It is simply a fraction: nothing more, nothing less.
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You can get a repeating fraction with any denominator whose prime factors include some numbers other than 2 or 5. This is because 2 and 5 are the prime factors of 10 - the base of our decimal system. In this case, the denominator can be any of: 3, 6, 7, 9
Reduce the fraction to its simplest form - that is, remove any common factors between the numerator and denominator. If the denominator now is a factor of some power of 10, that is, if the denominator is of the form 2a*5b then the fraction will me a terminating decimal. If not, it will not.
Just write ANY fraction, with a polynomial in the numerator, and a polynomial in the denominator.
In general: The reciprocal of a fraction is obtained by interchanging the numerator and the denominator, i.e. by inverting the fraction.2/33/217/2424/17
The word "common" indicates that there will be at least two. You have one. Your answer will be some multiple of 4.
That is not true. 2/7 is a fraction and 7 is not a multiple of 10.
A fraction whose denominator is different to that of some reference fraction.
A fraction is terminating when the fraction, in simplest terms, has a denominator whose only prime factors are 2 and 5. This is related to the fact that our decimal system is based on the number 10 = 2 x 5. Any other prime factor in the denominator - 3, 7, 11, etc. - will be recurring.A fraction is terminating when the fraction, in simplest terms, has a denominator whose only prime factors are 2 and 5. This is related to the fact that our decimal system is based on the number 10 = 2 x 5. Any other prime factor in the denominator - 3, 7, 11, etc. - will be recurring.A fraction is terminating when the fraction, in simplest terms, has a denominator whose only prime factors are 2 and 5. This is related to the fact that our decimal system is based on the number 10 = 2 x 5. Any other prime factor in the denominator - 3, 7, 11, etc. - will be recurring.A fraction is terminating when the fraction, in simplest terms, has a denominator whose only prime factors are 2 and 5. This is related to the fact that our decimal system is based on the number 10 = 2 x 5. Any other prime factor in the denominator - 3, 7, 11, etc. - will be recurring.
The denominator will change for some operations and not for others.
-- Some fractions are equal to mixed numbers (example 4/3). Some are not ( example 2/3). -- The fraction can be re-written as a whole number only if its numerator is a multiple of its denominator. -- If its numerator is greater than its denominator but not a multiple of it, then the fraction can be re-written as a mixed number. -- If neither condition is true, then the fraction can't be re-written as either a mixed number or a whole number.
You can get a repeating fraction with any denominator whose prime factors include some numbers other than 2 or 5. This is because 2 and 5 are the prime factors of 10 - the base of our decimal system. In this case, the denominator can be any of: 3, 6, 7, 9
set, whole, numerator, and denominator
Reduce the fraction to its simplest form - that is, remove any common factors between the numerator and denominator. If the denominator now is a factor of some power of 10, that is, if the denominator is of the form 2a*5b then the fraction will me a terminating decimal. If not, it will not.
An improper fraction is one in which the numerator is larger than the denominator, as a result of which the value of the fraction is greater than one, and it could be expressed therefore as some integer plus a proper fraction in which the numerator is smaller than the denominator.
Any fraction whose numerator (top number) is larger than the denominator (bottom number), for example 2/3, 11/20, or 59/93.
1/22/33/44/55/66/77/88/99/1010/1111/1212/1313/1414/1515/1616/1717/1818/1919/20What's the point ?Oh I get it ! A fraction whose numerator and denominator have no common factor greater than 1 is a fraction that is reduced to lowest terms.
A fraction is a kind of number: it cannot have an answer. You want an answer to some process that is applied to the fraction but we have no hope of guessing what process that might be.