Integers are 5, 6, 7, 8 and 9
There are no prime numbers greater than 10 that add up to 29. Since all prime numbers greater than 2 are odd numbers, no two prime numbers greater than 2 can have an even number for their sum.
Half of 10 is 5.So numbers in the range 800 ± 5 round to 800 to the nearest 10, except that numbers exactly half way round up. Thus all numbers greater than or equal to 800 - 5 round up to 800 and all numbers less than 800 + 5 round down to 800,That is all numbers greater than or equal to 795 and less than 805 will round to 800 to the nearest 10.
The even numbers greater than 10 but less than 20 are 12, 14, 16, and 18. To find the sum of these numbers, you would add them together: 12 + 14 + 16 + 18 = 60. Therefore, the sum of the even numbers greater than 10 but less than 20 is 60.
If a decimal ends in a value greater than 0.50, then you round up, so 9.84 would round to 10.
Integers greater than 1, that are not prime numbers, are called composite numbers, because they are "made up of" more than one prime factor.
0.45 is greater than 0.067 When determining greater, start by lining up the numbers at the decimal point and compare the digit farthest left in both numbers. This works for any pair of numbers. 0.45 0.067 Since the first digit in both numbers is the same, we move on to the next digit. 4 is greater than 0, which means 0.45 is greater than 0.067
To find a decimal number greater than 1 but less than 10 that adds up to 16, you can use the following approach: Start with the number 1.00 (since it's greater than 1 but less than 10). Add 15 to it. So, 1.00 + 15.00 = 16.00. Therefore, the decimal number you're looking for is 16.00. It's greater than 1 but less than 10 and adds up to 16.
To find the number of whole numbers less than 100 that are 10 greater than an odd whole number, we can set up an equation. Let x represent the odd whole number. Therefore, the number that is 10 greater than x is x + 10. Since x is odd, it can be represented as 2n + 1, where n is a non-negative integer. Substituting this into the equation x + 10 = 2n + 1 + 10, we get 2n + 11. To find the number of such numbers less than 100, we need to find the largest possible value of n such that 2n + 11 < 100. Solving for n, we get n < 44.5, which means the largest possible integer value for n is 44. Therefore, there are 45 odd whole numbers less than 100 that are 10 greater than an odd whole number.
Oh, dude, let's break this down. If one number is 6 greater than the other, we can set up an equation like x = y + 6. Since both numbers are greater than -15 and less than 5, we know they fall within the range of -14 to 4. So, the numbers are -14 and -8. Easy peasy lemon squeezy!
They add up to 26
Whole numbers greater than 4 include 5, 6, 7, 8, 9, and so on. Whole numbers are non-negative integers that do not have any fractional or decimal parts. In set notation, the whole numbers greater than 4 can be represented as {5, 6, 7, 8, 9, ...}.
Every number greater than 2.55 and less that 2.6 rounds up to 2.6 .