answer
no
No, it is not.
yes it is
You can indicate the multiplication with a multiplication sign. If your matrices are "A" and "B", the product is: A x B In other words, you are indicating the product, but not actually carrying out any multiplication. Anybody who understands about matrices should know what this refers to.
just make the matrices upper triangular by making the values below the digonal zero,and then find how many minors can be calcuted.......
In short, the answer to a multiplication problem. The product of 3 and 5 is 15. There can be other kinds of products, like the product of matrices or vectors, but they're all about multiplication.
The dot-product and cross-product are used in high order physics and math when dealing with matrices or, for example, the properties of an electron (spin, orbit, etc.).
The product of a p x q and a r x s matrix is defined only if q = r and, if so, it is a p x s matrix.
A product is a operation involving two or more inputs (numbers, matrices, etc). A "number that is half of 12" comprises only a single number and so there cannot be any product.
The statement that the rank of product of two matrices cannot exceed the rank of either factor is a true statement. The rank of a matrix is the largest number of linearly independent rows or columns. The column rank is equal to the row rank in every matrix.
To find the area of a triangle, you have to multiply the base of the triangle and the height of the triangle, then divide the product of those numbers by two.
Yes if they are elements of a commutative (Abelian) set, but not otherwise. So it would not work with matrices, for example.