We have the following indirect implication of form equivalence classes:
| Implication | Reference |
|---|---|
| 292 \(\Rightarrow\) 90 |
The axiom of choice and linearly ordered sets, Howard, P. 1977, Fund. Math. |
| 90 \(\Rightarrow\) 91 | The Axiom of Choice, Jech, 1973b, page 133 |
| 91 \(\Rightarrow\) 79 | clear |
| 79 \(\Rightarrow\) 368 | clear |
Here are the links and statements of the form equivalence classes referenced above:
| Howard-Rubin Number | Statement |
|---|---|
| 292: | \(MC(LO,\infty)\): For each linearly ordered family of non-empty sets \(X\), there is a function \(f\) such that for all \(x\in X\) \(f(x)\) is non-empty, finite subset of \(x\). |
| 90: | \(LW\): Every linearly ordered set can be well ordered. Jech [1973b], p 133. |
| 91: | \(PW\): The power set of a well ordered set can be well ordered. |
| 79: | \({\Bbb R}\) can be well ordered. Hilbert [1900], p 263. |
| 368: | The set of all denumerable subsets of \(\Bbb R\) has power \(2^{\aleph_0}\). |
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