Document
... A. The square root of any whole number is a whole number. B. The absolute value of any nonzero rational number is positive. C. All functions are relations, so all relations are functions. D. All linear equations have only one solution. ...
... A. The square root of any whole number is a whole number. B. The absolute value of any nonzero rational number is positive. C. All functions are relations, so all relations are functions. D. All linear equations have only one solution. ...
Full text
... (x(l), x(2),..., x{rij) = (x(ri), x(n -1),..., x(l)). Of course, an infinite sequence cannot be a palindrome—however, we shall call an infinite sequence x = (x(l), x(2),...) & palindromic sequence if for every Nthere exists n> N such that the finite sequence (x(l), x(2),..., x{n)) is a palindrome. I ...
... (x(l), x(2),..., x{rij) = (x(ri), x(n -1),..., x(l)). Of course, an infinite sequence cannot be a palindrome—however, we shall call an infinite sequence x = (x(l), x(2),...) & palindromic sequence if for every Nthere exists n> N such that the finite sequence (x(l), x(2),..., x{n)) is a palindrome. I ...
SOLVING FIRST ORDER DIFFERENTIAL EQUATIONS
... 3. Solve for y(x), the explicit solution. If this is not possible, then your result is an implicit solution. ...
... 3. Solve for y(x), the explicit solution. If this is not possible, then your result is an implicit solution. ...
Feb 2005
... squares have a remainder of 1 when divided by 40. It might be obvious that the solutions must be odd numbers, which would narrow it down to 20 numbers. Another way to find the solutions is to consider numbers that are 1 more than a multiple of 40 and look for perfect squares. These numbers are 1, 41 ...
... squares have a remainder of 1 when divided by 40. It might be obvious that the solutions must be odd numbers, which would narrow it down to 20 numbers. Another way to find the solutions is to consider numbers that are 1 more than a multiple of 40 and look for perfect squares. These numbers are 1, 41 ...
