Math IOQM

 Homework multiple choice: (done) Q1. True/False For a polynomial f(x) with integer coefficients and integers a,b,l  we have a = b mod l => f(a) = f(b) mod l? S1. True Q2. The 2-digit integers from 19 to 92 are written consecutively to form the integer  N = 192021⋯9192. Suppose that 3^k is the highest power of 3 that is a factor of N. What is k? S2. Method 1: Since 10^m = 1 mod 9 for any m => 192021⋯9192 = 19 + 20 .. 92 mod 9 = 74/2[19 + 92] = 37*111 mod 3 = 0  mod 9 = 1 * 3 = 3 So k = 1. Method 2: Sum of digits =  (2+3+4+5+6+7+8)*10 + (1+2... 9)*7 + sum_digits(19 + 90 + 91 + 92) = 35*10 + 45*7 + 40 Doing mod 3 gives 2 + 0 + 1 = 0 mod 3 Doing mod 9 gives 8 + 0 + 4 = 3 mod 9 So 3 divides it but 9 doesn't. k = 1 = answer. Q3. Remainder of 3^89*7^86 mod 17? S3. Method 1: = 21^86*27 21 mod 17 = 4 21^2 mod 17 = 16 = -1 (-1)^43 = -1 => -1*27 = -27 mod 17 = -10 mod 17 = 7 mod 17 Method 2: 3^4 = 81 = -4 m 17 3^8 = 16 m 17 = -1 3^89 = 3^88.3 = (-1)^11.3 mod 17 =...

double derivative for concavity check. single derivative for slope(rate of change check). Rolle's theorem: f(a) = f(b) => for some c in (a,b) f'(c) = 0 Mean value theorem, for some c, f'(c) = (f(b) - f(a)/(b-a)

Q1. The position of an object is given by s(t) = sin⁡(3t) − 2t + 4. Determine where in the interval [0,3] the object is moving to the right and moving to the left. Given arccos(2/3) = 0.841 radians. and 2.pie = 6.283 radians. S1. s'(t) = 3cos(3t) - 2 First find critical points: 3cos(3t) - 2 = 0 => cos(3t) = 2/3 => Since cos(3t) is positive, there are 2 solutions (1st and 4th quadrant). 3t = acos(2/3) + 2.pie.k = 0.841 + 2.pie.k and 3t = [2.pie - acos(2/3)] + 2.pie.k = 5.442 + 2.pie.k How many valid solutions are there for 3t in [0,9] since t in [0,3]. Apart from the 2 above, there is only 1 more when 3t = .841 + 6.283 = 7.124 So these 3 are our critical points. Let's evaluate at each of them. Case 1: 3t between [0,.841) s'(0) = 1 => +ive => moving right Case 2: 3t between (.841, 5.442), try 3t = 3(t = 1) => 3cos(3t) - 2 = 3cos3 - 2 cos3 is close to cos(3.14), i.e. -1 so value is negative, moving left. Case 3: 3t between (5.442,7.124), try 3t = 6.283 = 2.pi =...

remainders/residues/residue classes Q1. If a = b mod m and c = d mod m, then: Prove that: (1) a +- c = b +- d mod m (2) ac = bd mod m (3) ax + cy = bx + dy mod m Q2. if a = b mod m, pr. th. a^n = b^n mod m. Q3. If a = b mod m then a = b mod d if d | m. Q4.  Remainder of 13^73 + 14^3 mod 11. Q5. Pr. th. ax = ay mod m iff x = y mod (m/gcd(a,m)) S5. m = k.q1, a = k.q2 where k = gcd(a,m) m/k = q1 x = y mod q1 => ax = ay mod q1 => ax = ay mod m since q1| m. ----------------------------------------------------------------

Day 1: Q1. The repeating decimals x = 0.ababab... and y = 0.abcabc.... satisfy x + y = 33/37 Find the 3 digit number abc. S1. (10a+b)(1/100 + 1/10000...) = (10a+b)/100[1/1-1/100] = (10a + b)/99 (100a + 10b +c)(1/1000 + 1/1000,000....) = (100a+10b+c)/999 (10a + b)/99 + (100a+10b+c)/999 = 33/37 => 999(10a+b) + (100a+10b+c).99 = 33.99.999/37 = 27.33.99 => 111(10a+b) + (100a+10b+c).11 = 99^2 = 9801 => 2210a + 221b + 11c = 9801______[1] => a <= 4 2210*4 = 8840 => 221b + 11c = 961 b = 4 => 11c = 961 - 884 = 77 => c = 7 abc = 447 Also in [1] if we take mod 11 then: 2210a + 221b = 0 mod 11 221(-a +b) = 0 mod 11 => a = b mod 11 Since a,b are single digit => a = b 221a.11 + 11c = 9801 => 221a + c = 891 a = 4 => c = 7 Q2. Ten chairs are arranged in a circle. Find the number of subsets of this set of chairs that contain at least three adjacent chairs. S2. Let's do step by step. Subset size: 3 => There are 10 ways. Total: 10 Size: 4 => 10 ways to pick 4...

Q1. if p | ab then either p divides a or p divides b. 'p' is a prime. S1. Case 1: p | a: done Case 2: p doesn't divide a: gcd(a,p) = 1 => au + pv = 1 Multiply by 'b': bau + bpv = b p divides both terms on LHS => p | RHS => p | b H.P. Corollary: If p | a1a2....an then p divides some ai. Q2. Theorem: A composite number has at least one prime divisor. Prove this. S2. A set of all its +ve divisors except 1 and itself. Let (S) be the set. As the no. must have some other divisors than 1 & itself, then (S) is non-empty and S is subset of N(natural numbers). So by well ordering property (S) has a least element (l). If (l) is a prime then we are done. But if (l) is not a prime then there exists d | l (d divides l). C is the composite number we are talking about. d | l and l | C => d | C => d is in S and d < l which is a contradiction. Q3. find all possible values of 'p' s.t. (p) and (p^2 + 8) both are prime. S3. Case 1: p mod 3 = 0 => p can ...