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I came across this article, by H. Vic Dannon, where he argues that the cardinality of a powerset is not necessarily strictly bigger than the cardinality of the set, and the problem arises when one starts applying properties of finite sets to infinite sets. But that's not the point I am concerned with... On pages 4-5 he describes a purported injection from reals to rationals, more precisely from (0, 1) to rationals. I am not very good at math, so as I read the description I couldn't find the mistake. Could someone please explain where his flaw is (I presume there is one)? Thank you very much.

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    But everything else [here](http://www.gauge-institute.org/) is good, right? :)2012-01-28

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The problem with that argument is that his ‘dictionary listing of the Real numbers’ includes only those sequences that are $0$ from some point on. In other words, he gets only the so-called dyadic rationals in $(0,1)$, those that can be written as a fraction whose denominator is a power of $2$. In particular, it does not include $\sqrt2$, his assertion to the contrary notwithstanding. Since he lists only countably many of the real numbers, it’s no surprise that he is able to find an injection from them into the rationals. He could, in fact, simply have let $f(x)=x$ for each $x$ in his list, and $f$ would have been an injection from his list into the rationals!

The essay is a rather sad exhibition of someone’s reach greatly exceeding his grasp: the author clearly understands very little of the mathematics that he attempts to bring to bear on a non-existent problem.

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    @BrianM.Scott Just curious on your thoughts on alerting student to be aware of those math and physics "quacks." I recall years ago (20 or so) my receiving an unsolicited news letter in which the author(s) claimed to have demonstrative (and simple) proof that the special theory of relativity was incorrect. Recently, I found a treatise by H. Vic Dannon on Riemann versus Lebesgue integration in which he "refutes" certain foundations of the Lebesgue integral.2015-06-03