A piece of string 5 k long is 5 kilometers, or 3.1 miles, long
Knot.
#include<stdio.h> #include<conio.h> #include<ctype.h> main() { char string[80]; int n,k=0; clrscr(); while((string[k]=getche())!='\r') k++; string[k]='\0'; n=k; k=0; while(k<n) { putchar(toupper(string[k])); k++; } }
A string quintet has five string instruments, either as 2 violins, 2 violas and one violoncello (as the Mozart string quintets, K. 174, K. 515, K. 516, K. 516b (406), K. 593 & K. 614 or Brahms' 2 string quintets, op. 88 & op. 111) or as 2 violins, one viola and 2 violoncellos (as the numerous Boccherini string quintets). However there is another category with a standard string quartet and a double bass, sometimes referred to as a string quintet.
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John K. String the 3rd invented string.why do you ask? huh punk?
Yes, it is a string quartet, and was written in g minor, and by Mozart.
The potential energy in a guitar string can be calculated from PE = integral F dx, where x is the distance the string is stretched. Using Hooke's Law, F=kx, where k is the elastic modulus, and x is the distance the string is stretched. Putting it together, PE = integral kx dx PE = 1/2 k x^2. The value of x varies depending on the tuning and the size of the guitar, and the value of k varies depending on the type of string used. As an example, say a typical guitar string has a tension of about 60 Newtons, and is stretched by 5 cm. From this we can find k = 1200 kg/s^2. Fully stretched, PE = 1/2 (1200) (0.05)^2 = 1.5 Joules.
Kayla. Karla too.
Gad M. Landau has written: 'An efficient string matching algorithm with k differences for nucleotide and amino acid sequences' 'An efficient string matching algorithm with k differences for nucleotide and amino acid sequences' -- subject(s): Accessible book 'Efficient string matching with k mismatches' -- subject(s): Accessible book
If you mean: kk-5 then it can be k^2-5 But if you mean: k+k-5 then it can be 2k-5
k divided by 5
k - 5