An infinite amount.
For any fraction, m/n say where m,n are integers and n≠0, there are an infinite number of equivalent fractions. The fraction (am)/(an) is equivalent to m/n for any a≠0.
There are infinite equivalent fractions for any given fraction. As long as the denominator (number on the bottom) is four times the numerator (number on top), that is an equivalent fraction for 4/16. E.g. 1/4 2/8 etc.
An infinite number.
an infinite number
An infinite amount.
There are an infinite number of equivalent fractions. However, the simplest, or reduced, equivalent fraction is 3/10.
There are an infinite number of proper fractions equal to any other fraction - as long as you multiply the numerator and denominator by the same number, the fractions will be equivalent.
For any fraction, m/n say where m,n are integers and n≠0, there are an infinite number of equivalent fractions. The fraction (am)/(an) is equivalent to m/n for any a≠0.
It has infinitely many equivalent fractions. Multiply both the numerator (top) and the denominator (bottom) of the fraction by any non-zero integer and you will have an equivalent fraction.
There are an infinite number of fractions that are all equivalent to 5/5.They are all the fractions that have the same number on top and bottom.They are all equivalent to ' 1 '.If you must have it in the form of a fraction, it's 1/1 .
Any fraction whose numerator is twice the size of its denominator is equivalent to 2.There are an infinite number of them.
There are infinite equivalent fractions for any given fraction. As long as the denominator (number on the bottom) is four times the numerator (number on top), that is an equivalent fraction for 4/16. E.g. 1/4 2/8 etc.
An infinite number.
an infinite number
An infinite number! To create an equivalent fraction the numerator and denominator can be multiplied by any number; one such group of numbers that can be used to create a group of equivalent factions is the counting numbers: {1, 2, 3, 4, ...} - multiply the numerator and denominator of the original fraction by 2, then 3, then 4, etc. This group is infinite in size, therefore there are an infinite number of equivalent fractions that can be written for any given fraction.
Any rational fraction has infinitely many equivalent fractions. Multiply both the numerator (top) and the denominator (bottom) of the fraction by any non-zero integer. You will have an equivalent fraction.