The only way to get an odd product when multiplying two whole numbers is when both of them are odd.
Thus, in your example, the only way is by choosing the odd numbers 7 and 5, whose product is 35.
Odd numbers are not divisible by even numbers.
This is not possible, 27 is an odd number, 4 odd numbers will always equal an even number.
This is not always true. If the sum of two numbers is even, then those two numbers are either both even or both odd. For example: 2 + 2 = 4 (even + even = even) 5 + 7 = 12 (odd + odd = even) 3 + 2 = 5 (odd + even = odd)
There are the same amount. Comparing is a bit tricky when there are infinite numbers or both even and odd numbers, but think of it this way: Pair each odd number with the even number right above it (1 & 2, 3 & 4, etc.). Every odd number is paired with one even number, and every even is paired with one odd number. This shows that they have the same amount.
The sum of any four odd numbers will never be equal to an odd number.
They are 9 and 4
How about: 9 and 4
I'm assuming you multiply the numbers rolled. Thus the rules of even and odd numbers come into play. The only way to get an odd product is to roll two odd numbers. The probability desired is 1 minus the probability of rolling two odd numbers. The odds of rolling an odd number is 1/2. Since the rolls are independent events, the odds of rolling two odd numbers is (1/2)2 = 1/4 So the probability of getting an even product is: 1 - 1/4 = 3/4
9
The theoretical probability of getting an odd product would depend on the specific scenario. If we are talking about rolling a pair of fair dice, the probability would be 1/2 since half of the possible outcomes (3, 5, 15, etc.) would result in an odd product. However, if we are talking about multiplying two randomly selected numbers from a large set, the probability would depend on the distribution of the numbers in the set.
Let's assume the first odd number is x. Then the next two consecutive odd numbers would be x + 2 and x + 4. The product of these three numbers is x(x + 2)(x + 4) = 29667. By trial and error, we find that x = 51 satisfies this equation. Therefore, the three consecutive odd numbers are 51, 53, and 55.
4 and 16
No odd numbers are multiples of 4.
Odd numbers are not divisible by even numbers.
This is not possible, 27 is an odd number, 4 odd numbers will always equal an even number.
This is not always true. If the sum of two numbers is even, then those two numbers are either both even or both odd. For example: 2 + 2 = 4 (even + even = even) 5 + 7 = 12 (odd + odd = even) 3 + 2 = 5 (odd + even = odd)
2 x 12 = 24, but there's an easier way if you remember that the product of the GCF and LCM of a pair of numbers will always be equal to the product of the two numbers.