Deck 4: A: Number Theory and Cryptography

suppose that a and b are integers, a ≡ 4 (mod 7), and b ≡ 6 (mod 7). Find the integer c with 0 ≤ c ≤ 6
such that

What does a 60-second stop watch read 82 seconds after it reads 27 seconds?

Prove or disprove: For all integers

Prove or disprove: For all integers

Find the prime factorization of 1,025.

Find the prime factorization of 8,827.

suppose that a and b are integers, a ≡ 4 (mod 7), and b ≡ 6 (mod 7). Find the integer c with 0 ≤ c ≤ 6
such that

Find the prime factorization of 510,510.

Find the prime factorization of 1,024.

List all positive integers less than 30 that are relatively prime to 20.

suppose that a and b are integers, a ≡ 4 (mod 7), and b ≡ 6 (mod 7). Find the integer c with 0 ≤ c ≤ 6
such that

Find the prime factorization of 111,111.

Prove or disprove: For all integers

Prove or disprove: For all integers

Prove or disprove: For all integers

Prove or disprove: For all integers

What does a 60-second stop watch read 54 seconds before it reads 19 seconds?

Prove or disprove: For all integers

suppose that a and b are integers, a ≡ 4 (mod 7), and b ≡ 6 (mod 7). Find the integer c with 0 ≤ c ≤ 6
such that

Find the hexadecimal expansion of (ABC)16+(2F5)16.

Find gcd(2 by directly finding the largest divisor of both numbers.

Prove or disprove:

Prove or disprove: The sum of two primes is a prime.

Find 289 mod 17.

Find lcm by directly finding the smallest positive multiple of both numbers.

Prove or disprove:
If f(n)=n²-n+17, then f(n) is prime for all positive integers n.

Find 18 mod 7.

Find −88 mod 13.

Prove or disprove: There exist two consecutive primes, each greater than 2.

Find 50! mod 50.

Prove or disprove: A positive integer congruent to 1 modulo 4 cannot have a prime factor congruent to 3 modulo 4.

Prove or disprove: If p and q are primes then p + q is composite.

Find lcm by directly finding the smallest positive multiple of both numbers.

Find 50! mod 49!.

Find by directly finding the largest divisor of both numbers.

Prove or disprove:

Prove or disprove: The sum of two irrational numbers is irrational.

Suppose that the lcm of two numbers is 400 and their gcd is 10. If one of the numbers is 50, find the other number.

Applying the division algorithm with a = −41 and d = 6 yields what value of r?

In questions 58-64 determine whether each of the following "theorems" is true or false. Assume that a, b, c, d,
and m are integers with m > 1.

In questions 58-64 determine whether each of the following "theorems" is true or false. Assume that a, b, c, d,
and m are integers with m > 1.

Find an integer a such that

Find the integer a such that

Find the integer a such that

Find integers a and b such that

In 53-56 find each of these values

In 53-56 find each of these values

Find the smallest integer

Find a div m and a mod m when

In 53-56 find each of these values
(123 mod 19 + 342 mod 19) mod 19

Find a div m and a mod m when

In questions 58-64 determine whether each of the following "theorems" is true or false. Assume that a, b, c, d,
and m are integers with m > 1.

In questions 58-64 determine whether each of the following "theorems" is true or false. Assume that a, b, c, d,
and m are integers with m > 1.

Show that if a, b, k and m are integers such that (mod m).

Find four integers b (two negative and two positive) such that 7 ≡ b (mod 4).

Find three integers m such that 13 ≡ 7 (mod m).

In 53-56 find each of these values
(123 mod 19 · 342 mod 19) mod 19

In questions 58-64 determine whether each of the following "theorems" is true or false. Assume that a, b, c, d,
and m are integers with m > 1.

Find a div m and a mod m when

Explain in words the difference between and

In 82-83 find the sum and product of each of these pairs of numbers. Express your answer as a binary expansion.

What sequence of pseudorandom numbers is generated using the pure multiplicative generator = mod 11 with seed =2 ?

Convert (11010111100)₂ to base 8 .

Convert (204)₁₀ to base 2 .

Convert (10,000)₁₀ to base 2 .

Convert (11101)₂ to base 16 .

(a) Find two positive integers, each with exactly three positive integer factors greater than 1. (b) Prove that there are an infinite number of positive integers, each with exactly three positive integer factors greater than 1.

In questions 58-64 determine whether each of the following "theorems" is true or false. Assume that a, b, c, d,
and m are integers with m > 1.

Convert (101011)₂ to base 8 .

Convert (2AC)₁₆ to base 10 .

In questions 58-64 determine whether each of the following "theorems" is true or false. Assume that a, b, c, d,
and m are integers with m > 1.

Convert (271)₈ to base 2 .

Prove or disprove: if p and q are prime numbers, then pq+1 is prime.

Either find an integer such that (mod 6) and (mod 9) are both true, or else prove that there is no such integer.

Convert (1 1101)₂ to base 10 .

Convert (10011000011)₂ to base 16 .

Convert (6253)₈ to base 2 .

Convert (BC1)₁₆ to base 2 .

Convert (8091)₁₀ to base 2 .