Comprehension Passage
Directions: Study the following information carefully and answer the related questions.
Five containers P, Q, R, S, and T hold a combination of three chemicals: Butane, Methanol, and Propanal. The aggregate volume of Butane and Methanol in all these containers is (4∝ + 6β - 100) milliliters. Of this, container P contains 18.75%, container Q has 6.25% and container R holds 31.25% of the Butane and Methanol mix. The total volume of the mixture in containers Q, R, and T is (β - 100) milliliters, (2∝ + 2β) milliliters, and (4∝ - β) milliliters, respectively. Whereas, the total volume of the mixture in container P is 100 milliliters more than what's present in container T. Additionally, the total volumes of the mixture in containers R and S are the same. The proportions of Butane to Methanol in containers P, Q, and R are 2:3, 5:4, and 1:2 respectively. The volumes of Propanal in containers S and T are (2β - 25) milliliters and (∝ + 100) milliliters respectively. The volumes of Butane in containers S and T are (∝ + 50) milliliters and (β + 150) milliliters respectively. Furthermore, container P has 30 milliliters more Methanol than what's contained in container S. The combined volume of Methanol and Propanal in container Q is 16.67% of the total volume of Methanol and Propanal in container T.
Five containers P, Q, R, S, and T hold a combination of three chemicals: Butane, Methanol, and Propanal. The aggregate volume of Butane and Methanol in all these containers is (4∝ + 6β - 100) milliliters. Of this, container P contains 18.75%, container Q has 6.25% and container R holds 31.25% of the Butane and Methanol mix. The total volume of the mixture in containers Q, R, and T is (β - 100) milliliters, (2∝ + 2β) milliliters, and (4∝ - β) milliliters, respectively. Whereas, the total volume of the mixture in container P is 100 milliliters more than what's present in container T. Additionally, the total volumes of the mixture in containers R and S are the same. The proportions of Butane to Methanol in containers P, Q, and R are 2:3, 5:4, and 1:2 respectively. The volumes of Propanal in containers S and T are (2β - 25) milliliters and (∝ + 100) milliliters respectively. The volumes of Butane in containers S and T are (∝ + 50) milliliters and (β + 150) milliliters respectively. Furthermore, container P has 30 milliliters more Methanol than what's contained in container S. The combined volume of Methanol and Propanal in container Q is 16.67% of the total volume of Methanol and Propanal in container T.
The total mixture from container R is transferred into container T. Subsequently, 2695 milliliters of the mixture in container T is removed. After this, K milliliters of a different mixture, which is composed of Butane, Methanol, and Propanal in a 3:2:5 ratio from another container G, is added to container T. In the end, the proportion of Butane, Methanol, and Propanal in the final mixture present in container T is 5:5:6. The question posed is, what is the numeric value of K?
1
32
2
30
3
28
4
25
5
None of these