, m, m ,
In the real numbers, this can't be factored. In the complex numbers, factoring is possible, for example like this: m2 + n2 = (m + in)(m - in)
m and n are two different letters there numbers are different also
1000
They are numbers of the form m, m+1 and m+2 where m is an integer. However, sometimes it can be easier - particularly with an odd number of consecutive integers - to write them as n-1, n and n+1 where n is an integer (= m+1).
The natural numbers are the counting numbers Thus the set m of those counting numbers less than 5 is: m = {1, 2, 3, 4}
Let the numbers be m & m+1 (consecutive) Hence their squares are m^2 & ( m + 1)^2 => m^2 & m^2 + 2m + 2 Hence Their sum is m^2 + m^2 + 2m + 1 = 85 2m^2 + 2m - 84 = 0 m^2 + m - 42 =0 Factor (m + 7)(m - 6) = 0 Hence the numbers are 6 & 7 .
22 colors
, m, m ,
No. Motorways have M numbers, not A numbers.
In the real numbers, this can't be factored. In the complex numbers, factoring is possible, for example like this: m2 + n2 = (m + in)(m - in)
Million is a number. It begins with the letter m.
it is not possible. Here is a simple explanation. Let m & n be whole numbers, so m² & n² are both perfect square numbers. Now multiply them together, and: m² * n² = (m*n)². Since m and n are both whole numbers, then m*n is a whole number, so (m*n)² is a perfect square.
The Roman numeral is 'M'
m and n are two different letters there numbers are different also
million
1000