35 out of 100 = 7/20 = seven out of twenty experts
To get a ratio from two fractions, first simplify each fraction to its simplest form if necessary. Then, express the two fractions as a single ratio by writing them in the form of "fraction1 : fraction2." You can also convert the fractions to a common denominator or decimal form for easier comparison. Finally, interpret the ratio to understand the relationship between the two fractions.
3 sailboat to 6 motorboats
2 and 11/100
To find a ratio inside a ratio, first identify the two ratios you want to compare. Then, express each ratio as a fraction. To find the ratio of these fractions, divide one fraction by the other, which involves multiplying the first fraction by the reciprocal of the second. Finally, simplify the resulting fraction, if necessary, to get the ratio inside the ratio.
To simplify any fraction or ratio you have to find a number that can be multiplied to get both numbers. In this case it would be the number 7, now you would just divide each by 7. So the simplest form of this ratio is 7 to 2.
5/6 or 5 to 6 as a ratio.
4 in 10 becomes 2 in 5 in its simplest form.
To express the ratio of 12 missed days to 180 school days in simplest form, we need to find the greatest common divisor (GCD) of the two numbers, which is 12. Dividing both numbers by 12 gives us the simplified ratio of 1 missed day to 15 school days. So, the simplest form of the ratio is 1:15.
To get a ratio from two fractions, first simplify each fraction to its simplest form if necessary. Then, express the two fractions as a single ratio by writing them in the form of "fraction1 : fraction2." You can also convert the fractions to a common denominator or decimal form for easier comparison. Finally, interpret the ratio to understand the relationship between the two fractions.
0.77
The simplest atomic ratio of the elements in a compound is determined by dividing the subscripts in the chemical formula by the greatest common factor. This ratio represents the smallest whole number ratio of atoms of each element in the compound.
3 sailboat to 6 motorboats
2 and 11/100
2/3
Empirical formula.
The smallest whole number ratio of elements in an ionic or covalent compound is known as the empirical formula. It represents the simplest ratio of atoms of each element in a compound.
The empirical formula of a compound is the simplest whole-number ratio of the elements in the compound. It is determined by dividing the molar ratios of the elements in a compound by the smallest molar value to obtain whole numbers.