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Q: Which is a decimal that could go between the mixed numbers 4 3 over 5 and 4 9 over 10 on a number line?

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In whole numbers, a decimal follows the number. Example, in the number 7, the decimal is after it, 7.0 The decimal is not visible, but it is there.

A decimal could be both. Rational numbers are numbers that can be written as a fraction. Irrational numbers cannot be expressed as a fraction.

4.7

An integer is a "whole number". The only way it can have a decimal is if the decimal part is all nothing but zeros. Then you could erase the decimal part and it wouldn't change the value of the number.

It could be 1.253215421546

20 is a number above the decimal point, so writing it as a decimal is not really possible. You could write 20.0 and include the next numbers place, but it's the same number.

there are infinite numbers between these decimals. you could have .51 .511 .5111 .51111 .51928471289347 .5918237498 .59283759823758923 as long as you keep making the number greater. all these numbers are decimals between. 0.5 and 0.6

You find the number in between the two modes. It could be a decimal.

A terminating decimal number is one whose decimal representation ends after a final number of digits. A non-terminating decimal number is one whose decimal representation goes on forever. It could be in the form of a number-string that repeats infinitely, for example, 2/11 = 0.18181818.... or one in which there is no pattern (all irrational numbers). Analogous definitions apply to numbers expressed in other bases.

No, they could not. Irrational numbers are also decimal numbers.

Depending on what you mean, it could be 63.0 (if the numbers are 35 & 98), or 0.63 (if the numbers are 0.35 & 0.98).

It could be anything between 5.500000000001 and 6.4999999999999 .

Numbers can be ordinal, cardinal or imaginary. They could also be fractional, decimal, rational or irrational.

It could be any number whatsoever.

It is a non-integer. It can be a rational fraction (in decimal or rational form); it can be an irrational number (including transcendental numbers); it could be a complex number or a quaternion.

Yes, integers are ...-3,-2,-1,0,1,2,3... all of which have an end and therefore terminate.Yes!Decimal numbers that have finite number of digits after decimal point are called terminating decimal numbers.For example,1.2, 2.3376, 4.79 are a few examples of terminating decimals.Every integer could be written as a decimal number.Like as follows:1 could be written as 1.02 could be written as 2.0-3 could be written as –3.0.We have not changed the value of the numbers but we have converted them in to decimal numbers.Source: www.icoachmath.com

"5" is already a decimal number. You could also write it as "5.0". A decimal is a whole number in the decimal (base-10) number system or a proper fraction whose denominator is a power of 10. Decimal numbers are written by convention with the whole-number part to the left of a "decimal point" (.) and the fractional part to the right. Either or both the whole or fractional part may be zero (0).

There are infinitely many decimal numbers between any two decimal numbers. For example, 6.27000000000000000000000000000000000000001 6.27000000000000000000000000000000000000002 6.27000000000000000000000000000000000000003 there are (I think) one duodecillion minus 1 such numbers. Of course, the list could be increased by another thousand if between the second and third of the above you inserted 6.27000000000000000000000000000000000000002001 6.27000000000000000000000000000000000000002002 6.27000000000000000000000000000000000000002003 and so on. Or by a million if, instead, you inserted 6.270000000000000000000000000000000000000020000016.270000000000000000000000000000000000000020000026.27000000000000000000000000000000000000002000003 and so on.

That will depend on the nature of the numbers. If there are no decimal places, you could use a right tab. If there are decimal places, you could use a decimal tab. If the numbers will all have the exact same amount of digits, then you could use a left, decimal or right tab.

There are an infinite amount of numbers. Numbers never end and you could go on forever and ever into decimals. Even though the numbers would be extremely small, they are still between 1 and 2. Ex. 1.124141414676657255 1.645634678744848 You could just keep on tying numbers and numbers, as long as 1 is before the decimal, then it falls between 1. Even 1.00000000000000000000000000000001 is between 1 and 2

The rule when rounding off numbers is "If the first figure to be discarded is 5 or more then the previous figure is increased by 1". 13.55 (2dp) can be obtained from numbers with 3 decimal places ranging from 13.545 to 13.554. Six possibilities for the original number are 13.545, 13.547, 13.549, 13.551, 13.552, 13.554. NOTE : If the choice of original numbers were extended to numbers having (say) 6 decimal places of figures then the six possible numbers could have been chosen from the range 13.545001 to 13.554999

I believe it's accurate to say that there are an infinite number of subsetsof real numbers. Not only that, there could be an infinite number of subsetsthat have an infinite number of members.A few of them would be:the odd numbersthe even numbersthe even numbers between 10 and 20the even numbers between 10 and 22the even numbers between 10 and 24the even numbers between 10 and 26the integers greater than 137the numbers between 4.0 and 4.1 that have more than 2 decimal placesthe prime numbers greater than 68,597the integers containing at least one '6'the powers of '2'...etc.

11 and 7 have a difference of 4.

Yes.

Any game that uses two cubic dice, for example. Decimal numbers are simply a way of representing a number in such a way that the place value of each digit is ten times that of the digit to its right. A decimal representation does not require a decimal point or fractional parts. This is not true for a single die since the numbers could be octal.