No, not that H2.
This H2.
Given a volume of hydrogen gas at STP here on Earth, does anyone know of a formula that will calculate the largest mass it will be capable of lifting? Alternatively, a formula for calculating what volume of hydrogen gas at STP is required to lift a certain mass would work equally well.
Also, does anyone know if the composition of the environment the hydrogen is placed makes a difference? As an extreme example, would a volume of H2 rise more slowly, at the same rate, or faster in an N2 environment than an equal volume of H2 within a UF6 environment?
This H2.
Given a volume of hydrogen gas at STP here on Earth, does anyone know of a formula that will calculate the largest mass it will be capable of lifting? Alternatively, a formula for calculating what volume of hydrogen gas at STP is required to lift a certain mass would work equally well.
Also, does anyone know if the composition of the environment the hydrogen is placed makes a difference? As an extreme example, would a volume of H2 rise more slowly, at the same rate, or faster in an N2 environment than an equal volume of H2 within a UF6 environment?