What is equivalent to IS 2062 Grade A, IS 1239, EN-8, BS970, IS 1367 CL.4.6, IS 1875 CL.II to ASTM std?
Did you know they are both equivalent to each other? The only difference here is the Cu, other than that they are the same.
Yes! except small qty.of Cu
Asme sa 36
EN8
Equivalent to ASTM A36
ASTM F1868 is not identical but very similar, D1518 is also similar
Inclusion rating is a measurement of Impurity in any steel / alloy elements.. one of the STD for method of evaluation is ASTM E45.. MSQ Inclusion Rating is designed to produce ASTM E45 Method A and Method D inclusion ratings for inclusion types A, B, C and D. The details of the standard are found in the ASTM Annual Book of Standards, Volume 03.01
The following example sets up a two-dimensional array, initialises it with some pseudo-random data, and then prints the table and the averages. #include<iostream> #include<time.h> int main() { const int max_students = 7; const int max_student_grades = 5; const int max_grades = 6; const char grade[max_grades]={'A','B','C','D','E','F'}; srand((unsigned) time(NULL)); // Initialise the array with pseudo-random grades: int table[max_students][max_student_grades]; for(int student=0; student<max_students; ++student) { for(int student_grade=0; student_grade<max_student_grades; ++student_grade) { table[student][student_grade] = rand()%max_grades; } } // Print the table and average the results. int overall=0; for(int student=0; student<max_students; ++student) { int average=0; std::cout<<"Student #"<<student+1; for(int student_grade=0; student_grade<max_student_grades; ++student_grade) { std::cout<<" Grade #"<<student_grade+1<<": "<<grade[table[student][student_grade]]<<", "; average+=table[student][student_grade]; } std::cout<<" Average: "<<grade[average/max_grades]<<std::endl; overall+=average; } std::cout<<"Overall average: "<<grade[overall/max_grades/max_students]<<std::endl; return(0); } Example output: Student #1 Grade #1: A, Grade #2: E, Grade #3: D, Grade #4: E, Grade #5: F, Average: C Student #2 Grade #1: E, Grade #2: D, Grade #3: E, Grade #4: E, Grade #5: E, Average: D Student #3 Grade #1: D, Grade #2: A, Grade #3: D, Grade #4: B, Grade #5: A, Average: B Student #4 Grade #1: C, Grade #2: B, Grade #3: A, Grade #4: A, Grade #5: B, Average: A Student #5 Grade #1: E, Grade #2: D, Grade #3: C, Grade #4: F, Grade #5: E, Average: D Student #6 Grade #1: C, Grade #2: D, Grade #3: A, Grade #4: F, Grade #5: A, Average: B Student #7 Grade #1: B, Grade #2: D, Grade #3: F, Grade #4: B, Grade #5: C, Average: C Overall average: C
enum field { name, course, grade }; std::string student[3]; student[name] = "Joe Bloggs"; student[course] = "C++ Programming"; student[grade] = "A+";
Equivalent to ASTM A36
ASTM F1868 is not identical but very similar, D1518 is also similar
Inclusion rating is a measurement of Impurity in any steel / alloy elements.. one of the STD for method of evaluation is ASTM E45.. MSQ Inclusion Rating is designed to produce ASTM E45 Method A and Method D inclusion ratings for inclusion types A, B, C and D. The details of the standard are found in the ASTM Annual Book of Standards, Volume 03.01
Medical Schools require that you complete the 12 grade or 12th std. I assume you are from India. Your best bet is to go back and take your 12th std. examination for medicine. You MUST have 12th std to get in medical school.
U can't skip a grade during summer or you can skip a grade during olny if u ask ur teacher and if u re STD 6 u can skip to go to High School
The following example sets up a two-dimensional array, initialises it with some pseudo-random data, and then prints the table and the averages. #include<iostream> #include<time.h> int main() { const int max_students = 7; const int max_student_grades = 5; const int max_grades = 6; const char grade[max_grades]={'A','B','C','D','E','F'}; srand((unsigned) time(NULL)); // Initialise the array with pseudo-random grades: int table[max_students][max_student_grades]; for(int student=0; student<max_students; ++student) { for(int student_grade=0; student_grade<max_student_grades; ++student_grade) { table[student][student_grade] = rand()%max_grades; } } // Print the table and average the results. int overall=0; for(int student=0; student<max_students; ++student) { int average=0; std::cout<<"Student #"<<student+1; for(int student_grade=0; student_grade<max_student_grades; ++student_grade) { std::cout<<" Grade #"<<student_grade+1<<": "<<grade[table[student][student_grade]]<<", "; average+=table[student][student_grade]; } std::cout<<" Average: "<<grade[average/max_grades]<<std::endl; overall+=average; } std::cout<<"Overall average: "<<grade[overall/max_grades/max_students]<<std::endl; return(0); } Example output: Student #1 Grade #1: A, Grade #2: E, Grade #3: D, Grade #4: E, Grade #5: F, Average: C Student #2 Grade #1: E, Grade #2: D, Grade #3: E, Grade #4: E, Grade #5: E, Average: D Student #3 Grade #1: D, Grade #2: A, Grade #3: D, Grade #4: B, Grade #5: A, Average: B Student #4 Grade #1: C, Grade #2: B, Grade #3: A, Grade #4: A, Grade #5: B, Average: A Student #5 Grade #1: E, Grade #2: D, Grade #3: C, Grade #4: F, Grade #5: E, Average: D Student #6 Grade #1: C, Grade #2: D, Grade #3: A, Grade #4: F, Grade #5: A, Average: B Student #7 Grade #1: B, Grade #2: D, Grade #3: F, Grade #4: B, Grade #5: C, Average: C Overall average: C
enum field { name, course, grade }; std::string student[3]; student[name] = "Joe Bloggs"; student[course] = "C++ Programming"; student[grade] = "A+";
#include<iostream> int main() { std::cout << "sin(1) = " << std::sin(1.0) << std::endl; std::cout << "cos(1) = " << std::cos(1.0) << std::endl; std::cout << "tan(1) = " << std::tan(1.0) << std::endl; std::cout << "asin(1) = " << std::asin(1.0) << std::endl; std::cout << "acos(1) = " << std::acos(1.0) << std::endl; std::cout << "atan(1) = " << std::atan(1.0) << std::endl; } Output: sin(1) = 0.841471 cos(1) = 0.540302 tan(1) = 1.55741 asin(1) = 1.5708 acos(1) = 0 atan(1) = 0.785398
#include<iostream> #include<vector> #include<string> std::vector<std::string> parse (const std::string& s, const char delim) { std::vector<std::string> result {}; auto start = 0U; auto end = s.find (delim); while (end != s.npos) { result.push_back (s.substr(start, end - start)); start = ++end; end = s.find (delim, start); } result.push_back (s.substr (start, s.npos - start)); return result; } std::vector<std::string> parse (const std::string& s, const std::string& delim) { std::vector<std::string> result {}; auto start = 0U; auto end = s.find (delim); while (end != s.npos) { result.push_back (s.substr(start, end - start)); start = end + delim.length(); end = s.find (delim, start); } result.push_back (s.substr (start, s.npos - start)); return result; } int main() { std::string str1 = "This is a string that will be parsed by a single-space delimiter."; std::string str2 = "This==is==a==string==that==will==be==parsed==by==equal==operator."; std::string str3 = "This string has no delimiter."; std::cout << str1 << std::endl; std::vector<std::string> v1 = parse (str1, ' '); for (auto i : v1 ) std::cout << i << std::endl; std::cout << std::endl; std::cout << str2 << std::endl; std::vector<std::string> v2 = parse (str2, "=="); for (auto i : v2 ) std::cout << i << std::endl; std::cout << std::endl; std::cout << str3 << std::endl; std::vector<std::string> v3 = parse (str3, '\\'); for (auto i : v3 ) std::cout << i << std::endl; std::cout << std::endl; }
The following example demonstrates all 4 loop structures in C++. #include<iostream> int main() { int i; std::cout<<"For loop...\n"<<std::endl; for(i=0; i<10; ++i) std::cout<<i; std::cout<<'\n'<<std::endl; std::cout<<"While loop...\n"<<std::endl; i=0; while(i<10) std::cout<<i++; std::cout<<'\n'<<std::endl; std::cout<<"Do-while loop...\n"<<std::endl; i=0; do { std::cout<<i; }while( ++i<10 ); std::cout<<'\n'<<std::endl; std::cout<<"Goto loop...\n"<<std::endl; i=0; again: std::cout<<i; if(++i<10) goto again; std::cout<<'\n'<<std::endl; } Output: For loop... 0123456789 While loop... 0123456789 Do-while loop... 0123456789 Goto loop... 0123456789
Mumps is not a STD.
Haemophilus is not a STD.