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Quick algorithm for computing orders mod n?

Let $l$ be an odd prime number. Let $p$ be a prime number such that $p \neq l$. I'd like to compute efficiently the order of $p$ mod $l$ using a calculator. For example, how can I compute efficiently the order of 2 mod 53? Thanks in advance.

My motivation came from this.

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    It is cheap in general whether $p$ is a quadratic residue of $\ell$. In this case $2$ is a NR of $53$. The order divides $52$. The only interesting possibilities are $13$, $26$, $52$. It cannot be $13$, else $2$ would be a QR. So calculate $2^{26}\pmod{53}$, or maybe $2^{27}$.2012-07-24

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In your case, and using Legrende's symbol, we get $\left(\frac{2}{53}\right)=-1$ since $\,53\neq \pm 1\mod 8\,$ , so $\,2\,$ has a chance to be a primitive root modulo $\,53\,$

Now, and doing operations modulo $\,53\,$ , we get: $2^6=64=11\,\,,\,11^2=15\,\,,\,11^3=6\Longrightarrow 2^{18}=(2^6)^3=11^3=6\Longrightarrow$ $\Longrightarrow2^{26}=2^{18}\cdot 2^8=6\cdot 11\cdot 4=-1\Longrightarrow $ $\,2\,$ is a primitive root in $\,\left(\Bbb Z/53\Bbb Z\right)^*\,$