A wheelchair ramp requires a minimum of 1 to 12 ratio of height to length meaning a ramp with a height of 2.2 feet, requires a length of 26.4 feet, using a proportion to describe the relationship between the required height to length ratio in the ramps height to length ratio, right to proportion in fraction form, without reducing it to the lowest terms
The required height to length ratio for the wheelchair ramp is 1:12. This can be represented as a proportion in fraction form without reducing it to the lowest terms as follows:
height/length = 1/12
So, the proportion in fraction form is 1/12.
To describe the relationship between the required height to length ratio of a wheelchair ramp in fraction form without reducing it to the lowest terms, we can use the proportion:
Height / Length = 2.2 / 26.4
The fraction form of this proportion is 2.2/26.4.
To describe the relationship between the required height to length ratio in the ramp's height to length ratio, we can use a proportion.
Let's denote the required height to length ratio as "x" (as a fraction). According to the given information, the height of the ramp is 2.2 feet and the length is 26.4 feet.
Therefore, we can set up the proportion as follows:
x = 2.2/26.4
To simplify this fraction without reducing it to the lowest terms, we can multiply both the numerator and the denominator by the same value (in this case, 10) to eliminate the decimal:
x = (2.2 x 10) / (26.4 x 10)
Simplifying further:
x = 22/264
Thus, the relationship between the required height to length ratio in the ramps height to length ratio can be described as 22/264.