yes
by someom e
When you raise a number to the third power, you get the 'cube' of the original number.
Multiply the number by itself three times. For example: if you want to raise the number 2 to the third power then 2^3=2x2x2=8.
When you raise a number to the third power, you get the 'cube' of the original number
Multiply it by itself.
It is raised to the second power
If n is a natural number and M is a matrix, then Mn denotes the matrix M multiplied by itself n times. We can include n=0, but that is just the identity matrix. So the power of a matrix is very similar to the exponents that are used for numbers.
Multiply the number by itself.
When you raise a number to the third power, you get the 'cube' of the original number.
Multiply the number by itself three times. For example: if you want to raise the number 2 to the third power then 2^3=2x2x2=8.
When you raise a number to the third power, you get the 'cube' of the original number
Multiply it by itself.
It is raised to the second power
You multiply the number by itself 115 times.
It is the diagonal entries of the matrix raised to a power.
Yes the number is raised to the second power
The logarithm of that number to the base.
Each number in the matrix is called an element of the matrix