Since both multiplicands are integers, then so is their product.
three
The product of 2.3 million multiplied by 9 thousand is 20.7 billion.
The word would be "ten thousand" multiplied by itself.
To find the number of decimal places in a product of decimal numbers, add up the total number of decimal places in each of the factors. For example, if you have 2.5 multiplied by 4.75, there are two decimal places in 2.5 and two decimal places in 4.75, so the product will have a total of four decimal places.
300,000 × 8 = 2,400,000 (Two million, four hundred thousand).
2
three
There will be five decimal places.
The product of 2.3 million multiplied by 9 thousand is 20.7 billion.
5.
5 and 3
The word would be "ten thousand" multiplied by itself.
To find the number of decimal places in a product of decimal numbers, add up the total number of decimal places in each of the factors. For example, if you have 2.5 multiplied by 4.75, there are two decimal places in 2.5 and two decimal places in 4.75, so the product will have a total of four decimal places.
No, the product is a variable and whether or not it is irrational will depend on the value of the variable.
300,000 × 8 = 2,400,000 (Two million, four hundred thousand).
There are 5 - unless one of the multiplicands ends in 5 and the last digit of the other is even.
The product of any mathematical sum is the numbers multiplied together. For example, the product of 7 and 8 is 56. Products can just as validly be used for negative and/or decimal numbers.