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Weil-Chatelet groups are huge. A theorem of Shafarevich states that if $n \ge 2$ and if $E$ is an elliptic curve (or an abelian variety) over a number field $k$ then $H^1(G_k,E)$ has infinitely many elements of order $n$. See Section 5 of Pete Clark's lecture on WC groups: http://math.uga.edu/~pete/wcnotes.pdfhttp://alpha.math.uga.edu/~pete/wcnotes.pdf

Weil-Chatelet groups are huge. A theorem of Shafarevich states that if $n \ge 2$ and if $E$ is an elliptic curve (or an abelian variety) over a number field $k$ then $H^1(G_k,E)$ has infinitely many elements of order $n$. See Section 5 of Pete Clark's lecture on WC groups: http://math.uga.edu/~pete/wcnotes.pdf

Weil-Chatelet groups are huge. A theorem of Shafarevich states that if $n \ge 2$ and if $E$ is an elliptic curve (or an abelian variety) over a number field $k$ then $H^1(G_k,E)$ has infinitely many elements of order $n$. See Section 5 of Pete Clark's lecture on WC groups: http://alpha.math.uga.edu/~pete/wcnotes.pdf

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KConrad
KConrad
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Weil-Chatelet groups are huge. A theorem of Shafarevich states that if $n \ge 2$ and if $E$ is an elliptic curve (or an abelian variety) over a number field $k$ then $H^1(G_k,E)$ has infinitely many elements of order $n$. See Section 5 of Pete Clarke'sClark's lecture on WC groups: http://math.uga.edu/~pete/wcnotes.pdf

Weil-Chatelet groups are huge. A theorem of Shafarevich states that if $n \ge 2$ and if $E$ is an elliptic curve (or an abelian variety) over a number field $k$ then $H^1(G_k,E)$ has infinitely many elements of order $n$. See Section 5 of Pete Clarke's lecture on WC groups: http://math.uga.edu/~pete/wcnotes.pdf

Weil-Chatelet groups are huge. A theorem of Shafarevich states that if $n \ge 2$ and if $E$ is an elliptic curve (or an abelian variety) over a number field $k$ then $H^1(G_k,E)$ has infinitely many elements of order $n$. See Section 5 of Pete Clark's lecture on WC groups: http://math.uga.edu/~pete/wcnotes.pdf

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Siksek
Siksek
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Weil-Chatelet groups are huge. A theorem of Shafarevich states that if $n \ge 2$ and if $E$ is an elliptic curve (or an abelian variety) over a number field $k$ then $H^1(G_k,E)$ has infinitely many elements of order $n$. See Section 5 of Pete Clarke's lecture on WC groups: http://math.uga.edu/~pete/wcnotes.pdf