The similarity ratio of two circles can be determined by the ratio of their areas. Given the areas of the circles are 2π m² and 200π m², the ratio of the areas is ( \frac{2\pi}{200\pi} = \frac{2}{200} = \frac{1}{100} ). The similarity ratio, which is the square root of the area ratio, is therefore ( \sqrt{\frac{1}{100}} = \frac{1}{10} ). Thus, the similarity ratio of the two circles is ( 1:10 ).
It is 200:1.
To find 200 to the ratio of 2 and 3, we first need to add the two parts of the ratio (2 + 3 = 5). Then, we divide 200 by the sum of the ratio parts (200 ÷ 5 = 40). Therefore, 200 to the ratio of 2 and 3 is 40.
To write 200 of 150 in a ratio, you express it as 200:150. This can be simplified by dividing both numbers by their greatest common divisor, which is 50, resulting in a simplified ratio of 4:3. Therefore, the ratio of 200 to 150 is 4:3.
200:10 = 20:1
.5% = .5/100 = 1/200 so the ratio would be 1:200
200 divided in the ratio of 19 = 10.526315789473685
It is 200:1.
It is A/200.
To find 200 to the ratio of 2 and 3, we first need to add the two parts of the ratio (2 + 3 = 5). Then, we divide 200 by the sum of the ratio parts (200 ÷ 5 = 40). Therefore, 200 to the ratio of 2 and 3 is 40.
To write 200 of 150 in a ratio, you express it as 200:150. This can be simplified by dividing both numbers by their greatest common divisor, which is 50, resulting in a simplified ratio of 4:3. Therefore, the ratio of 200 to 150 is 4:3.
200:10 = 20:1
.5% = .5/100 = 1/200 so the ratio would be 1:200
It is: 1 to 4
It is: 5 to 6
127/200
10.
The ratio for 200 ppm (parts per million) can be expressed as 200 parts of a substance per one million parts of the total solution or mixture. This means that in a solution containing 200 ppm of a substance, there are 200 units of that substance for every 1,000,000 units of the total solution. Thus, the ratio can be simplified as 200:1,000,000 or 1:5,000 when reduced.