You can multiply 8x2 or if you can put addition into the equation you can do (3+5)x2!
If you need proof here it is
8x2 can be shown as 8+8 Which equals 16.
16 and 3
67
No. The easiest counter-example to show that the product of two irrational numbers can be a rational number is that the product of √2 and √2 is 2. Likewise, the cube root of 2 is also an irrational number, but the product of 3√2, 3√2 and 3√2 is 2.
The two numbers are -3 and -2. -3 + -2 = -5 -3 x -2 = 6
1.089 * 10 power 3 is the answer to the product of 33 * 33.
How about: 2*3*16 = 96
3 and 13
The numbers are: -8 and 2/3 because -8 plus 2/3 = -22/3 and -8 times 2/3 = -16/3
2*2*2*2*3=48 2*2=4 4*2=8 8*2=16 16*3=48
The product is the result of the multiplication of numbers. In the equation 2 x 3 = 6, 6 is the product of 2 times 3.
The numbers are: 16 and -3
In math, a product is the result of multiplying two or more numbers together. A dividend is a number that you divide by. example: 2 * 8= 16 16 is the product. example: 18/6= 3 6 is the dividend.
16 and 3
As a product of its prime factors: 2*2*2*2*3*3 = 144
The product of two composite numbers is between 11 and 17. 12 = 2 x 2 x 3, so it cannot be the product of two composite numbers, because there are only three prime factors. 13 is prime. 14 = 2 x 7, so it cannot be the number. 15 = 3 x 5, so it cannot be the number. 16 = 2 x 2 x 2 x 2, so it is the product of two composite numbers, 4 x 4. 16 is the only number that fits. Its prime factors are 2, 2, 2, and 2.
The product is 96. The two whole numbers can be any of the following pairs: 1, 96 2, 48 3, 32 4, 24 6, 16 8, 12
There are only two prime numbers that are consecutive numbers, 2 and 3. Their product is 2 x 3 = 6. The first prime numbers are 2, 3, 5, and 7 and the only two consecutive prime numbers whose product is a single digit are 2 and 3. (The next two consecutive prime numbers, 3 and 5, have a two-digit product.)