Scientists said taller people would be at no more risk if the virus was mainly spread through sneezing or coughing, which produce larger droplets that fall to the ground quickly.
Health officials have so far ruled out that Covid-19 is airborne. But admitted recently they are reviewing "emerging evidence" that it is.
The average man in England was 1.75m (5ft 9") and the average woman was 1.61m (5ft 3") in 2010, according to official data.
The survey results were analysed by a team of data scientists in the UK, Norway and the US, led by experts at the University of Oxford.
The study looked at a range of personal and work-related factors that may affect the risk of infection with SARS-Cov-2, the virus which causes Covid-19.
Respondents were asked about their employment status, income, how they travel to work, if they live with other people and if they socialised a lot, among other factors.
Of the 2,000 people surveyed — including 1,000 in the UK and 1,000 in the US, 339 people were over 1.82m tall.
Analysis that has yet to be scrutinised by fellow scientists showed taller people were more likely to be diagnosed with Covid-19.
In the UK, men and women faced more than double the risk of Covid-19 compared to those under six feet.
The odds were slightly lower in the US for men but extremely high for women — who were more than nine times more likely to get the virus.
But because there were such a tiny proportion of women over six feet in the data, the researchers did not say the finding was significant.
The link between height and Covid-19 was only seen in the UK, and the researchers did not offer an explanation for this.
It may be explained by other factors such as larger men working in construction, where they may be at greater risk.
Height has previously been linked to the development of diseases such as dementia and an irregular heart beat, which scientists believe could be due to genetic variants or growth hormones.
But in this study, the researchers did not suggest tall people were more at risk of Covid-19 due to their biology.
The findings support the theory that tiny coronavirus particles emitted through exhaling and speaking may linger in the air for hours.
World Health Organisation scientists earlier this month admitted there is "evidence emerging" that the coronavirus can be spread through the air.
The UN agency previously said the virus spreads primarily through droplets expelled from the nose and mouth of an infected person.
These quickly sink to the ground but can land in the nose or mouth of other people close by. They also land on surfaces, where the virus can be picked up.
But there have been calls for the WHO to update its guidance to warn the infection can linger in the air and be inhaled by others.
Airborne transmission means a virus can be spread in aerosols — droplets so small that they can float in the air after being exhaled.
Experts said taller people wouldn't be at any higher risk if transmission was mainly through droplets — but because they are taller they may be exposed to more of the particles, the team hypothesised.
The paper — which has not yet been published in a medical journal — said: "If large downward falling droplets were more significant, then taller people might be expected to be less at risk."
The one to two metre social distancing rule is based on the fact droplets do not carry through the air.
But if SARS-Cov-2 does indeed spread via aerosols, as growing evidence suggests, it would have huge implications for controlling the disease.
It could mean mask wearing is even more important than thought, according to Professor Evan Kontopantelis, from the University of Manchester.
Discussing the findings, he said: "The results of this survey ... suggest ... aerosol transmission is possible.
"This has been suggested by other studies but our method of confirmation is novel.
"Though social distancing is still important because transmission by droplets is still likely to occur, it does suggest that mask wearing may be just as if not more effective in prevention.
"But also, air purification in interior spaces should be further explored."
Professor Paul Anand, a research director at the Open University, said: "Much scientific research has focused on patterns of spread and underlying mechanisms of transmission.
"But as economies and societies reopen, it is important to know more about the role of personal factors as predictors of transmission.
"Though both are market economies, the US and UK differ in the extent and manner in which they provide access to health care and welfare support – and that to some extent is demonstrated by the associations shown by the data."
The study also found people were more likely to get coronavirus if they needed to travel to work using public transport.
Though the paper has yet to be peer reviewed, the authors wanted to reveal their findings amid the debate over aerosol transmission.
Commenting on the findings, Paul Hunter, a professor in medicine at the University of East Anglia, said: "In my view this preprint should be interpreted with caution.
"The authors analysed a substantial number of possible predictors for a range of outcome measures.
"One of the biggest mistakes that people make with epidemiological surveys is multiple hypothesis testing. The more hypothesis tests you do the more likely you are to flag up associations that have only arisen by chance.
"In my view this analysis does not even provide convincing evidence that tall people are protected from the infection never mind whether this means that there is aerosol transmission."