The 2026 World Cup is the largest in history: 48 teams, 16 venues, three host nations, and a footprint that runs from Vancouver in the northwest to Miami in the southeast and down to Mexico City. No previous tournament asked teams to cover anything like this much ground. And the draw distributes that burden unevenly. Some teams stay clustered in one corner of the map for the whole group stage. Others crisscross the continent.
To measure it, we took each team's three group-stage venues in order and calculated the distance between them: the actual in-tournament travel a squad faces once the tournament begins, separate from the one-time journey to get there. The gap between the heaviest and lightest draws is large enough to matter.
The longest internal itineraries
The team with the most group-stage travel is Bosnia and Herzegovina. Their three venues are Toronto, Los Angeles, and Seattle, a sequence of roughly 5,060 km that also carries a three-hour time-zone swing, the largest in the group stage. A coast-to-coast hop followed by a north-south leg is the hardest single draw in the tournament. The model still gives them a 49% chance to advance from their group, but the schedule does them no favours.
Just behind sit two more European and African sides. Algeria drew Kansas City, the San Francisco Bay Area, and back to Kansas City, about 4,800 km of round-trip travel for a 63% advancement chance. The Czech Republic drew Guadalajara, Atlanta, and Mexico City, roughly 4,540 km, and as we covered in our companion post on conditions, that itinerary also takes in two of the tournament's highest-altitude venues. The Czechs may have drawn the single hardest physical schedule in the field once travel and elevation are combined.
Rounding out the heaviest draws: South Africa (about 3,940 km, Mexico City to Atlanta to Monterrey), DR Congo (3,660 km), and Ecuador (3,400 km).
Here are the ten longest group-stage itineraries:
| Team | Group-stage travel | Venue sequence |
|---|---|---|
| Bosnia and Herzegovina | ~5,060 km | Toronto → Los Angeles → Seattle |
| Algeria | ~4,800 km | Kansas City → San Francisco Bay Area → Kansas City |
| Czech Republic | ~4,540 km | Guadalajara → Atlanta → Mexico City |
| South Africa | ~3,940 km | Mexico City → Atlanta → Monterrey |
| DR Congo | ~3,660 km | Houston → Guadalajara → Atlanta |
| Ecuador | ~3,400 km | Philadelphia → Kansas City → New York/NJ |
| Canada | ~3,360 km | Toronto → Vancouver → Vancouver |
| Belgium | ~3,300 km | Seattle → Los Angeles → Vancouver |
The host nations are not all spared
It is natural to assume the host teams get the easiest logistics. That holds for two of the three. Mexico stay almost entirely in Mexico City, with one short hop to Guadalajara. The United States drew a compact western and central cluster.
Canada did not. Their group sends them from Toronto to Vancouver and back to Vancouver, about 3,360 km coast to coast, with a three-hour time-zone swing matching Bosnia's for the widest in the group stage. Being a host guarantees home support and familiar surroundings. It does not guarantee a short flight. Canada's draw is heavier than that of most visiting European sides.
The teams that drew the easy map
At the other end, several teams barely move. Egypt have the lightest itinerary of all: Seattle, Vancouver, and back to Seattle, around 390 km in total with no time-zone change at all. Paraguay (about 505 km), Senegal (540 km), and Panama (540 km) all stay tightly clustered.
The pattern that should interest neutral observers is where the favourites landed. France, fourth in the model's winner table, drew a compact eastern triangle of New York/New Jersey, Philadelphia, and Boston, about 545 km.
Argentina, the model's second-favourite at 17.3% to win the tournament, drew Kansas City, Dallas, and Dallas again, roughly 740 km with no time-zone change. Two of the model's top four both landed among the lightest travel schedules in the tournament. That is not a causal claim about the draw. It is a note that the logistical luck ran with the favourites this time, not against them.
The five lightest group-stage itineraries:
| Team | Group-stage travel | Venue sequence |
|---|---|---|
| Egypt | ~390 km | Seattle → Vancouver → Seattle |
| Paraguay | ~505 km | Los Angeles → San Francisco Bay Area → SF Bay Area |
| Senegal | ~540 km | New York/NJ → New York/NJ → Toronto |
| Panama | ~540 km | Toronto → Toronto → New York/NJ |
| France | ~545 km | New York/NJ → Philadelphia → Boston |
Does travel actually move results?
The honest answer is that the effect is real but small, and our model does not encode it directly. The model is team-level and results-driven: it rates each side on the outcomes of the matches it has played and projects those forward. There is no travel term, no fatigue penalty for a long flight in the schedule.
Sports-science research on travel and jet lag generally finds a modest performance cost, concentrated where teams cross several time zones quickly or compete on short rest after a long trip. Across a three-match group stage, a 5,000 km itinerary is more taxing than a 400 km one, but it is unlikely to flip a team that is clearly stronger on the pitch. Where it can tip a close margin is at the edges: a side already rated near the advancement cut line, drawing the heaviest travel, loses a sliver of its already-thin probability.
So read these distances as context the headline numbers do not contain. When the model gives a borderline team a 49% advancement chance and that same team drew the longest flight map in the tournament, the travel sits on the pessimistic side of that coin toss. It will not decide a group on its own. It is one more thing the favourites, this time, did not have to carry.
How we measured it
Each figure is the great-circle distance between a team's three group-stage venues, taken in fixture order. It captures internal tournament travel only and excludes the initial journey from home, which is broadly similar for every team from a given continent. Real flight paths are longer than great-circle lines, and charter routing varies, so treat the numbers as a consistent relative ranking rather than exact air miles. Time-zone swings are computed from each venue's local offset.
Where to read more
Every team's group and advancement probabilities are on the tournament dashboard, and each fixture's venue is on its match page. Our companion piece maps the altitude and heat draw. The methodology is at /docs/methodology/.
All probabilities in this post are model outputs as of the latest snapshot. They are for research and educational purposes only — not betting advice, not financial advice, not recommendations to gamble. The model can be wrong. Methodology: /docs/methodology/. Full Terms of Use.