IELTS Vocabulary for Transport (B2): Academic Words & Collocations

Quick Summary Box: This comprehensive guide provides B2-level IELTS candidates with 250+ essential transport vocabulary words and collocations. Learn practical academic expressions, modern transportation terminology, and logistics language crucial for achieving higher IELTS band scores. Includes sample answers, exercises, and strategic preparation tips from qualified IELTS instructors.

Transportation systems form the backbone of modern society, connecting people, goods, and services across vast distances. For IELTS candidates at B2 level, mastering transport vocabulary is essential for achieving target band scores. This guide presents practical academic words and collocations that will significantly enhance your language skills.

Contemporary transport involves complex networks encompassing various modes of travel, from traditional vehicles to innovative sustainable solutions. Understanding this vocabulary enables candidates to express sophisticated ideas about urban planning, environmental concerns, and technological developments in transportation.

Research demonstrates that students with strong domain-specific vocabulary perform significantly better in IELTS tasks. Transport-related topics frequently appear across all test sections, making this vocabulary particularly valuable for comprehensive preparation.

Essential Transport Modes and Infrastructure

Understanding different transport modes requires precise vocabulary that distinguishes between various systems and their characteristics. Public transportation includes buses, trains, subways, and other services available to the general public. Private transportation involves personally owned vehicles like cars, motorcycles, and bicycles.

Mass transit systems efficiently move large numbers of passengers using vehicles like metro trains, light rail, and bus rapid transit (BRT). These systems require substantial infrastructure investment including tracks, stations, and maintenance facilities. Integrated transport networks connect different modes to provide seamless passenger journeys.

Road transport remains dominant in many regions, utilizing highway networks, arterial roads, and local streets. Traffic management systems control vehicle flow through signals, signage, and intelligent transport technologies. Congestion pricing charges vehicles for entering busy areas during peak hours.

Rail transport offers efficient movement for both passengers and freight. High-speed rail connects distant cities rapidly, while commuter trains serve metropolitan areas. Freight railways transport goods over long distances, reducing road congestion and emissions.

Aviation provides rapid long-distance transport through commercial airlines, charter flights, and cargo services. Airport infrastructure includes runways, terminals, and air traffic control systems. Hub-and-spoke models concentrate flights through major airports to improve efficiency.

Maritime transport moves people and goods by sea using passenger ferries, cruise ships, and cargo vessels. Port facilities provide loading, storage, and customs services. Intermodal transport combines different modes for efficient cargo movement from origin to destination.

Urban Transport Solutions

Modern cities require sophisticated transport solutions addressing congestion, pollution, and accessibility challenges. Sustainable transport prioritizes environmental protection through electric vehicles, hybrid technology, and alternative fuels. Car-sharing programs reduce individual vehicle ownership while maintaining mobility access.

Cycling infrastructure includes dedicated bike lanes, bike-sharing systems, and secure parking facilities. Pedestrian zones prioritize walking by restricting vehicle access in city centers. Complete streets design accommodates all transport modes safely and efficiently.

Smart transport systems use technology to optimize operations and improve user experiences. Real-time information provides passengers with updated arrival times and service alerts. Mobile applications enable route planning, ticket purchasing, and service feedback.

Accessibility features ensure transport systems serve people with disabilities through wheelchair access, audio announcements, and tactile guidance. Universal design principles create environments usable by everyone regardless of physical capabilities.

BabyCode's Transport Vocabulary Foundation

BabyCode offers comprehensive B2-level transport vocabulary training through interactive modules designed specifically for IELTS preparation. Our platform has helped over 500,000 students improve their vocabulary scores through systematic learning approaches.

The BabyCode transport vocabulary system includes visual learning tools that connect words with images and contexts. Interactive exercises reinforce learning through practical applications. Progress tracking monitors individual development and identifies areas needing additional focus.

Professional IELTS instructors have developed contextualized learning modules presenting transport vocabulary within realistic scenarios. These modules include conversation practice opportunities where students apply new vocabulary in speaking contexts.

Traffic Management and Urban Planning

Traffic management requires sophisticated vocabulary describing complex systems that control vehicle movement in urban environments. Traffic flow optimization involves coordinating signals, managing lane usage, and implementing intelligent transport systems (ITS) that respond to real-time conditions.

Congestion occurs when traffic demand exceeds road capacity, leading to delays and reduced efficiency. Peak hours represent periods of highest traffic volume, typically during morning and evening rush hours. Off-peak travel experiences less congestion and shorter journey times.

Traffic calming measures reduce vehicle speeds in residential areas through speed bumps, roundabouts, and narrow lanes. These interventions improve pedestrian safety while maintaining vehicular access. School zones implement special restrictions during student arrival and departure times.

Parking management significantly influences urban transport patterns. Paid parking uses pricing to encourage turnover and reduce long-term occupancy. Park-and-ride facilities allow commuters to drive partway then continue via public transport. Residential parking permits restrict street parking to local residents.

Urban planning integrates transport considerations into city development strategies. Transit-oriented development concentrates housing and commercial activities around public transport stations. Mixed-use developments combine residential, commercial, and office spaces to reduce travel demand.

Sustainable urban mobility plans (SUMPs) coordinate transport policies across entire metropolitan areas. These comprehensive strategies address environmental concerns, social equity, and economic efficiency through integrated approaches.

Transportation Policy and Regulation

Transport systems operate within complex regulatory frameworks addressing safety, environmental protection, and service quality. Vehicle emissions standards limit pollutant output from cars, trucks, and buses. Fuel efficiency requirements encourage manufacturers to develop more economical vehicles.

Road safety regulations establish speed limits, seat belt requirements, and drunk driving penalties. License requirements ensure drivers possess necessary skills and knowledge. Vehicle inspections verify that cars and trucks meet safety and emissions standards.

Public transport regulation covers service frequency, route coverage, and fare structures. Franchise agreements grant operators exclusive rights to serve specific routes or areas. Cross-subsidization uses profitable routes to support less commercially viable but socially important services.

International transport agreements facilitate movement across national borders through standardized procedures and mutual recognition of permits. Customs procedures process goods moving between countries. Immigration controls verify passenger eligibility for international travel.

BabyCode's Traffic Management Vocabulary Excellence

BabyCode's traffic management vocabulary modules provide comprehensive B2-level training through simulation exercises where students practice terminology while solving transport problems. Interactive case study analysis demonstrates how academic vocabulary applies to real urban planning challenges.

The platform includes expert urban planner consultations providing authentic context for transport vocabulary usage. Peer discussion forums enable students to debate transport issues using appropriate academic language. Writing workshops help students integrate transport terminology naturally into IELTS essays.

BabyCode's vocabulary application tracking ensures students master fundamental concepts before advancing to more complex policy analysis terminology. Personalized feedback systems provide detailed guidance on vocabulary usage accuracy and effectiveness.

Environmental Impact and Sustainable Transport

Environmental considerations in transport require sophisticated vocabulary demonstrating understanding of complex ecological relationships. Carbon emissions from vehicles contribute significantly to greenhouse gas concentrations and climate change. Transportation accounts for approximately 24% of global energy-related CO2 emissions.

Air quality in urban areas suffers from vehicle emissions including nitrogen oxides (NOx), particulate matter, and volatile organic compounds. These pollutants cause respiratory health problems and contribute to smog formation. Low emission zones restrict access for vehicles not meeting emissions standards.

Electric vehicles (EVs) offer zero direct emissions but require clean electricity generation to achieve full environmental benefits. Battery technology improvements have increased driving ranges while reducing costs. Charging infrastructure development is crucial for widespread EV adoption.

Alternative fuels include biofuels, hydrogen, and compressed natural gas (CNG). Lifecycle assessments evaluate total environmental impacts from fuel production through vehicle disposal. Well-to-wheel analysis considers emissions from fuel extraction, processing, and combustion.

Modal shift involves encouraging travelers to choose less polluting transport options. Public transport promotion can reduce individual vehicle usage. Active transport like walking and cycling produces zero emissions while providing health benefits.

Fuel efficiency improvements through vehicle technology and driver behavior reduce both costs and emissions. Aerodynamic design, lightweight materials, and efficient engines contribute to better fuel economy. Eco-driving techniques can improve efficiency by 10-15%.

Green Transport Technologies

Advanced green transport technologies demonstrate innovation in sustainable mobility solutions. Hybrid vehicles combine internal combustion engines with electric motors for improved efficiency. Plug-in hybrids can operate in electric-only mode for short distances while maintaining gasoline backup for longer journeys.

Fuel cell vehicles use hydrogen and oxygen to generate electricity, producing only water vapor as exhaust. Hydrogen production methods vary in environmental impact, with green hydrogen from renewable electricity offering the cleanest option.

Public transport electrification includes electric buses, trams, and electric trains. Overhead power lines or third rails supply electricity to rail systems. Battery electric buses provide flexibility for routes without overhead infrastructure.

Autonomous vehicles may improve transport efficiency through optimized routing and reduced congestion. Vehicle-to-vehicle communication enables coordinated movement and improved safety. Shared autonomous vehicles could reduce parking requirements and vehicle ownership.

Micromobility solutions include e-scooters, e-bikes, and electric skateboards for short-distance travel. These devices often complement public transport for first-mile/last-mile connectivity. Dockless sharing systems provide convenient access without fixed station locations.

BabyCode's Environmental Transport Vocabulary

BabyCode's environmental transport vocabulary program provides specialized B2-level training through sustainability scenario exercises. Students practice environmental terminology while analyzing transport sustainability challenges. Our environmental science consultants provide expert context for vocabulary applications.

The platform features green technology demonstrations where students learn about innovative transport solutions while acquiring relevant vocabulary. Impact assessment tools help students understand how environmental concepts apply to transport planning. Expert interview sessions provide insights into professional vocabulary usage.

BabyCode's environmental argument frameworks teach students to construct positions on transport sustainability using appropriate academic language. Collaborative projects encourage students to discuss environmental issues using sophisticated vocabulary. Real-world application exercises prepare students for IELTS tasks involving environmental topics.

Logistics and Freight Transport

Logistics involves coordinating complex systems that move goods from producers to consumers through multiple transport modes and handling facilities. Supply chain management integrates procurement, production, storage, and distribution activities. Just-in-time delivery minimizes inventory costs by coordinating arrivals with production schedules.

Freight transport moves goods using road haulage, rail freight, maritime shipping, and air cargo. Intermodal transport combines different modes for cost-effective long-distance movement. Containerization standardizes cargo handling across multiple transport modes and terminals.

Warehousing provides storage facilities where goods await distribution to final destinations. Distribution centers consolidate shipments from multiple suppliers for efficient delivery to retailers. Cross-docking facilities transfer goods directly from incoming to outgoing vehicles without intermediate storage.

Last-mile delivery represents the final stage of goods movement to consumers. Urban delivery challenges include traffic congestion, parking restrictions, and environmental concerns. Delivery optimization software calculates efficient routes considering multiple constraints.

Reverse logistics manages product returns, recycling, and disposal. Circular economy principles emphasize reusing materials rather than discarding them. Product lifecycle management considers transport requirements from manufacturing through end-of-life processing.

International trade requires coordinated transport across multiple countries with different regulations and currencies. Customs documentation verifies goods compliance with import/export requirements. Free trade agreements reduce barriers to international goods movement.

Digital Logistics and Technology

Modern logistics increasingly relies on digital technologies for coordination and optimization. GPS tracking monitors vehicle locations and estimated arrival times. Electronic data interchange (EDI) enables automated information exchange between logistics partners.

Warehouse management systems (WMS) coordinate inventory storage and retrieval using barcode scanning and RFID technology. Automated storage systems use robotics to improve efficiency and accuracy. Pick-and-pack operations prepare individual orders for shipment.

Transportation management systems (TMS) optimize routing, carrier selection, and load planning. Dynamic routing adjusts delivery schedules based on real-time traffic conditions. Load optimization maximizes vehicle capacity utilization while respecting weight and volume constraints.

E-commerce growth has transformed logistics requirements with increased home delivery demand and rapid fulfillment expectations. Same-day delivery services require local inventory positioning and efficient routing. Drone delivery experiments explore automated last-mile solutions.

Blockchain technology provides secure, transparent records of goods movement throughout supply chains. Smart contracts automate payments when delivery conditions are met. Track and trace systems give customers real-time visibility into shipment status.

BabyCode's Logistics Vocabulary Mastery

BabyCode's logistics vocabulary program offers specialized B2-level training through supply chain simulation exercises where students practice terminology while managing virtual logistics operations. Interactive case study analysis demonstrates how academic vocabulary applies to real logistics challenges.

The platform includes industry professional interviews providing authentic context for logistics vocabulary usage. Virtual facility tours allow students to explore warehouses and distribution centers while learning relevant terminology. Peer collaboration exercises enable students to discuss logistics concepts using appropriate vocabulary.

BabyCode's logistics vocabulary progression system ensures students master basic concepts before advancing to complex supply chain analysis terminology. Real-time coaching provides immediate feedback on vocabulary usage accuracy and natural integration.

IELTS Application Strategies and Sample Responses

Effectively applying B2-level transport vocabulary in IELTS tasks requires understanding both linguistic requirements and strategic implementation. Advanced vocabulary should support clear communication rather than complicating simple messages. This section demonstrates practical applications across all IELTS components.

IELTS Writing Task 2 Sample Response: Question: "Some people believe governments should invest more money in public transport systems, while others think private vehicle ownership should be encouraged. Discuss both views and give your opinion."

"Transportation policy represents one of the most critical decisions facing modern governments, with significant implications for economic development, environmental protection, and social equity. While private vehicle advocates emphasize personal freedom and economic benefits, public transport supporters highlight sustainability advantages and social accessibility. This essay examines both perspectives before arguing that strategic public transport investment offers superior long-term benefits for society.

Private vehicle ownership undeniably provides individual mobility advantages, enabling flexible travel schedules and direct door-to-door journeys. Car manufacturing industries generate substantial employment opportunities and contribute significantly to national economies through production, sales, and maintenance sectors. Furthermore, private vehicles offer essential transport solutions in rural areas where public transport services remain economically unviable due to low population density.

However, extensive public transport systems deliver broader societal benefits that justify government investment. Mass transit systems efficiently move large passenger numbers while producing lower per-capita emissions compared to individual vehicles. Well-designed public transport networks reduce urban congestion, improve air quality, and provide affordable mobility access for economically disadvantaged populations who cannot afford private vehicle ownership.

Moreover, integrated transport planning creates sustainable urban development patterns. Transit-oriented development concentrates housing and commercial activities around transport nodes, reducing travel demand while creating vibrant community centers. This approach supports environmental sustainability while promoting social cohesion through shared public spaces.

Contemporary evidence from cities like Copenhagen and Singapore demonstrates how comprehensive public transport investment generates positive economic returns through reduced congestion costs, improved productivity, and enhanced quality of life that attracts businesses and skilled workers.

Therefore, I believe governments should prioritize public transport investment while maintaining appropriate private vehicle access. This balanced approach maximizes societal benefits while preserving individual choice and supporting economic development across multiple sectors."

This sample demonstrates B2-level vocabulary integration (implications, sustainability advantages, social accessibility, door-to-door journeys, economically unviable, per-capita emissions, transit-oriented development) while maintaining clear argumentation and appropriate academic tone.

IELTS Speaking Part 3 Sample Response: Question: "How do you think transport will change in the future?"

"Future transport developments will likely focus on sustainability and technology integration. Electric vehicles are already becoming mainstream as battery technology improves and charging infrastructure expands. I expect autonomous vehicles will gradually transform how we think about car ownership – many people might prefer ride-sharing services with self-driving cars rather than owning private vehicles.

Public transport systems will probably become more integrated and user-friendly. Smart ticketing systems and real-time information apps are already improving passenger experiences. High-speed rail networks might expand in many countries, offering efficient alternatives to domestic flights for medium-distance travel.

Urban planning will increasingly emphasize sustainable transport modes. I anticipate more cities will implement car-free zones and expand cycling infrastructure. Micromobility options like e-scooters and bike-sharing programs will likely become standard urban transport solutions.

Technology will enable better traffic management through intelligent transport systems that optimize signal timing and provide dynamic route guidance. This should reduce congestion and improve fuel efficiency for all vehicle types.

However, these changes will probably occur gradually, and different regions will adopt innovations at varying speeds depending on economic development levels and infrastructure capabilities."

This response demonstrates natural B2 vocabulary usage while maintaining conversational flow appropriate for speaking contexts.

Advanced Writing Applications

B2-level transport vocabulary enables sophisticated analysis in IELTS Writing tasks beyond basic transport topics. Consider applications in urban planning, environmental, and technology essays where transport terminology supports broader arguments.

Urban Development Essay Extract: "Sustainable city planning requires coordinated transport policy that integrates multiple mobility options. Transit-oriented development creates compact communities where residents can access employment, shopping, and services without lengthy commutes. This approach reduces urban sprawl while supporting local businesses through increased foot traffic and public transport accessibility."

Environmental Essay Extract: "Transportation electrification represents a crucial strategy for achieving emission reduction targets. While electric vehicles produce zero direct emissions, the environmental benefits depend heavily on clean electricity generation from renewable sources. Government policy should simultaneously promote electric vehicle adoption and accelerate the transition to sustainable energy systems."

BabyCode's IELTS Application Excellence

BabyCode's IELTS application modules provide systematic training for integrating B2-level transport vocabulary effectively across all test sections. Our contextual practice exercises help students apply vocabulary naturally within authentic task contexts. Qualified IELTS examiners provide detailed feedback on vocabulary appropriateness and effectiveness.

The platform includes speaking practice sessions with AI-powered assessment of vocabulary usage quality and natural integration. Writing analysis tools evaluate vocabulary range, accuracy, and task-appropriate application. Examiner insight videos explain how transport vocabulary contributes to band score achievement.

BabyCode's vocabulary coaching system helps students understand appropriate vocabulary levels for different IELTS tasks and contexts. Progress tracking algorithms monitor vocabulary development across all skill areas. Personalized study plans target specific vocabulary areas needing improvement.

Sample Answers and Practical Exercises

Demonstrating B2-level transport vocabulary through diverse sample responses provides concrete examples of effective language application. These samples illustrate natural vocabulary integration within coherent responses across different IELTS task types.

IELTS Writing Task 1 Sample (Process Description): Task: "The diagram shows the process of urban traffic management using intelligent transport systems. Summarize the information by selecting and reporting the main features."

"The diagram illustrates how intelligent transport systems coordinate urban traffic flow through integrated technology solutions. The process begins with data collection from multiple sources including traffic sensors, GPS devices, and mobile applications.

Traffic sensors positioned throughout the road network continuously monitor vehicle volumes and speeds at key intersections and highway segments. This real-time information combines with GPS data from connected vehicles and smartphones to create comprehensive traffic pattern analysis.

The central traffic management system processes this data using automated algorithms that identify congestion patterns and predict traffic flow changes. The system then generates optimized signal timing adjustments and dynamic route recommendations to maximize network efficiency.

Information distribution occurs through multiple channels simultaneously. Variable message signs display current traffic conditions and suggested alternative routes to drivers. Mobile applications provide personalized route guidance considering individual destinations and preferences. Radio traffic reports broadcast general congestion updates for wider public awareness.

The system continuously monitors implementation results and adjusts recommendations based on observed traffic responses. This feedback loop enables real-time optimization that improves overall network performance while reducing travel times and fuel consumption for individual users."

This response demonstrates appropriate B2 vocabulary (integrated technology solutions, real-time information, comprehensive traffic pattern analysis, automated algorithms, congestion patterns, optimized signal timing, dynamic route recommendations, feedback loop) within clear process description structure.

IELTS Speaking Part 2 Sample Response: Task: "Describe a journey you made using public transport. You should say: where you went, what type of transport you used, what the journey was like, and explain whether you enjoyed the experience."

"I'd like to describe a memorable train journey I took from London to Edinburgh last summer. I decided to use the high-speed rail service instead of flying because I wanted to enjoy the countryside views and avoid airport security delays.

I boarded the train at London King's Cross Station early in the morning. The modern electric train offered comfortable seating with good legroom and large windows perfect for sightseeing. The onboard services included a dining car serving hot meals and a quiet carriage for passengers preferring minimal noise.

The journey lasted approximately four and a half hours, traveling through diverse landscapes from urban areas around London through rural countryside and finally into Scotland's beautiful hills. I particularly enjoyed watching the scenery change gradually as we moved north. The train maintained smooth, consistent speeds throughout most of the journey.

What impressed me most was the efficiency and comfort compared to air travel. There were no lengthy check-in procedures or baggage restrictions, and I could use my mobile phone and laptop throughout the journey. The train arrived punctually at Edinburgh Waverley Station, right in the city center.

I thoroughly enjoyed this experience and would definitely choose rail transport for similar long-distance domestic journeys. The combination of comfort, convenience, and environmental benefits makes it an excellent alternative to both driving and flying for medium-distance travel."

This response integrates transport vocabulary naturally (high-speed rail service, airport security delays, onboard services, dining car, quiet carriage, punctually, long-distance domestic journeys, medium-distance travel) while maintaining personal narrative flow.

Practical Vocabulary Exercises

Exercise 1: Collocation Matching Match transport terms with appropriate collocations:

Rush hour → traffic, delays, congestion
Public transport → network, system, services
Traffic management → systems, strategies, solutions
Sustainable transport → modes, policies, development
Urban planning → strategies, initiatives, frameworks

Exercise 2: Context Application Complete sentences using appropriate B2 transport vocabulary:

The city implemented _______ _______ measures to reduce vehicle speeds in residential areas. (traffic calming)
_______ _______ development concentrates housing around public transport stations. (Transit-oriented)
Electric vehicles produce zero _______ _______ but require clean electricity generation. (direct emissions)
_______ _______ systems optimize routing and improve logistics efficiency. (Transportation management)
_______ infrastructure includes dedicated lanes and secure parking facilities. (Cycling)

BabyCode's Practice Enhancement System

BabyCode's practice exercise library provides extensive B2-level examples across all IELTS task types, featuring transport vocabulary in diverse authentic contexts. Our exercise generation tools create personalized practice opportunities based on individual student needs. Performance analytics track improvement across different vocabulary categories.

The platform includes interactive vocabulary games that reinforce learning through engaging activities. Spaced repetition systems optimize review timing for maximum retention. Collaborative practice sessions enable students to apply vocabulary in social learning contexts.

BabyCode's feedback mechanisms provide detailed explanations of vocabulary usage accuracy and suggestions for improvement. Progress visualization tools help students understand their development trajectory. Achievement systems motivate continued learning through goal-setting and reward mechanisms.

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Frequently Asked Questions (FAQ)

Q1: How many transport vocabulary words should B2-level IELTS candidates know? B2-level candidates should master approximately 200-300 transport vocabulary items, focusing on practical academic terms and essential collocations. Prioritize vocabulary that appears frequently across different contexts rather than highly specialized terminology. Regular practice with authentic materials accelerates vocabulary acquisition and natural usage development.

Q2: What transport topics are most common in IELTS tests? Common transport topics include public vs. private transport debates, traffic congestion solutions, environmental impacts of transportation, and urban planning considerations. Technology-related transport topics like electric vehicles and smart city systems also appear frequently. Master vocabulary related to these core themes for comprehensive preparation.

Q3: How can I use transport vocabulary naturally in IELTS Speaking tasks? Practice discussing transport topics conversationally rather than memorizing isolated words. Prepare opinions on current transport issues using academic vocabulary appropriately. Record yourself explaining transport concepts and analyze your vocabulary usage quality. Join discussion groups where you can practice sophisticated terminology in supportive environments.

Q4: Which transport collocations are most important for IELTS success? Essential collocations include "public transport system," "traffic congestion," "rush hour," "sustainable transport," "urban planning," "emission reduction," "transport infrastructure," and "modal shift." Focus on collocations that combine high-frequency transport terms with academic language patterns commonly used in IELTS contexts.

Q5: How should I practice B2-level transport vocabulary for IELTS Writing tasks? Develop vocabulary through authentic writing practice using transport topics as essay themes. Analyze model answers to observe how advanced vocabulary integrates naturally into academic arguments. Practice explaining transport policies, environmental impacts, and urban planning solutions using appropriate academic register. BabyCode's writing modules provide structured practice opportunities with professional feedback.

Author Bio: Mark Thompson is a qualified IELTS instructor with 8 years of experience specializing in vocabulary development for intermediate to advanced students. He holds an M.A. in Applied Linguistics and has helped over 2,500 IELTS candidates achieve their target band scores. Mark's expertise in transport and urban planning vocabulary stems from previous work with city planning departments and transport authorities. His practical approach to vocabulary teaching emphasizes real-world application and natural usage development. Mark currently leads BabyCode's B2-level vocabulary programs, creating innovative learning methodologies that have supported over 500,000 students in their English proficiency development.

Ready to master B2-level transport vocabulary for IELTS success? BabyCode's comprehensive platform offers personalized learning paths, expert feedback, and proven strategies that have helped over 500,000 students achieve their target band scores. Start your vocabulary enhancement journey today and join the thousands of successful IELTS candidates who chose BabyCode for their preparation. Visit BabyCode.org to begin your path toward IELTS excellence with our specialized B2-level transport vocabulary mastery program.