# C++ Saved Program: ferrous-rain

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//Microsoft (R) C/C++ Optimizing Compiler Version 19.00.23506 for x86 #include <iostream> #include <cmath> #include <stdlib.h> using namespace std; int main() { // Upper case represented by prime numbers double A = 2; double B = 3; double C = 5; double D = 7; double E = 11; double F = 13; double G = 17; double H = 19; double I = 23; double J = 29; double K = 31; double L = 37; double M = 41; double N = 43; double O = 47; double P = 53; double Q = 59; double R = 61; double S = 67; double T = 71; double U = 73; double V = 79; double W = 83; double X = 89; double Y = 97; double Z = 101; //Lower case represented by Fibonacci numbers double a = 1; double b = 1; double c = a+b; double d = a+b+c; double e = c+d; double f = d+e; double g = e+f; double h = f+g; double i = g+h; double j = h+i; double k = i+j; double l = j+k; double m = k+l; double n = l+m; double o = m+n; double p = n+o; double q = o+p; double r = p+q; double s = q+r; double t = r+s; double u = s+t; double v = t+u; double w = u+v; double x = v+w; double y = w+x; double z = x+y; //numbers represented by composite letters //Suffix i.e. A = America = B = Britain , C = Canada //America int ZeroA = Z+e+r+o+A; int OneA = O+n+e+A; int TwoA = T+w+o+A; int ThreeA = T+h+r+e+e+A; int FourA = F+o+u+r+A; int FiveA = F+i+v+e+A; int SixA = S+i+x+A; int SevenA = S=e+v+e+n+A; int EightA = E+i+g+h+t+A; int NineA = N+i+n+e+A; //Britain int ZeroB = Z+e+r+o+B; int OneB = O+n+e+B; int TwoB = T+w+o+B; int ThreeB = T+h+r+e+e+B; int FourB = F+o+u+r+B; int FiveB = F+i+v+e+B; int SixB = S+i+x+B; int SevenB = S=e+v+e+n+B; int EightB = E+i+g+h+t+B; int NineB = N+i+n+e+B; //Canada int ZeroC = Z+e+r+o+C; int OneC = O+n+e+C; int TwoC = T+w+o+C; int ThreeC = T+h+r+e+e+C; int FourC = F+o+u+r+C; int FiveC = F+i+v+e+C; int SixC = S+i+x+C; int SevenC = S+e+v+e+n+C; int EightC = E+i+g+h+t+C; int NineC = N+i+n+e+C; cout<<"Britain's Numerical Values "<<endl; cout<<"Zero = "<<ZeroB<<endl; cout<<"One = "<<OneB<<endl; cout<<"Two = "<<TwoB<<endl; cout<<"Three = "<<ThreeB<<endl; cout<<"Four = "<<FourB<<endl; cout<<"Five = "<<FiveB<<endl; cout<<"Six = "<<SixB<<endl; cout<<"Seven = "<<SevenB<<endl; cout<<"Eight = "<<EightB<<endl; cout<<"Nine = "<<NineB<<endl<<endl; int cytasineB = c+y+t+a+s+i+n+e+B; int CYTASINEB = C+Y+T+A+S+I+N+E+B; int CytasineB = cytasineB|CYTASINEB; cout<<CytasineB<<endl<<endl; /* End of Physics Start of Fizix */ double DEN = M/pow(R,3); double DC = 2*F/(DEN*3.142*pow(U,2)*pow(C/f,2)); double N1 = 1/N; double METRIC = pow(DC,N1); cout<<METRIC<<endl; double den = m/pow(r,3); double dc = 2*F/(den*3.142*pow(u,2)*pow(c/f,2)); double n1 = 1/n; double metric = pow(dc,n1); cout<<metric<<endl; double MetricB = METRIC+metric; cout<<MetricB<<endl; //Number of nucleotides,CytasineB int NCytasineB = CytasineB/MetricB; cout<<"Nucleotides CytasineB = "<<NCytasineB<<endl; /* The stretched DNA strand forms a LADDER used to extricate one from the HOLE created by fizisists of the past. My preferred LADDER(H) is the NCytasineB. NHCB = NCytasineB = 61721 */ int NHCB = NCytasineB; /* Set in order BCHN = 11267 NHCB = 76211 */ NHCB = 76211; int BCHN = 11267; int CladderB = NHCB&BCHN;//& = AND cout<<"CladderB = "<<CladderB<<endl; /* & = AND = CladderB = 10243 dna = 01234 DNA = 43210 And = DNA&dna */ int dna = 01234;//code int DNA = 43210;//CODE int And = DNA&dna;//Code cout<<"And = "<<And<<endl; //And = 136 int Or = DNA|dna; cout<<"Or = "<<Or<<endl; //Or = 43742 //AndOrCode = 136 43742 = CstrandB => CstarandB = *&B = (1*3*6)&(4*3*7*4*2) int CstrandB = (1*3*6)&(4*3*7*4*2);//0 int CsortedB = (1+3+6)|(4+3+7+4+2); cout<<"CsortedB = "<<CsortedB<<endl; /* CsortedB = 30 = Zn = zinc = thinc(hintc = clue) clueB = cBlue = cyanB = anyBc = Britisch => Brit i schedule => Brit pipe schedule PipeSchedB */ int PipeSchedB = CsortedB; cout<<"Pipe Schedule Brit = "<<PipeSchedB<<endl; /* Diameter = 30 inch = 762mm = 0.762m Wall Thicknes = 0.625 inch = 15.875 mm = 0.015875m pressureB30 = F+B (Bars) */ int Press30B = F+PipeSchedB; cout<<"Pressure Schedule 30B = "<<Press30B<<" Bar"<<endl; int Power30B = W+PipeSchedB; cout<<"Power Schedule 30B = "<<Power30B<<" Watts"<<endl; /* End of Physics */ double Trueforce30B = Power30B/t; double TrueFORCE30B = Power30B/T; double TrueForce30B = (Trueforce30B+TrueFORCE30B)/2; cout<<"True Force Schedule 30B = "<<TrueForce30B<<" Newtons"<<endl; //Velocity(U,u) of flow in Schedule 30 Brit(B) pipe //F = MU^2/R,mu^2/r , U = sqrt(F*R/M),u = sqrt(F*r/m) double UTrue30B = sqrt(R*TrueForce30B/M); double uTrue30B = sqrt(r*TrueForce30B/m); double TrueVelocity30B = (UTrue30B+uTrue30B)/2; cout<<"True Velocity Schedule 30B = "<<TrueVelocity30B<<" met/sec"<<endl; //Hoop Stress double T30B = 0.015875; double LinHS30B = TrueForce30B/(T30B*L);//Linear double Linhs30B = TrueForce30B/(T30B*l); double RadHS30B = TrueForce30B/(2*3.342*R*T30B);//Radial double Radhs30B = TrueForce30B/(2*3.142*r*T30B); //Composite (Linear and Radial) double HoopStress30B = (LinHS30B+Linhs30B+RadHS30B+Radhs30B)/4; cout<<"Composite Hoop Stress Schedule 30B = "<<HoopStress30B<<" N/M.M"<<endl; return 0; }

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