2 x 33 = 54
23 x 11 = 88
23 x 7 = 56
Ah, isn't that a happy little question! The factor of 28 in index notation is 2^2 * 7. See how we can break down 28 into its prime factors of 2 and 7, and then write it in index notation for a clear and beautiful representation.
The index notation of 294 is 2 x 3^5, where 2 is the base and 5 is the exponent. This means that 294 can be expressed as the product of 2 and 3 raised to the power of 5. In index notation, the number is broken down into its prime factors and expressed as a product of primes with corresponding exponents.
Since 27 is a factor of 54, and 27 cannot have a larger factor than itself, the greatest common factor of 27 and 54 is 27.
23 x 11 = 88
23 x 7 = 56
Ah, isn't that a happy little question! The factor of 28 in index notation is 2^2 * 7. See how we can break down 28 into its prime factors of 2 and 7, and then write it in index notation for a clear and beautiful representation.
Index notation for 125 = 1.25 × 102
6 is a factor of 54.
54 = 00110110
No, 54 is a factor of 108.
Step 1 : Prime Factorise each number and write in index notation. Step 2 : Multiply the lowest power of each common factor of the given numbers
No, 5 is not a factor of 54.
In mathematics and computer programming, Index notation is used to specify the elements of an array of numbers. The terms "index notation", or "indicial notation" are sometimes used to refer to Einstein notation. The formalism of how indices are used varies according to the subject. In particular, there are different methods for referring to the elements of a list, a vector, or a matrix, depending on whether one is writing a formal mathematical paper for publication, or when one is writing a computer program. This is not to be confused with "index form" which is the writing of prime factorizations using exponents.
8 is not a factor of 54.
The greatest common factor 54 and 66 is 23.