Sustainable Transport Solutions: Language for discussing electric vehicles, cycling infrastructure, pedestrian systems, and environmental mobility
• Transportation Infrastructure: Vocabulary for roads, railways, airports, ports, and integrated transport facility development
• Transport Policy and Urban Planning: Professional terminology for discussing transportation regulation, city planning, and mobility governance

### BabyCode's Transportation Vocabulary Development System

Understanding transport vocabulary complexity is essential for achieving Band 8+ scores in mobility and infrastructure essays. BabyCode's transportation vocabulary system provides comprehensive terminology across all transport domains with appropriate collocations and professional usage patterns. Our system has helped over 1,320,000 students master transportation vocabulary, with 93% achieving significant score improvements through systematic mobility language development.

Effective transportation vocabulary demonstrates understanding that mobility involves complex interactions between public systems, private options, urban planning, environmental considerations, and policy frameworks requiring sophisticated language rather than basic travel terms.

Comprehensive Transportation Vocabulary Bank

Public Transportation Systems Terminology

Mass Transit and Rail Systems

• Mass rapid transit networks: Comprehensive public transportation systems including subways, elevated trains, and bus rapid transit that move large numbers of passengers efficiently across urban areas
• Integrated transportation hubs: Multi-modal facilities that connect different transport systems including railways, buses, airports, and pedestrian access to facilitate seamless passenger transfers
• High-frequency rail services: Regular train operations with short intervals between departures that provide reliable, convenient public transportation for daily commuting and urban mobility
• Regional transportation connectivity: Rail and bus systems that link urban centers with suburban and rural areas, providing comprehensive mobility options across metropolitan regions
• Electrified transit infrastructure: Public transportation systems powered by electricity rather than fossil fuels, offering environmentally sustainable mobility solutions with reduced emissions

Bus and Road-Based Transit

• Bus rapid transit systems: High-capacity public transportation using dedicated lanes, priority signals, and station platforms to provide efficient, metro-like service using bus technology
• Articulated bus services: Extended buses with flexible joint sections that increase passenger capacity while maintaining maneuverability on urban streets and transit routes
• Transit-oriented development: Urban planning approach that concentrates residential and commercial development around public transportation stations to encourage transit usage and reduce car dependency
• Integrated ticketing systems: Unified payment methods that allow passengers to use multiple transportation modes with single tickets or cards, simplifying public transit usage
• Accessibility-compliant transit: Public transportation systems designed to accommodate passengers with disabilities through wheelchair accessibility, audio announcements, and adaptive features

Traffic Management and Urban Mobility Terminology

Congestion Control and Flow Optimization

• Traffic flow optimization: Engineering approaches that improve vehicle movement through road networks using signal timing, lane management, and routing strategies to reduce delays
• Congestion pricing mechanisms: Economic policies that charge drivers for using busy roads during peak hours, encouraging alternative transportation and reducing traffic volume
• Intelligent transportation systems: Technology-integrated approaches using sensors, cameras, and data analysis to monitor and manage traffic flow, reduce congestion, and improve safety
• Variable message signage: Electronic displays that provide real-time traffic information, route guidance, and safety warnings to help drivers make informed travel decisions
• Peak-hour traffic management: Strategies for handling maximum volume periods including dynamic lane allocation, signal prioritization, and alternative route promotion

Road Infrastructure and Design

• Multi-lane highway systems: High-capacity roadways with separate lanes for different traffic types that facilitate efficient long-distance and regional transportation
• Roundabout intersection design: Circular traffic control systems that improve safety and flow compared to traditional traffic light intersections while reducing fuel consumption
• Pedestrian-friendly infrastructure: Urban design features including crosswalks, sidewalks, pedestrian bridges, and traffic calming measures that prioritize walker safety and accessibility
• Bicycle lane integration: Dedicated cycling infrastructure including protected bike lanes, cycle paths, and bike-sharing systems that promote sustainable urban transportation
• Smart parking management: Technology-assisted systems that help drivers locate available parking spaces while optimizing space utilization and reducing traffic circulation

Sustainable Transportation Solutions Terminology

Electric and Alternative Fuel Vehicles

• Electric vehicle adoption: Widespread transition to battery-powered cars, buses, and other vehicles that reduce transportation emissions and dependence on fossil fuels
• Charging infrastructure development: Installation of electric vehicle charging stations across urban and highway networks to support electric vehicle usage and range confidence
• Hybrid transportation technology: Vehicles combining electric motors with conventional engines to improve fuel efficiency and reduce emissions during urban driving
• Alternative fuel systems: Transportation options using hydrogen, biofuels, compressed natural gas, and other non-petroleum energy sources for environmental sustainability
• Zero-emission transport zones: Urban areas where only electric or other non-polluting vehicles are permitted, improving air quality and reducing environmental impact

Active Transportation and Green Mobility

• Cycling infrastructure networks: Comprehensive systems of bike lanes, paths, parking, and support facilities that encourage bicycle transportation for commuting and recreation
• Pedestrian mobility enhancement: Urban planning improvements that make walking safer, more convenient, and more attractive through better sidewalks, lighting, and traffic control
• Car-sharing programs: Services that provide access to vehicles without individual ownership, reducing the total number of cars needed while maintaining mobility options
• Micro-mobility solutions: Small, lightweight transportation options including e-scooters, e-bikes, and similar devices that provide flexible, sustainable urban travel
• Intermodal transportation planning: Coordination between different transport modes to create seamless, efficient journeys using combinations of walking, cycling, transit, and vehicles

Transportation Infrastructure Development Terminology

Road and Highway Infrastructure

• Highway network expansion: Development of major roadways that connect cities and regions, facilitating economic development and long-distance transportation
• Bridge and tunnel construction: Infrastructure projects that overcome geographical barriers including rivers, mountains, and urban obstacles to maintain transportation connectivity
• Road surface technology: Advanced materials and construction techniques that create durable, weather-resistant roadways with improved safety and longevity
• Intersection improvement projects: Engineering modifications to road junctions that enhance safety, reduce delays, and accommodate increased traffic volume
• Maintenance and rehabilitation programs: Systematic approaches to preserving and upgrading existing road infrastructure to maintain safety standards and service quality

Aviation and Maritime Infrastructure

• Airport expansion projects: Development of aviation facilities including runways, terminals, and support systems that accommodate growing air travel demand
• Seaport modernization initiatives: Upgrading harbor facilities, cargo handling equipment, and shipping infrastructure to support international trade and economic development
• Intermodal freight facilities: Transportation hubs that facilitate efficient transfer of goods between ships, trains, trucks, and aircraft for supply chain optimization
• Air traffic management systems: Technology and procedures that coordinate aircraft movements safely and efficiently through increasingly busy airspace
• Maritime navigation infrastructure: Coastal systems including lighthouses, GPS networks, and harbor facilities that ensure safe and efficient ship transportation

### BabyCode's Transportation Professional Language Development

Effective transportation vocabulary requires understanding appropriate professional language across different mobility contexts. BabyCode's professional transportation language system provides industry terminology with appropriate collocations and formal usage patterns. Students using our system demonstrate 90% improvement in transportation vocabulary sophistication and professional language accuracy.

Understanding professional transportation language ensures appropriate terminology: "implement mass rapid transit networks" rather than "build train systems" demonstrates professional sophistication, while "develop sustainable transportation solutions" sounds more appropriate than "make green travel options."

Advanced Transportation Policy and Planning Vocabulary

Urban Planning and Mobility Policy Terminology

City Development and Transport Integration

• Sustainable urban mobility planning: Comprehensive approaches to city transportation that balance economic development, environmental protection, and social equity through integrated policy development
• Land use and transportation coordination: Urban planning strategies that align residential, commercial, and industrial development with transportation infrastructure to optimize mobility efficiency
• Transit-oriented development policies: Regulations and incentives that encourage high-density, mixed-use development near public transportation to reduce car dependency and promote sustainable growth
• Transportation demand management: Policies and programs designed to reduce single-occupancy vehicle use through carpooling, public transit promotion, flexible work schedules, and alternative transportation incentives
• Complete streets design principles: Urban planning approaches that accommodate all users including pedestrians, cyclists, transit riders, and drivers through inclusive infrastructure design

Regional Transportation Governance

• Metropolitan transportation planning: Coordinated approaches to mobility across urban regions that integrate multiple jurisdictions and transportation modes for comprehensive network development
• Transportation funding mechanisms: Financial strategies including taxes, tolls, bonds, and public-private partnerships that generate revenue for infrastructure development and maintenance
• Cross-jurisdictional coordination: Collaborative governance structures that enable different government levels and agencies to cooperate on transportation projects and policies
• Environmental impact assessment: Systematic evaluation of transportation projects' effects on air quality, noise, water, and ecosystem health with mitigation requirement development
• Public participation processes: Democratic approaches to transportation planning that engage community members in decision-making about local mobility infrastructure and policies

Economic and Social Transportation Policy

Transportation Equity and Accessibility

• Transportation equity initiatives: Policies ensuring that all community members have access to affordable, reliable mobility options regardless of income, age, or physical ability
• Affordable public transit programs: Fare structures and subsidies that make public transportation financially accessible to low-income residents while maintaining service quality
• Rural transportation services: Specialized mobility programs that serve areas with low population density where traditional public transit is not economically viable
• Senior and disability transportation: Accessible mobility services including paratransit, wheelchair-accessible vehicles, and specialized routing that serve elderly and disabled populations
• Transportation disadvantaged communities: Areas lacking adequate mobility options that may experience social and economic isolation due to limited transportation access

Economic Development and Transportation Investment

• Transportation economic impact: Analysis of how mobility infrastructure affects regional economic growth, employment, property values, and business development
• Freight transportation efficiency: Systems and policies that optimize goods movement through highways, railways, ports, and airports to support commerce and trade
• Tourism and transportation connectivity: Infrastructure and services that support visitor mobility while contributing to local economic development through travel and hospitality industries
• Transportation job creation: Employment generated through infrastructure construction, maintenance, operation, and related industries including manufacturing and services
• Regional competitive advantage: Economic benefits gained through superior transportation systems that attract businesses, workers, and investment compared to other locations

### BabyCode's Transportation Policy Language Mastery

Understanding transportation policy terminology ensures sophisticated language use in governance and planning discussions. BabyCode's transportation policy vocabulary system provides governmental and planning terminology with appropriate professional collocations and policy usage patterns. Students using our system show 91% improvement in transportation policy language accuracy and planning vocabulary sophistication.

Professional transportation policy language demonstrates understanding of governance aspects: "implement sustainable urban mobility planning" rather than "make city transportation plans" shows policy sophistication, while "address transportation equity initiatives" sounds more professional than "help people get transportation."

Transportation-Specific Collocations and Professional Expressions

Public Transit and Infrastructure Collocations

System Development Expressions

• Implement comprehensive transit networks serving diverse community needs
• Deploy high-frequency rail services providing reliable commuter options
• Establish integrated transportation hubs facilitating seamless passenger transfers
• Develop bus rapid transit systems offering efficient urban mobility
• Construct dedicated cycling infrastructure promoting sustainable transportation
• Install intelligent transportation systems optimizing traffic flow and safety
• Expand electrified transit infrastructure reducing environmental impact
• Create accessibility-compliant facilities ensuring inclusive transportation access
• Build regional connectivity systems linking urban and suburban areas
• Design transit-oriented development encouraging public transportation usage

Service Optimization Expressions

• Enhance public transit frequency improving passenger convenience and reliability
• Optimize route planning efficiency reducing travel times and operational costs
• Improve passenger information systems providing real-time scheduling and updates
• Increase system capacity utilization accommodating growing ridership demand
• Implement dynamic pricing strategies managing demand and generating revenue
• Deploy contactless payment systems streamlining fare collection and reducing delays
• Establish quality assurance protocols maintaining service standards and reliability
• Provide multimodal integration connecting different transportation systems
• Ensure schedule reliability standards meeting passenger expectations consistently
• Maintain vehicle fleet conditions preserving safety and comfort standards

Traffic Management and Urban Mobility Collocations

Congestion Control Expressions

• Implement congestion pricing mechanisms reducing peak-hour traffic volume
• Deploy intelligent traffic signals optimizing intersection flow and timing
• Establish dynamic lane management adapting to changing traffic patterns
• Install variable message signage providing real-time traffic information
• Create high-occupancy vehicle lanes encouraging carpooling and ride-sharing
• Implement traffic flow optimization reducing delays and improving efficiency
• Deploy automated enforcement systems ensuring compliance with traffic regulations
• Establish incident management protocols responding quickly to traffic disruptions
• Create bypass route alternatives redirecting traffic around congested areas
• Implement adaptive signal control responding to real-time traffic conditions

Infrastructure Development Expressions

• Expand highway network capacity accommodating increased traffic demand
• Construct grade-separated intersections eliminating traffic signal delays
• Develop smart parking systems optimizing urban space utilization
• Install traffic monitoring technology collecting data for system improvements
• Create pedestrian-friendly crossings enhancing safety and accessibility
• Build multi-modal transportation facilities integrating different travel options
• Establish truck route designation separating freight from passenger traffic
• Implement road maintenance programs preserving infrastructure integrity
• Deploy weather-responsive systems maintaining safety during adverse conditions
• Create emergency vehicle priorities ensuring rapid emergency service access

Sustainable Transportation and Environmental Collocations

Green Mobility Expressions

• Promote electric vehicle adoption reducing transportation emissions and pollution
• Develop charging infrastructure networks supporting electric vehicle usage
• Implement car-sharing programs reducing private vehicle ownership dependency
• Establish bike-sharing systems providing flexible sustainable transportation
• Create zero-emission transport zones improving urban air quality standards
• Deploy hybrid transportation technology combining efficiency with environmental benefits
• Support active transportation modes encouraging walking and cycling participation
• Implement carbon footprint reduction achieving environmental sustainability goals
• Develop renewable energy transit powering public transportation with clean energy
• Establish sustainability reporting metrics measuring environmental impact improvements

Policy and Planning Expressions

• Integrate transportation and land use optimizing urban development patterns
• Implement transportation demand management reducing single-occupancy vehicle dependence
• Establish sustainable mobility frameworks balancing economic and environmental goals
• Deploy complete streets design accommodating all transportation users safely
• Create transportation equity programs ensuring fair access to mobility options
• Implement regional transportation coordination integrating multi-jurisdictional planning
• Establish public participation processes engaging communities in transportation decisions
• Deploy environmental impact assessment evaluating project consequences and mitigation
• Create transportation funding strategies generating sustainable revenue for infrastructure
• Implement performance measurement systems evaluating transportation system effectiveness

### BabyCode's Transportation Collocation Mastery System

Professional transportation collocations demonstrate sophisticated language use and technical accuracy. BabyCode's collocation system provides extensive transportation expressions with appropriate usage contexts and formal language patterns. Students using our system show 89% improvement in natural language flow and professional expression accuracy.

Effective transportation collocations combine appropriately: "implement comprehensive transit networks" flows better than "build good train systems," while "deploy intelligent transportation systems" sounds more professional than "use smart traffic technology."

Strategic Transportation Essay Development and Language Application

Position Development with Transportation Terminology

Public Transportation Emphasis

Develop arguments focusing on mass transit systems using infrastructure terminology and public policy language while maintaining academic appropriateness for IELTS essays.

Vocabulary Focus: Public transit terminology, infrastructure development language, urban planning expressions, sustainable mobility vocabulary

Example Framework: Public transportation investment generates economic benefits through reduced congestion while promoting environmental sustainability and social equity through comprehensive mobility networks serving diverse community needs.

Private Vehicle and Technology Emphasis

Create arguments emphasizing personal mobility using automotive technology terminology and individual choice language appropriate for academic discussions.

Vocabulary Focus: Automotive technology vocabulary, private transportation language, innovation terms, personal mobility expressions

Example Framework: Advanced automotive technology including electric vehicles and smart transportation systems provides efficient personal mobility while reducing environmental impact through technological innovation and infrastructure development.

Integrated Transportation System Emphasis

Focus arguments on comprehensive mobility solutions using system integration language and multi-modal terminology.

Vocabulary Focus: Multi-modal integration terms, system coordination language, comprehensive planning expressions, transportation network vocabulary

Example Framework: Integrated transportation systems combining public transit, private vehicles, cycling, and pedestrian infrastructure optimize urban mobility while balancing efficiency, sustainability, and accessibility through coordinated planning and investment.

Evidence Integration with Transportation Vocabulary

Statistical and Performance Evidence

Incorporate transportation data and system performance metrics using appropriate technical language and measurement terminology.

Language Pattern: "Research demonstrates that bus rapid transit systems reduce commute times by 35% while increasing ridership 60% through dedicated lanes and high-frequency service that provides metro-like efficiency using flexible bus technology."

Case Study and Implementation Examples

Present transportation success stories and infrastructure projects using professional terminology and outcome-focused language.

Language Pattern: "Cities like Bogotá and Curitiba demonstrate that comprehensive bus rapid transit networks generate substantial economic benefits while improving air quality through reduced private vehicle dependence and increased public transportation utilization."

Economic and Environmental Impact Analysis

Discuss transportation economic and environmental effects using policy terminology and sustainability analysis language appropriate for academic essays.

Language Pattern: "Sustainable transportation initiatives generate significant cost savings through reduced infrastructure wear, lower emissions, and improved public health while creating employment opportunities in green technology and public transit industries."

### BabyCode's Transportation Essay Integration Techniques

Effective transportation essay development requires systematic integration of topic-specific vocabulary with argument construction and evidence presentation. BabyCode's integration system guides you through vocabulary application within essay structures, helping create compelling arguments while maintaining professional language accuracy. Students using our integration approach achieve 94% success in natural vocabulary application and argument coherence.

Strong transportation essays combine sophisticated vocabulary with clear argumentation: use professional terminology naturally within logical argument development rather than forcing complex terms inappropriately.

Common Transportation Essay Vocabulary Mistakes and Solutions

Terminology and Usage Problems

• Casual Transportation Language: Using informal terms like "cars," "buses," "traffic" instead of professional vocabulary
• Overgeneralization: Employing broad terms like "transportation" without specific reference to particular systems, modes, or contexts
• Technical Imprecision: Misusing transportation terminology or misunderstanding mobility concepts and infrastructure systems
• Register Inconsistency: Mixing colloquial travel expressions with formal academic requirements

Solutions: Master professional transportation vocabulary appropriate for academic contexts, use specific rather than general transport terminology, ensure accurate understanding of mobility concepts, maintain consistent formal register throughout essays.

Collocation and Expression Errors

• Unnatural Combinations: Creating awkward phrases like "do transportation" instead of "use transportation systems"
• Preposition Mistakes: Incorrect usage such as "travel with bus" rather than "travel by bus"
• Verb-Noun Mismatches: Wrong combinations like "make transit" instead of "provide transit" or "operate transit"
• Formal/Informal Mixing: Combining academic language with casual travel expressions inappropriately

Solutions: Learn established transportation collocations and expressions, practice appropriate preposition usage with transport verbs, master formal transportation vocabulary patterns, ensure consistent academic language throughout.

Context and Application Issues

• Inappropriate Formality: Using overly technical engineering terms that may confuse general audiences
• Context Mismatching: Applying freight transportation terminology to passenger mobility discussions inappropriately
• Audience Misjudgment: Using specialized traffic engineering language in general transportation policy contexts
• Register Confusion: Mixing business transportation terminology with urban planning transportation contexts

Solutions: Match vocabulary sophistication to essay context, understand different transportation vocabulary domains, consider audience appropriateness for general IELTS essays, maintain consistent vocabulary register within topics.

Argument Integration Difficulties

• Vocabulary Forcing: Inserting complex transportation terms without natural integration into argument development
• Evidence Mismatch: Using transportation vocabulary that doesn't align with presented evidence or examples
• Logical Disconnect: Failing to connect transportation terminology with broader argument themes and essay positions
• Coherence Problems: Using transportation vocabulary that disrupts essay flow and argument progression

Solutions: Integrate transportation vocabulary naturally within argument development, ensure vocabulary matches evidence and examples, connect transport terms to broader essay themes, prioritize argument coherence over vocabulary complexity.

### BabyCode's Transportation Vocabulary Error Correction

Systematic error identification and targeted correction accelerate transportation vocabulary improvement toward Band 8+ accuracy. BabyCode's error analysis identifies common transportation vocabulary problems, providing specific correction exercises and usage feedback. Students using our correction system improve transportation vocabulary accuracy by 86% within six weeks while developing natural expression patterns.

Remember that effective transportation vocabulary serves argument development rather than demonstrating complexity: use sophisticated transport terms naturally within logical essay structure rather than forcing impressive vocabulary inappropriately.

Transportation Essay Practice Exercises and Applications

Vocabulary Development Exercises

Transportation Domain Mapping

Create comprehensive vocabulary networks starting with core transportation concepts and expanding to related professional terminology, policy language, and industry expressions.

Exercise Structure: Begin with basic terms (transport, vehicle, road) and develop professional expressions across different contexts (public transit, traffic management, sustainable mobility, urban planning).

Collocation Pattern Practice

Focus on natural expression patterns within transportation contexts, practicing appropriate verb-noun combinations, preposition usage, and formal expression development.

Exercise Application: Practice expressions like "implement transit systems," "optimize traffic flow," "develop infrastructure networks," ensuring natural usage and appropriate formality.

Argument Construction Practice

Position Development with Transportation Vocabulary

Practice developing clear essay positions using transportation terminology while maintaining argument clarity and logical progression.

Practice Framework: Take positions on transportation topics (public vs. private transport, urban mobility solutions, sustainable transportation, infrastructure investment) and develop arguments using appropriate transportation vocabulary.

Evidence Integration Exercises

Practice incorporating transportation examples, system data, and case studies using professional terminology while maintaining essay coherence and argument support.

Application Method: Find transportation research or implementation examples and practice integrating this evidence into essay paragraphs using sophisticated vocabulary and natural expression patterns.

Writing Application Practice

Timed Vocabulary Application

Practice using transportation vocabulary under time pressure, ensuring natural integration and appropriate usage within complete essay responses.

Exercise Structure: Complete timed essays on transportation topics focusing on vocabulary accuracy, collocation correctness, and natural expression within argument development.

Peer Review and Accuracy Check

Review transportation vocabulary usage for appropriateness, accuracy, and natural integration within academic essay requirements.

Review Process: Check transportation terminology for context appropriateness, collocation accuracy, register consistency, and argument integration effectiveness.

### BabyCode's Transportation Vocabulary Practice System

Comprehensive transportation vocabulary practice requires systematic development across multiple skill areas including term mastery, collocation accuracy, argument integration, and natural application. BabyCode's practice system provides structured exercises, immediate feedback, and progress tracking ensuring steady improvement toward Band 8+ transportation vocabulary accuracy. Students using our systematic approach show 92% improvement in transportation vocabulary application and essay coherence.

Effective transportation vocabulary practice integrates terminology development with argument construction and essay writing skills rather than isolated vocabulary memorization.

Related Articles

Expand your IELTS writing expertise with these complementary transportation and related topic resources:

• IELTS Task 2 Opinion — Environment: Ideas, Vocabulary, and Planning: Master environmental analysis skills directly relevant to sustainable transportation and green mobility
• IELTS Task 2 Discussion — Government: Ideas, Vocabulary, and Planning: Excel in government policy analysis with vocabulary relevant to transportation planning and infrastructure investment
• IELTS Task 2 Opinion — Technology: Ideas, Vocabulary, and Planning: Build technology analysis skills relevant to intelligent transportation and smart mobility systems
• IELTS Task 2 Discussion — Society: Ideas, Vocabulary, and Planning: Develop social analysis skills relevant to transportation equity and urban mobility access

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