Chapter 5

Assume that we choose primes p = 29, q = 41, and n = 47. Apply the RSA cryptosystem guidelines to compute: z = Φ = s =

1189, 1120, 143

Assume that we choose primes p = 23, q = 59, and n = 355. Apply the RSA cryptosystem guidelines to compute: z = Φ = s =

1357, 1276, 895

Find gcd( 8232 , 8820 )

588 (with margin: 0)

Encrypt the message ARRIVING_TODAY using the key defined as character: _ABCDEFGHIJKLMNOPQRSTUVWXYZ replace by: LTEBJZSQYD_VMWOIRUXCHKPFANG (use only capital letters and use _ for space)

TXXDPDOQLHIJTN

In the RSA public-key cryptosystem, which of the following information would allow an unauthorized person to decrypt a message?

Φ,p,s,q

A prime number is a number greater than ___ whose only positive divisors are _____

1, 1 and itself

To emphasize that the number 101101 should be regarded as a binary number, we will write

101101(/2)

Find gcd( 1650 , 2420 )

110 (with margin: 0)

Conver 2033(/10) in hexadecimal form.

127,1,127,7,15,7,0,7,7F1

Assume that we choose primes p = 19, q = 67, and n = 541. Apply the RSA cryptosystem guidelines to compute: z = Φ = s =

1273, 1188, 325

Assume that we choose primes p = 29, q = 53, and n = 233. Apply the RSA cryptosystem guidelines to compute: z = Φ = s =

1537, 1456, 25

Find gcd( 7800 , 6084 )

156 (with margin: 0)

Conver 2845(/10) in hexadecimal form.

177,13,177,11,1,11,0,11,B1D

Find lcm( 13860 , 12936 )

194,040 (with margin: 0)

Conver 3141(/10) in hexadecimal form.

196,5,196,12,4,12,0,12,C45

In the binary number 101010, the underlined 1 is in the

2's place

Conver 3478(/10) in hexadecimal form.

217,6,217,13,9,13,0,13,D96

The message b=688 has been encrypted using an RSA cryptosystem with public key (z,n)=(989, 41). Try to factor z, to determine p, q (p<q), �, and s, and use them to decrypt the message. p= q= Φ= s= decrypted message:

23,43,924,293,516

Encrypt 441 using an RSA cryptosystem with public key (1739, 541).

256

In the RSA public-key cryptosystem, if p=5 and q=11, which of the following would be acceptable values for n?

27,21,13

The message b=772 has been encrypted using an RSA cryptosystem with public key (z,n)=(1073, 53). Try to factor z, to determine p, q (p<q), �, and s, and use them to decrypt the message. p= q= Φ= s= decrypted message:

29, 37, 1008, 989, 607

Find lcm( 7800 , 6084 )

304,200 (with margin: 0)

Find lcm( 1650 , 2420 )

36,300 (with margin: 0)

The message b=261 has been encrypted using an RSA cryptosystem with public key (z,n)=(1517, 113). Try to factor z, to determine p, q (p<q), �, and s, and use them to decrypt the message. p= q= Φ= s= decrypted message:

37,41,1440, 497, 801

The message b=1495 has been encrypted using an RSA cryptosystem with public key (z,n)=(173, 95). Try to factor z, to determine p, q (p<q), Φ, and s, and use them to decrypt the message. p= q= Φ= s= decrypted message:

37,47,1656,767,1425

In the binary number 101000, the underlined 1 is in the

4's place

The message b=1594 has been encrypted using an RSA cryptosystem with public key (z,n)=(1763, 127). Try to factor z, to determine p, q (p<q), Φ, and s, and use them to decrypt the message. p= q= Φ= s= decrypted message:

41, 43, 1680, 463, 777

Find gcd(4158, 15288)

42 (with margin: 0)

Conver 85(/10) in binary form.

42,1,42,21,0,21,10,1,10,5,0,5,2,1,2,1,0,1,0,1 1010101

Conver 88(/10) in binary form

44,0,44,22,0,22,11,0,11,5,1,5,2,1,2,1,0,1,0,1, 1011000

Conver 92(/10) in binary form.

46,0,46,21,0,23,11,1,11,5,1,5,2,1,2,1,0,1,0,1, 10111000

Conver 93(/10) in binary form

46,1,46,23,0,23,11,1,11,5,1,5,2,1,2,1,0,1,0,1, 1011101

Decrypt the message OACFQMKTQMBOGH using the key defined as character: _ABCDEFGHIJKLMNOPQRSTUVWXYZ replace by: MOARIQPZTGX_VEHCYWBJKDFSUNL (use only capital letters and use _ for space)

ABOVE_THE_RAIN

In the hexadecimal system, the number 11 is represented by

B

Encrypt the message SEE_YOU_TOMORROW using the key defined as character: _ABCDEFGHIJKLMNOPQRSTUVWXYZ replace by: LTEBJZSQYD_VMWOIRUXCHKPFANG (use only capital letters and use _ for space)

CZZLNIKLHIWIXXIF

In the hexadecimal system, the number 13 is represented by

D

In the hexadecimal system, the number 14 is represented by

E

Encrypt the message TURN_TO_THE_LEFT using the key defined as character: _ABCDEFGHIJKLMNOPQRSTUVWXYZ replace by: FNCWKITZLYHUMSRP_XDQEABJGOV (use only capital letters and use _ for space)

EADRFEPFELIFMITE

Decrypt the message LBDZAKWBKWLAKSAPW using the key defined as character: _ABCDEFGHIJKLMNOPQRSTUVWXYZ replace by: KMQFEAPILHRGSUCBYNTZWDJXO_V (use only capital letters and use _ for space)

HOUSE_TO_THE_LEFT

Encrypt the message ARRIVING_TODAY using the key defined as character: _ABCDEFGHIJKLMNOPQRSTUVWXYZ replace by: ORWFKUZHEPLTVXDQ_YJGBIMSNCA (use only capital letters and use _ for space)

RJJPMPDHOBQKRC

Decrypt the message XUEEUESQKUIJHK using the key defined as character: _ABCDEFGHIJKLMNOPQRSTUVWXYZ replace by: QVLIAHWSFUBJZCE_NDMOKYTXPRG (use only capital letters and use _ for space)

WINNING_TICKET

If integers in the range 0 to m,m⩾8, not both zero, are input to the Euclidean algorithm, then the required number of modulus operations is

at most log(/(3/2) 2m/3

Suppose that the pair a,b,a>b, requires n⩾1 modulus operations when inputto the Euclidean algorithm. If {f(/n)} denotes the Fibonacci sequence, then

a⩾f(/n+2 and b⩾f(/n+1.

A binary digit is also referred as a

bit

A positive integer number greater than or equal to 2 that is not prime is called

composite

In the late 1900s, Number Theory became extremely useful in

cryptosystems

In a private-key cryptosystem, the sender __ the key and the reciever ____ the key.

does not disclose, does not disclose

In the RSa public-key cryptosystem

each participant discloses his/her encruption key

In a cryptosystem, the sender __ the message, and the reciever ___ the message

encrypts and decrypts

The fibonacci sequence {f(/n)}is defined by

f(/1) = 1 f(/2)=1 f(n) = f_{n-1} + f_{n-2}

a problem for which a polynomial time alogrithm exists is said to be solvable

false

The Euclidean Algorithm is an efficient algorithm for

finding the gcd of two integers numbers

The Euclidean Algorithm is based on the fact that, if r= a mod b, then

gcd(a,b)=gcd(b,r)

Let a, b, and c be integers. Show that, if a|b and b|c, then a|c.

given given 1 definition of a|b 2 definition of b|c c=(aq)r 5 associative property a|c 6 and efinition of a|c

Let m, n, and d be integers. Show that, if d|m and d|n, then d|m-n.

given given m-dq for some q 1 n=dr for some r 2 3 4 5 definition of d|m-n

Let m, n, h, and k be integers. Show that, if h|m and k|n, then hk|mn.

given given m=hq for some q 1 n-kr for some r 2 3 4 5 commutativity of the product 6 definition of hk|mn

Let m, n, and d be integers. Show that, if d|m, then d|mn.

given m=dq for some q 1 mn=dqn for some q 2 3 definiton of d|mm

gcd(m,n) * lcm(m,n) is equal to

mn

In the RSA public-key cryptosystem, which of the following information will be shared with the public?

n ,z

Let n and Ø be positive integers. The inverse of n Ø mod is s such that

ns mod Ø = 1

If the prime factorization of m and n are respectively m=p(a1/1),p(a2/2)...p(ak/k) n=p(b1/1),p(b2/2)...p(bk/k) then lcm(m,n) is equal to

p1(max(a1,b1) p2max(a2,b2)...pkmax(ak,bk)

If the prime factorization of m and n are respectively m=p(a1/1),p(a2/2)...p(ak/k) n=p(b1/1),p(b2/2)...p(bk/k) then gcd(m,n) is equal to

p1(min(a1,b1) p2(min(a2,b2)...pk(min(ak,bk)

Cryptology is the study of systems, called cryptosystems, for __ communication

secure

In the RSA public-key cryptosystem, z is

the product of two large prime numbers

RSA public-key cryptosystem is secure because

there is no efficient algorithm to factor z

NP denotes the class of problems for which a solution can be guessed and verified in polynomial time

true