Anything characteristic that can be measured on a ratio scale. It could be the lengths of two objects, or their mass, or age, or louness.
The ratios of areas are the squares of the ratio of lengths (and the ratio of volumes are cubes of the ratio of lengths). As the perimeter of the second is twice the perimeter of the first, each length of the second is twice the length of the first, and so the ratio of the lengths is 1:2 Thus the ratio of the areas is 1²:2² = 1:4. Therefore the surface area of the larger prism is four times that of the smaller prism.
Each 0 or 1 is a bit (bit being short for "binary digit") a byte is 8 of these (byte being short for "binary eight")
It is 46/1.
use 4:1 lean ratio b)use7:1 lean ratio c)use 2:3 lean ratio d)none
16:1
A ratio is two number being compared. This could look like 1:2 or 1/2.
23 chromosomes for every 1 sex cell??
The ratio for 3 thirds is simply 1/2, the 2 being the 2 thirds, and the 1 being the rest.
90% compared to the remaining 10%. its a ratio 90:10, or 9 to 1
If the question relates to the ratio 21 : 8 compared with 3 : 1 then they are not equal. Dividing both parts of the first ratio by 8 gives 2⅝ : 1. However, 21 : 7 is equivalent to 3 : 1 as division of both parts of the first ratio by 7 gives 3 : 1.
According to some statistics, the ratio is about 9.7:1, 9.7 being the most favorite blue, and 1 being pink. So, pink rates very low compared to the most favorite blue.
The ratio (for the covalent radius of the atom) is cca. 1/25000.
Begin with the ratio 0.5 : 0.75 Multiply both parts of the ratio by 2: 1 : 1.5 You can multiply by two again: 2 : 3 Both of these are simplified compared to the original. Which one is used depends on how the ratio is being used. Some ratios are easier to work with and understand with whole number so 2 : 3 would be used. In other cases, using 1 as part of the ratio makes it easier to work with, so then 1 : 1.5 may be used. All of them describe the same ratio.
Mass ratio proton (neutron)/electron: 1 836
1/25
Yes. The different notes represent different frequencies of vibration. One octave is a vibration ratio of 1 : 2. Since each octave has 12 half-notes, and the vibration ratio is the same for each, the vibration ratio from one half-note to the next is 1 : 12th. root of 2, or 1 : 121/12.Yes. The different notes represent different frequencies of vibration. One octave is a vibration ratio of 1 : 2. Since each octave has 12 half-notes, and the vibration ratio is the same for each, the vibration ratio from one half-note to the next is 1 : 12th. root of 2, or 1 : 121/12.Yes. The different notes represent different frequencies of vibration. One octave is a vibration ratio of 1 : 2. Since each octave has 12 half-notes, and the vibration ratio is the same for each, the vibration ratio from one half-note to the next is 1 : 12th. root of 2, or 1 : 121/12.Yes. The different notes represent different frequencies of vibration. One octave is a vibration ratio of 1 : 2. Since each octave has 12 half-notes, and the vibration ratio is the same for each, the vibration ratio from one half-note to the next is 1 : 12th. root of 2, or 1 : 121/12.
Ratio is basically two different amounts compared Example: for every £1 there is 100 pennies You would write it like this 1:100 So if there was £2 you would write 2:200