Revision 79de91a2-c858-4071-ad7e-1cb9bb3a355f

Hello, 

Sir [W.V.D Hodge](http://en.wikipedia.org/wiki/W._V._D._Hodge) , as we all know is a renowned mathematician, famous for his Hodge conjecture. It stands as the open problem in the entry of Millennium prize problems. So for a mathematician to proclaim a conjecture , there must be some heuristic argument or some intuitive explanation. For e.g. Peter was looking at the product $\prod Np/p$ on EDSAC and then formulated the rank conjecture ( Now termed as [Birch and Swinnerton-dyer conjecture](http://en.wikipedia.org/wiki/Birch_and_Swinnerton-Dyer_conjecture) ).

So in a similar way, Hodge might be having some rough heuristics or ideas that led him to the formulation of that conjecture. I am looking for the history and background behind the formulation of Hodge Conjecture. I hope there may be some people in this Community , who have attended the original lectures given by Hodge in ICM. So they can kindly state how did Hodge arrive at his conjecture. 

**Hodge Conjecture ( What I understood after reading Dan-freed's article ) :**  

> On a complex projective manifold $\mathbb{X}$, a topological cycle $\mathfrak{C}$ ( on $\mathbb{X}$ ) is homologous to a rational combination of algebraic cycles iff $\mathfrak{C}$ has rotation number $0$. ( Rotation number $e^{i\theta}$ on differential form, volumes are invariant under rotation). 


**Hodge Conjecture ( Deligne's description ):** 

>On a projective non-singular algebraic variety over $\mathbb{C}$, any Hodge class is a rational combination of classes $\rm{cl(\mathbb{Z})}$ of algebraic cycles. 

**The things I want to hear from my learned companions of MO :**

 1. How are both (Dan's version and Deligne's version ) versions equivalent to each other ?  One speaks about the rotation number, where as other version speaks about direct representation of Hodge class. 
 2. How did Hodge arrive to that conclusion ?   Are there any heuristic reasons or intuitive arguments that gives him some hope to conjecture in that direction ? .
 3. How can one state analogue of Hodge conjecture in number theory ?  Are there any such attempts done previously to formulate what should be the analogue in that case ? . 

P.S. : I can believe that conjectures in Number theory can be a result of random attempts and trails, but conjectures to be formulated in Algebraic Geometry and Topology should have a concrete basis, I am looking for  that basis . I am very curios to hear the answers for all the three of them , even though they are claimed to be highly techincal in their nature. 

Thank you all.