tell how you could use a number line to determine which of two numbers is greater
to the right is greater and to the left is smaller.
5 or 10
An unkown number is greater than 456782 but less than 489211 the thousands digits is greater than 4 the ten thousands digit is not 6 or 7 give a range of numbers that the unknown number could be?
It is hard to determine a person that has a number tied to their name, unless you know what the numbers stand for. The numbers 123456789 could be an id number for someone in the government or a persons id number in witness protection.
It would have to be an even number greater than one as well.
Not enough information.
There is no way to determine the amount of perfect numbers there are. The number could be infinite, but this has yet to be proven. It has also yet to be proven if there are any odd perfect numbers.
Pick three numbers. If the square of the largest number is equal to the sum of the squares of the other two, then the three numbers could represent the sides of a right triangle.
yes i think it could
It depends on the whole number. The two numbers could be positive or negative which means that the product could be larger or smaller.
Any prime numbers greater than 2 will be odd numbers. The difference between two odd numbers will be an even number. So, the difference between two prime (and odd) numbers could be 2, 4, or 6, of the numbers given. The difference could not be 3, 5, or 7.
Hyndland, although with number portability it could be anywhere in greater Glasgow.
There are a number of things you could do to the small number: -- Add positive numbers to it. -- Subtract negative numbers from it. -- Multiply it by numbers greater than ' 1 ' . -- Divide it by numbers less than ' 1 '. -- Raise it to positive powers greater than ' 1 '. Repeat any of these steps until the small number grows to the size you want.
The answer depends on which number is missing. It could be any number from 71 to 100.
Numbers greater than seventy million and less than one hundred million could have a 7, 8 or 9 in the ten millions place.
11.5 is bigger than 2.5 is.
n - 2, where n is the number. This is because you could check from 1 to n, discluding both of those.
It can't be one. Mixed numbers are greater than one. As a fraction 0.222... = 2/9 As a mixed number consists of a whole number and a fraction you could say it is the whole number 0 and the fraction 2/9 = 0²/₉ as a mixed number, but the absolute value of a mixed number is usually greater than 1.
It means greater/less than or equal to. For instance x>3 could be any number greater than 3, but not 3. With the underline, it could be any number greater than or including 3.
020 is the area code for London. You cannot determine the location any more specifically than that. Originally, the old outer London numbers (0181) were transferred to numbers starting 020 8xxx, which explains the mistaken belief that numbers in that range must be located in outer London. New numbers are being issued to central London starting with 020 8xxx. Also, with number portability, any specific 020 number could be located anywhere in the greater London 020 area.
Could you generate a complete set of 6 number combinations from 45 numbers ?
This question has no clear answer: Based on the rules of rounding, the actual value of a number rounded to 4.04 could be any value from 4.04500000000... to 4.035000......., while a number rounded to 4.040 could have an actual value between 4.040500000000... to 4.0395000000.... These ranges overlap, so that either of the given numbers can be greater than the other.
No matter what you mean with "ultra long" - you can make numbers as large as you like. There is no last number. For instance, if you have a very large number, you can add 1 to it, to make an even larger number. Or you can attach a zero at the end.
Depends what the numbers actually represent. You could have 6 whole numbers or 46 parts of 1, as in 46/46.