NTIC Exercises

Exercises 22.4 Exercises

1.

Explain why, to show that any number can be written as a sum of three primes, it suffices to prove Conjecture 22.3.8.

2.

In Subsection 22.1.3 a statement is made about residue classes $[a]$ such that $n k + a$ can be a perfect square. What is another name for such $a ?$

Also, the claim is made that, “In the two examples we showed graphically, only $4 k + 1$ and $8 k + 1,$ respectively, are possible perfect (odd) squares.” Either prove this claim or find the reference for when that is proved in the book.

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3.

What ‘teams’ would you expect to be in the lead long-term for a modulo ten prime race? Why? Compute a value where the ‘wrong’ team is in the lead, if you can!

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4.

Prove Dirichlet's Theorem on Primes in an Arithmetic Progression for the case $a = 2 .$

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5.

Find an arithmetic progression of primes of length five with less than ten between primes.

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6.

Find an arithmetic progression of primes of length six or seven, starting at a number less than ten.

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7.

Prove that there can be only one set of “triple primes” – that is, three consecutive odd primes.

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8.

Find the value of $23 # .$

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9.

Compute some twin primes greater than one thousand.

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10.

Show that $(1 - \frac{2}{p}) = (1 - \frac{1}{(p - 1)^{2}}) {(1 - \frac{1}{p})}^{2} .$

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11.

What form must $n$ have for $n$ and $n + 2$ to both not be divisible by three?

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12.

Which residues modulo five must $n$ avoid for $n$ and $n + 2$ to both not be divisible by five?

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13.

Search a few resources to learn about “prime constellations” and write a report. The Prime Pages or Tomás Oliveira e Silva's very nice graphs of “admissible” constellations are a good place to start.

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14.

Find a definition for palindromic primes (base $10,$ say) and report on the current known status. Are there infinitely many, or a way to generate them programmatically?

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15.

Search in a good book (see the general E.2 or specialized E.4 references) or the internet for an amazing fact about primes. Describe it in a way your classmates (or peers, if you're not in a course) will understand.